Information
-
Patent Application
-
20040023966
-
Publication Number
20040023966
-
Date Filed
March 10, 200321 years ago
-
Date Published
February 05, 200420 years ago
-
Inventors
-
Original Assignees
-
CPC
-
US Classifications
-
International Classifications
- A61K031/53
- A61K031/513
- A61K031/506
Abstract
A pyrimidinylbenzimidazole or triazinylbenzimidazole derivative represented by the general formula (I):
1
Description
TECHNICAL FIELD
[0001] The present invention relates to novel pyrimidinylbenzimidazole and triazinylbenzimidazole derivatives and agricultural/horticultural fungicides containing said derivatives as the active ingredients.
BACKGROUND ART
[0002] As compounds related to the pyrimidinylbenzimidazole derivatives of the present invention, 4-aminopyrimidine derivatives disclosed as pharmaceuticals in U.S. Pat. No. 5,525,604 and European Patent No. 640,599 and pyrimidine derivatives disclosed as herbicides in International Publication No. WO94/17059, are mentioned, but no disclosure regarding agricultural/horticultural fungicides has been made. French Patent No. 1,476,529 discloses benzimidazolyl sulfonamide derivatives having insecticidal and fungicidal activities, but no disclosure regarding the present compounds has been made. Further, as compounds related to the triazinylbenzimidazole derivatives of the present invention, triazine derivatives disclosed in JP-A-47-36837, JP-A-49-17677 and Kogyo Kagaku Zassi (Journal of Industrial Chemistry) vol 73, No. 5, p1000 (1970) as coloring agents for textile goods, may be mentioned, but no disclosure regarding agricultural/horticultural fungicides has been made. Further, anilinopyrimidine derivatives as production intermediates therefor have not been known.
[0003] The present invention provides novel pyrimidinylbenzimidazole and triazinylbenzimidazole derivatives and agricultural/horticultural fungicides containing them as the active ingredients.
[0004] The present inventors have conducted extensive studies to create novel agricultural/horticultural fungicides and as a result, found that the pyrimidinylbenzimidazole and triazinylbenzimidazole derivatives of the present invention (hereinafter referred to as compounds of the present invention) are novel compounds which are not disclosed in any literatures and have outstanding effects as agricultural/horticultural fungicides, and the present invention has been accomplished.
DISCLOSURE OF THE INVENTION
[0005] Namely, the present invention resides in a pyrimidinylbenzimidazole or triazinylbenzimidazole derivative represented by the general formula [I]:
2
[0006] {wherein A is N or CR3, each of R1 and R2 which are independent of each other, is a hydrogen atom, a halogen atom, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C3-C6) cycloalkyl group, a (C1-C4) haloalkyl group, a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C3-C6) cycloalkoxy group, a (C1-C4) haloalkoxy group, a cyano (C1-C4) alkyloxy group, a (C1-C4) alkoxy (C1-C4) alkyloxy group, a (C3-C6) cycloalkyl (C1-C4) alkoxy group, a benzyloxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C6) alkylthio group, a (C1-C4) alkoxy (C1-C4) alkyl group, a phenoxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C4) alkylcarbonyl group, a formyl group, a phenyl group, a di(C1-C4) alkylamino group, a cyano group or a (C1-C6) alkylsulfonyl group, R3 is a hydrogen atom, a (C1-C6) alkyl group, a (C1-C6) alkoxy group or a halogen atom, X is a hydrogen atom, a halogen atom, a nitro group, a cyano group, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C3-C6) cycloalkyl group, a benzyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C1-C6) alkylthio group, a (C1-C6) alkylsulfonyl group, a phenoxy group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) haloalkyl group, a (C1-C4) haloalkoxy group, a (C1-C4) alkylcarbonyl group, a (C1-C4) alkoxycarbonyl group, an amino group, a mono(C1-C4) alkylamino group, a di(C1-C4) alkylamino group, an anilino group or a phenyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], Y is a halogen atom, a nitro group, a cyano group, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C1-C4) haloalkoxy group, a (C1-C6) alkylthio group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) haloalkyl group, a (C1-C4) alkylcarbonyl group, a (C1-C4) alkoxycarbonyl group, a benzoyl group, an amino group, a mono(C1-C4) alkylamino group, a di(C1-C4) alkylamino group, a phenyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group] or a phenoxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], and n is 0 or an integer of from 1 to 3}, an anilinopyrimidine or anilinotriazine derivative, as an intermediate therefor, represented by the general formula [XV]:
3
[0007] {wherein A is N or CR3, each of R1 and R2 which are independent of each other, is a hydrogen atom, a halogen atom, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C3-C6) cycloalkyl group, a (C1-C4) haloalkyl group, a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C3-C6) cycloalkoxy group, a (C1-C4) haloalkoxy group, a cyano (C1-C4) alkyloxy group, a (C1-C4) alkoxy (C1-C4) alkyloxy group, a (C3-C6) cycloalkyl (C1-C4) alkoxy group, a benzyloxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C6) alkylthio group, a (C1-C4) alkoxy (C1-C4) alkyl group, a phenoxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C4) alkylcarbonyl group, a formyl group, a phenyl group, a di(C1-C4) alkylamino group, a cyano group or a (C1-C6) alkylsulfonyl group, R3 is a hydrogen atom, a (C1-C6) alkyl group, a (C1-C6) alkoxy group or a halogen atom, R5 is an amino group, a nitro group or —NHCOX, X is a hydrogen atom, a halogen atom, a nitro group, a cyano group, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C3-C6) cycloalkyl group, a benzyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C1-C6) alkylthio group, a (C1-C6) alkylsulfonyl group, a phenoxy group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) haloalkyl group, a (C1-C4) haloalkoxy group, a (C1-C4) alkylcarbonyl group, a (C1-C4) alkoxycarbonyl group, an amino group, a mono(C1-C4) alkylamino group, a di(C1-C4) alkylamino group, an anilino group or a phenyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], Y is a halogen atom, a nitro group, a cyano group, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C1-C4) haloalkoxy group, a (C1-C6) alkylthio group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) haloalkyl group, a (C1-C4) alkylcarbonyl group, a (C1-C4) alkoxycarbonyl group, a benzoyl group, an amino group, a mono(C1-C4) alkylamino group, a di(Cl-C4) alkylamino group, a phenyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group] or a phenoxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], and n is 0 or an integer of from 1 to 3}, and an agricultural/horticultural fungicide containing the pyrimidinylbenzimidazole or triazinylbenzimidazole derivative as the active ingredient.
[0008] Now, the symbols and terms used in the present specification will be explained below.
[0009] The halogen atom is a fluorine atom, a chlorine atom, a bromine atom or an iodine atom.
[0010] A notation such as (C1-C6) indicates that the carbon number of a substituent following this notation is from 1 to 6 in this case.
[0011] The (C1-C6) alkyl group is a linear or branched alkyl group and may, for example, be methyl, ethyl, n-propyl, isopropyl, n-butyl, isobutyl, sec-butyl, tert-butyl, n-pentyl, isopentyl, neopentyl, n-hexyl or 3,3-dimethylbutyl.
[0012] The (C3-C6) cycloalkyl may, for example, be cyclopropyl, cyclopentyl or cyclohexyl.
[0013] The (C1-C4) haloalkyl group is a linear or branched alkyl group substituted by a halogen atom and may, for example, be fluoromethyl, chloromethyl, difluoromethyl, dichloromethyl, trifluoromethyl or pentafluoroethyl.
[0014] The (C2-C6) alkenyl group is a linear or branched alkenyl group and may, for example, be vinyl, 1-propenyl, 2-propenyl, isopropenyl, 1-butenyl or 2-butenyl.
[0015] The (C2-C6) alkynyl group is a linear or branched alkynyl group and may, for example, be ethynyl, 1-propynyl, 2-propynyl, 1-butynyl, 2-butynyl, 3-butynyl, 4-methyl-1-pentynyl or 3-methyl-1-pentynyl.
[0016] The (C1-C6) alkoxy group is an alkyloxy group wherein the alkyl moiety has the above meaning and may, for example, be methoxy, ethoxy, n-propoxy, isopropoxy, n-butoxy, isobutoxy, sec-butoxy, tert-butoxy, n-pentyloxy, isopentyloxy or n-hexyloxy.
[0017] The (C2-C6) alkenyloxy group is an alkenyloxy group wherein the alkenyl moiety has the above meaning, and may, for example, be allyloxy, isopropenyloxy or 2-butenyloxy.
[0018] The (C2-C6) alkynyloxy group is an alkynyloxy group wherein the alkynyl moiety has the above meaning, and may, for example, be 2-propynyloxy, 2-butynyloxy or 3-butynyloxy.
[0019] The (C3-C6) cycloalkoxy group is a cycloalkyloxy group wherein the cycloalkyl moiety has the above meaning, and may, for example, be cyclopropyloxy, cyclopentyloxy or cyclohexyloxy.
[0020] The (C1-C4) haloalkoxy group is a haloalkyloxy group wherein the haloalkyl moiety has the above meaning, and may, for example, be fluoromethoxy, difluoromethoxy, trifluoromethoxy or pentafluoroethoxy.
[0021] The (C1-C6) alkylthio group is an alkylthio group wherein the alkyl moiety has the above meaning, and may, for example, be methylthio, ethylthio, n-propylthio, isopropylthio, n-butylthio, isobutylthio, sec-butylthio, tert-butylthio or n-hexylthio.
[0022] The (C3-C6) cycloalkyl (C1-C4) alkoxy group may, for example, be cyclopropylmethyloxy, cyclopentylmethyloxy or cyclohexylmethyloxy.
[0023] The (C1-C4) alkoxy (C1-C4) alkyl group is a group wherein the alkyl moiety and the alkoxy moiety have the above meanings, and may, for example, be a group such as methoxymethyl, ethoxymethyl, isopropoxymethyl, pentyloxymethyl, methoxyethyl or butoxyethyl.
[0024] The (C1-C4) alkoxy (C1-C4) alkyloxy group is a group wherein the alkyl moiety and the alkoxy moiety have the above meanings, and may, for example, be a group such as methoxymethyloxy, ethoxymethyloxy, isopropoxymethyloxy, pentyloxymethyloxy, methoxyethyloxy or butoxyethyloxy.
[0025] The cyano (C1-C4) alkyloxy group is a group wherein the alkyl moiety has the above meaning, and may, for example, be a group such as cyanomethyloxy, cyanoethyloxy or cyanopropyloxy.
[0026] The (C1-C4) alkylcarbonyl group is an alkylcarbonyl group wherein the alkyl moiety has the above meaning, and may, for example, be a group such as acetyl, propionyl, butyryl, isobutyryl, pivaloyl or hexanoyl.
[0027] The (C1-C4) alkoxycarbonyl group is an alkoxycarbonyl group wherein the alkoxy moiety has the above meaning, and may, for example, be methoxycarbonyl, ethoxycarbonyl, n-propoxycarbonyl, isopropoxycarbonyl, n-butoxycarbonyl, isobutoxycarbonyl, sec-butoxycarbonyl, tert-butoxycarbonyl, n-pentyloxycarbonyl or n-hexyloxycarbonyl.
[0028] The mono (C1-C4) alkylamino group is a monoalkylamino group wherein the alkyl moiety has the above meaning, and may, for example, be methylamino, ethylamino, n-propylamino, isopropylamino, n-butylamino, isobutylamino, sec-butylamino, tert-butylamino or n-hexylamino.
[0029] The di (C1-C4) alkylamino group may, for example, be dimethylamino, diethylamino, dipropylamino or dibutylamino.
[0030] The (C1-C6) alkylsulfonyl group is an alkylsulfonyl group wherein the alkyl moiety has the above meaning, and may, for example, be methylsulfonyl, ethylsulfonyl, n-propylsulfonyl, isopropylsulfonyl, n-butylsulfonyl, isobutylsulfonyl, sec-butylsulfonyl, tert-butylsulfonyl or n-hexylsulfonyl.
[0031] Now, specific examples of the compounds of the present invention represented by the general formula [I] will be disclosed in Tables 1 to 35. However, the compounds of the present invention are not limited to such compounds. Here, the compound numbers will be referred to in the subsequent description.
[0032] Symbols in the Tables have the following meanings respectively. Me represents methyl, Et represents ethyl, Pr represents n-propyl, Pr-i represents isopropyl, Bu represents n-butyl, Pr-c represents cyclopropyl, Pn-c represents cyclopentyl, Ph represents phenyl, and Bn represents benzyl. Further, Ph(2-Cl) represents 2-chlorophenyl, and Bn(4-Cl) represents 4-chlorobenzyl, for example.
1TABLE 1
|
|
|
4
|
m.p. (° C.)
Compoundor RI
No.XYnAR1R2(nD20)
|
I-1HHCHOMeOMe167-169
1-2ClHCHOMeOMe90-91
1-3BrHCHOMeOMe87-90
1-4SMeHCHOMeOMe135-137
1-5SO2MeHCHOMeOMe114-117
1-6MeHCHOMeOMe132-134
1-7EtHCHOMeOMe102-104
1-8PrHCHOMeOMe107-110
1-9Pr-iHCHOMeOMe70-73
1-10Pr-cHCHOMeOMe62-64
1-11BuHCHOMeOMe
1-12BnHCHOMeOMe94-96
1-13Bn(4-Cl)HCHOMeOMe122-125
1-14Bn(4-Me)HCHOMeOMe88-90
1-15Bn(4-OMe)HCHOMeOMe
1-16CH═CH2HCHOMeOMe
1-17C≡CHHCHOMeOMe
1-18OMeHCHOMeOMe121-122
1-19OCH2CH═CH2HCHOMeOMe
1-20OCH2C≡CHHCHOMeOMe
1-21CH2CF3HCHOMeOMe
1-22CH2OEtHCHOMeOMe103-104
1-23CH2ClHCHOMeOMe132-135
1-24CH2IHCHOMeOMe138-141
1-25CCl3HCHOMeOMe128-131
1-26CF3HCHOMeOMe79-80
1-27C2F5HCHOMeOMe97-100
1-28NH2HCHOMeOMe
|
m.p. Melting point
RI: Refractive index
[0033]
2
TABLE 2
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-29
NHMe
H
CH
OMe
OMe
135-138
|
I-30
N(Me)2
H
CH
OMe
OMe
1.5642
|
I-31
NHPh
H
CH
OMe
OMe
|
I-32
CO2Et
H
CH
OMe
OMe
|
I-33
COMe
H
CH
OMe
OMe
|
I-34
Ph
H
CH
OMe
OMe
1.6219
|
I-35
Ph(4-Cl)
H
CH
OMe
OMe
141-144
|
I-36
Ph(4-Me)
H
CH
OMe
OMe
|
I-37
Ph(4-OMe)
H
CH
OMe
OMe
|
I-38
CN
H
CH
OMe
OMe
167-168
|
I-39
NO2
H
CH
OMe
OMe
|
I-40
H
H
N
OMe
OMe
148-151
|
I-41
Cl
H
N
OMe
OMe
168-171
|
I-42
Br
H
N
OMe
OMe
|
I-43
SMe
H
N
OMe
OMe
|
I-44
SO2Me
H
N
OMe
OMe
|
I-45
Me
H
N
OMe
OMe
180-182
|
I-46
Et
H
N
OMe
OMe
|
I-47
Pr
H
N
OMe
OMe
127-128
|
I-48
Pr-i
H
N
OMe
OMe
135-141
|
I-49
Pr-c
H
N
OMe
OMe
|
I-50
Bu
H
N
OMe
OMe
|
I-51
Bn
H
N
OMe
OMe
|
I-52
Bn(4-Cl)
H
N
OMe
OMe
|
I-53
Bn(4-Me)
H
N
OMe
OMe
|
I-54
Bn(4-OMe)
H
N
OMe
OMe
|
I-55
CH═CH2
H
N
OMe
OMe
|
I-56
C≡CH
H
N
OMe
OMe
|
I-57
OMe
H
N
OMe
OMe
|
I-58
OCH2CH═CH2
H
N
OMe
OMe
|
I-59
OCH2C≡CH
H
N
OMe
OMe
|
I-60
OCH2CF3
H
N
OMe
OMe
|
I-61
OPh
H
N
OMe
OMe
|
I-62
CH2OEt
H
N
OMe
OMe
|
|
[0034]
3
TABLE 3
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-63
CH2Cl
H
N
OMe
OMe
|
I-64
CH2I
H
N
OMe
OMe
|
I-65
CCl3
H
N
OMe
OMe
|
I-66
CF3
H
N
OMe
OMe
143-146
|
I-67
C2F2
H
N
OMe
OMe
|
I-68
NH2
H
N
OMe
OMe
261-264
|
I-69
NHMe
H
N
OMe
OMe
|
I-70
N(Me)2
H
N
OMe
OMe
|
I-71
NHPh
H
N
OMe
OMe
|
I-72
CO2Et
H
N
OMe
OMe
|
I-73
COMe
H
N
OMe
OMe
|
I-74
Ph
H
N
OMe
OMe
|
I-75
Ph(4-Cl)
H
N
OMe
OMe
|
I-76
Ph(4-Me)
H
N
OMe
OMe
|
I-77
Ph(4-OMe)
H
N
OMe
OMe
|
I-78
CN
H
N
OMe
OMe
|
I-79
NO2
H
N
OMe
OMe
|
I-80
H
4-Me
CH
OMe
OMe
138-141
|
I-81
H
4-Cl
CH
OMe
OMe
|
I-82
H
5-F
CH
OMe
OMe
175-178
|
I-83
H
5-Cl
CH
OMe
OMe
181-184
|
I-84
H
5-Br
CH
OMe
OMe
181-184
|
I-85
H
5-Me
CH
OMe
OMe
168-169
|
I-86
H
5-Bu-t
CH
OMe
OMe
138-141
|
I-87
H
5-CF3
CH
OMe
OMe
173-174
|
I-88
H
5-OMe
CH
OMe
OMe
162-164
|
I-89
H
5-OEt
CH
OMe
OMe
169-171
|
I-90
H
5-OPr
CH
OMe
OMe
|
I-91
H
5-OCF3
CH
OMe
OMe
138-141
|
I-92
H
5-OCH2CH═CH2
CH
OMe
OMe
|
I-93
H
5-OCH2C≡CH
CH
OMe
OMe
|
I-94
H
5-OPh
CH
OMe
OMe
|
I-95
H
5-OPh(4-Cl)
CH
OMe
OMe
|
I-96
H
5-OPh(4-Me)
CH
OMe
OMe
|
|
[0035]
4
TABLE 4
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-97
H
5-OPh(4-OMe)
CH
OMe
OMe
|
I-98
H
5-SMe
CH
OMe
OMe
|
I-99
H
5-CH2OMe
CH
OMe
OMe
|
I-100
H
5-COMe
CH
OMe
OMe
|
I-101
H
5-COPh
CH
OMe
OMe
223-226
|
I-102
H
5-CO2Et
CH
OMe
OMe
185-188
|
I-103
H
5-Ph
CH
OMe
OMe
162-165
|
I-104
H
5-Ph(4-Cl)
CH
OMe
OMe
|
I-105
H
5-Ph(4-Me)
CH
OMe
OMe
|
I-106
H
5-Ph(4-OMe)
CH
OMe
OMe
|
I-107
H
5-NO2
CH
OMe
OMe
|
I-108
H
5-NH2
CH
OMe
OMe
|
I-109
H
5-NHMe
CH
OMe
OMe
|
I-110
H
5-N(Me)2
CH
OMe
OMe
|
I-111
H
5-CN
CH
OMe
OMe
249-252
|
I-112
H
6-F
CH
OMe
OMe
192-193
|
I-113
H
6-Cl
CH
OMe
OMe
199-202
|
I-114
H
6-Me
CH
OMe
OMe
134-136
|
I-115
H
6-CF3
CH
OMe
OMe
192-193
|
I-116
H
6-OMe
CH
OMe
OMe
184-185
|
I-117
H
6-CO2Et
CH
OMe
OMe
184-187
|
I-118
H
6-COPh
CH
OMe
OMe
176-179
|
I-119
H
7-Me
CH
OMe
OMe
134-137
|
I-120
H
7-Cl
CH
OMe
OMe
|
I-121
H
5,6-Cl2
CH
OMe
OMe
217-220
|
I-122
H
5,6-(Me)2
CH
OMe
OMe
185-187
|
I-123
H
5,6-(OMe)2
CH
OMe
OMe
|
I-124
H
4-Br, 6-CF3
CH
OMe
OMe
188-191
|
I-125
H
4-Cl, 6-CF3
CH
OMe
OMe
204-206
|
I-126
H
4,5,6-F3
CH
OMe
OMe
|
I-127
H
4-Me
N
OMe
OMe
|
I-128
H
4-Cl
N
OMe
OMe
|
I-129
H
5-F
N
OMe
OMe
|
I-130
H
5-Cl
N
OMe
OMe
175-178
|
|
[0036]
5
TABLE 5
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-131
H
5-Br
N
OMe
OMe
>300
|
I-132
H
5-I
N
OMe
OMe
145-148
|
I-133
H
5-Me
N
OMe
OMe
177-180
|
I-134
H
5-Et
N
OMe
OMe
120-123
|
I-135
H
5-Pr
N
OMe
OMe
101-104
|
I-136
H
5-Pr-i
N
OMe
OMe
87-90
|
I-137
H
5-Bu-t
N
OMe
OMe
146-147
|
I-138
H
5-CH═CH2
N
OMe
OMe
|
I-139
H
5-C≡CBu
N
OMe
OMe
|
I-140
H
5-CF3
N
OMe
OMe
|
I-141
H
5-OMe
N
OMe
OMe
164-167
|
I-142
H
5-OEt
N
OMe
OMe
|
I-143
H
5-OPr
N
OMe
OMe
|
I-144
H
5-OCF3
N
OMe
OMe
|
I-145
H
5-OCH2CH═CH2
N
OMe
OMe
|
I-146
H
5-OCH2C≡CH
N
OMe
OMe
|
I-147
H
5-OPh
N
OMe
OMe
|
I-148
H
5-OPh(4-Cl)
N
OMe
OMe
|
I-149
H
5-OPh(4-Me)
N
OMe
OMe
|
I-150
H
5-OPh(4-OMe)
N
OMe
OMe
|
I-151
H
5-SMe
N
OMe
OMe
|
I-152
H
5-CH2OMe
N
OMe
OMe
|
I-153
H
5-COMe
N
OMe
OMe
|
I-154
H
5-COPh
N
OMe
OMe
|
I-155
H
5-CO2Et
N
OMe
OMe
|
I-156
H
5-Ph
N
OMe
OMe
|
I-157
H
5-Ph(4-Cl)
N
OMe
OMe
|
I-158
H
5-Ph(4-Me)
N
OMe
OMe
|
I-159
H
5-Ph(4-OMe)
N
OMe
OMe
|
I-160
H
5-NO2
N
OMe
OMe
210-213
|
I-161
H
5-NH2
N
OMe
OMe
|
I-162
H
5-NHMe
N
OMe
OMe
|
I-163
H
5-N(Me)2
N
OMe
OMe
|
I-164
H
5-CN
N
OMe
OMe
|
|
[0037]
6
TABLE 6
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-165
H
6-F
N
OMe
OMe
|
I-166
H
6-Cl
N
OMe
OMe
|
I-167
H
6-Me
N
OMe
OMe
|
I-168
H
6-CF3
N
OMe
OMe
|
I-169
H
6-OMe
N
OMe
OMe
|
I-170
H
6-NO2
N
OMe
OMe
>300
|
I-171
H
6-CO2Et
N
OMe
OMe
|
I-172
H
6-COPh
N
OMe
OMe
|
I-173
H
7-Me
N
OMe
OMe
|
I-174
H
7-Cl
N
OMe
OMe
|
I-175
H
5,6-Cl2
N
OMe
OMe
176-179
|
I-176
H
5,6-(Me)2
N
OMe
OMe
193-196
|
I-177
H
5,6-(OMe)2
N
OMe
OMe
|
I-178
H
4-Br, 6-CF3
N
OMe
OMe
|
I-179
H
4-Cl, 6-CF3
N
OMe
OMe
|
I-180
H
4,5,6-F3
N
OMe
OMe
|
I-181
Me
4-Me
CH
OMe
OMe
127-130
|
I-182
Me
4-Cl
CH
OMe
OMe
|
I-183
Me
5-F
CH
OMe
OMe
163-165
|
I-184
Me
5-Cl
CH
OMe
OMe
153-156
|
I-185
Me
5-Br
CH
OMe
OMe
180-183
|
I-186
Me
5-Me
CH
OMe
OMe
163-166
|
I-187
Me
5-Bu-t
CH
OMe
OMe
126-129
|
I-188
Me
5-CF3
CH
OMe
OMe
129-132
|
I-189
Me
5-OMe
CH
OMe
OMe
190-193
|
I-190
Me
5-OEt
CH
OMe
OMe
211-214
|
I-191
Me
5-OPr
CH
OMe
OMe
|
I-192
Me
5-OCF3
CH
OMe
OMe
137-139
|
I-193
Me
5-OPh
CH
OMe
OMe
|
I-194
Me
5-CO2Et
CH
OMe
OMe
173-176
|
I-195
Me
5-COPh
CH
OMe
OMe
169-171
|
I-196
Me
5-Ph
CH
OMe
OMe
164-166
|
I-197
Me
5-NH2
CH
OMe
OMe
|
I-198
Me
5-N(Me)2
CH
OMe
OMe
|
|
[0038]
7
TABLE 7
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-199
Me
5-CN
CH
OMe
OMe
211-214
|
I-200
Me
6-F
CH
OMe
OMe
162-163
|
I-201
Me
6-Cl
CH
OMe
OMe
165-166
|
I-202
Me
6-Me
CH
OMe
OMe
128-131
|
I-203
Me
6-CF3
CH
OMe
OMe
162-165
|
I-204
Me
6-OMe
CH
OMe
OMe
158-161
|
I-205
Me
6-OEt
CH
OMe
OMe
|
I-206
Me
6-OPr
CH
OMe
OMe
|
I-207
Me
6-CO2Et
CH
OMe
OMe
184-187
|
I-208
Me
6-COPh
CH
OMe
OMe
179-182
|
I-209
Me
5,6-Cl2
CH
OMe
OMe
204-206
|
I-210
Me
5,6-(Me)2
CH
OMe
OMe
169-172
|
I-211
Me
5,6-(OMe)2
CH
OMe
OMe
|
I-212
Me
4-Me
N
OMe
OMe
180-182
|
I-213
Me
4-Cl
N
OMe
OMe
|
I-214
Me
5-F
N
OMe
OMe
185-188
|
I-215
Me
5-Cl
N
OMe
OMe
173-176
|
I-216
Me
5-Br
N
OMe
OMe
>300
|
I-217
Me
5-I
N
OMe
OMe
161-164
|
I-218
Me
5-Me
N
OMe
OMe
192-195
|
I-219
Me
5-Et
N
OMe
OMe
113-116
|
I-220
Me
5-Pr
N
OMe
OMe
128-131
|
I-221
Me
5-Pr-i
N
OMe
OMe
124-125
|
I-222
Me
5-Bu-t
N
OMe
OMe
143-144
|
I-223
Me
5-CH═CH2
N
OMe
OMe
|
I-224
Me
5-C≡CBu
N
OMe
OMe
111-114
|
I-225
Me
5-CF3
N
OMe
OMe
167-170
|
I-226
Me
5-OMe
N
OMe
OMe
161-164
|
I-227
Me
5-OEt
N
OMe
OMe
|
I-228
Me
5-OPr
N
OMe
OMe
|
I-229
Me
5-OCF3
N
OMe
OMe
128-131
|
I-230
Me
5-OPh
N
OMe
OMe
|
I-231
Me
5-SMe
N
OMe
OMe
|
I-232
Me
5-CO2Me
N
OMe
OMe
148-151
|
|
[0039]
8
TABLE 8
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-233
Me
5-CO2Et
N
OMe
OMe
|
I-234
Me
5-COMe
N
OMe
OMe
155-158
|
I-235
Me
5-COPh
N
OMe
OMe
163-166
|
I-236
Me
5-Ph
N
OMe
OMe
|
I-237
Me
5-NH2
N
OMe
OMe
|
I-238
Me
5-N(Me)2
N
OMe
OMe
|
I-239
Me
5-CN
N
OMe
OMe
188-191
|
I-240
Me
6-F
N
OMe
OMe
|
I-241
Me
6-Cl
N
OMe
OMe
|
I-242
Me
6-Me
N
OMe
OMe
130-133
|
I-243
Me
6-CF3
N
OMe
OMe
|
I-244
Me
6-OMe
N
OMe
OMe
|
I-245
Me
6-OEt
N
OMe
OMe
|
I-246
Me
6-OPr
N
OMe
OMe
|
I-247
Me
6-CO2Et
N
OMe
OMe
|
I-248
Me
6-COPh
N
OMe
OMe
|
I-249
Me
5,6-Cl2
N
OMe
OMe
|
I-250
Me
4,6-(Me)2
N
OMe
OMe
172-175
|
I-251
Me
5,6-(Me)2
N
OMe
OMe
165-168
|
I-252
Me
5,6-(OMe)2
N
OMe
OMe
|
I-253
Cl
4-Me
CH
OMe
OMe
|
I-254
Cl
4-Cl
CH
OMe
OMe
|
I-255
Cl
5-F
CH
OMe
OMe
139-142
|
I-256
Cl
5-Cl
CH
OMe
OMe
159-161
|
I-257
Cl
5-Br
CH
OMe
OMe
|
I-258
Cl
5-Me
CH
OMe
OMe
145-148
|
I-259
Cl
5-CF3
CH
OMe
OMe
136-139
|
I-260
Cl
5-OMe
CH
OMe
OMe
148-150
|
I-261
Cl
5-OEt
CH
OMe
OMe
187-190
|
I-262
Cl
5-OPr
CH
OMe
OMe
|
I-263
Cl
5-OCF3
CH
OMe
OMe
102-105
|
I-264
Cl
5-OPh
CH
OMe
OMe
|
I-265
Cl
5-COPh
CH
OMe
OMe
|
I-266
Cl
5-Ph
CH
OMe
OMe
|
|
[0040]
9
TABLE 9
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-267
Cl
5-NH2
CH
OMe
OMe
|
I-268
Cl
5-N(Me)2
CH
OMe
OMe
|
I-269
Cl
5-CN
CH
OMe
OMe
|
I-270
Cl
6-F
CH
OMe
OMe
|
I-271
Cl
6-Cl
CH
OMe
OMe
163-164
|
I-272
Cl
6-Me
CH
OMe
OMe
98-101
|
I-273
Cl
5,6-(OMe)2
CH
OMe
OMe
|
I-274
Cl
4-Me
N
OMe
OMe
|
I-275
Cl
4-Cl
N
OMe
OMe
|
I-276
Cl
5-F
N
OMe
OMe
|
I-277
Cl
5-Cl
N
OMe
OMe
146-149
|
I-278
Cl
5-Br
N
OMe
OMe
|
I-279
Cl
5-Me
N
OMe
OMe
159-162
|
I-280
Cl
5-CF3
N
OMe
OMe
|
I-281
Cl
5-OMe
N
OMe
OMe
|
I-282
Cl
5-OEt
N
OMe
OMe
|
I-283
Cl
5-OPr
N
OMe
OMe
|
I-284
Cl
5-OCF3
N
OMe
OMe
|
I-285
Cl
5-OPh
N
OMe
OMe
|
I-286
Cl
5-COPh
N
OMe
OMe
|
I-287
Cl
5-Ph
N
OMe
OMe
|
I-288
Cl
5-NH2
N
OMe
OMe
|
I-289
Cl
5-N(Me)2
N
OMe
OMe
|
I-290
Cl
5-CN
N
OMe
OMe
|
I-291
Cl
6-F
N
OMe
OMe
|
I-292
Cl
6-Cl
N
OMe
OMe
|
I-293
Cl
6-Me
N
OMe
OMe
|
I-294
Cl
5,6-(OMe)2
N
OMe
OMe
|
I-295
CF3
5-F
CH
OMe
OMe
133-136
|
I-296
CF3
5-Cl
CH
OMe
OMe
114-116
|
I-297
CF3
5-Br
CH
OMe
OMe
|
I-298
CF3
5-Me
CH
OMe
OMe
93-96
|
I-299
CF3
5-CF3
CH
OMe
OMe
78-79
|
I-300
CF3
5-OMe
CH
OMe
OMe
129-132
|
|
[0041]
10
TABLE 10
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-301
CF3
5-OEt
CH
OMe
OMe
151-154
|
I-302
CF3
5-OPr
CH
OMe
OMe
|
I-303
CF3
5-N(Me)2
CH
OMe
OMe
|
I-304
CF3
5-CN
CH
OMe
OMe
|
I-305
CF3
6-F
CH
OMe
OMe
|
I-306
CF3
6-Cl
CH
OMe
OMe
|
I-307
CF3
6-Me
CH
OMe
OMe
132-135
|
I-308
CF3
5,6-(OMe)2
CH
OMe
OMe
|
I-309
CF3
5-F
N
OMe
OMe
170-173
|
I-310
CF3
5-Cl
N
OMe
OMe
135-138
|
I-311
CF3
5-Br
N
OMe
OMe
111-114
|
I-312
CF3
5-Me
N
OMe
OMe
137-140
|
I-313
CF3
5-Et
N
OMe
OMe
104-107
|
I-314
CF3
5-Pr
N
OMe
OMe
89-92
|
I-315
CF3
5-Pr-i
N
OMe
OMe
118-121
|
I-316
CF3
5-Bu-t
N
OMe
OMe
113-116
|
I-317
CF3
5-CF3
N
OMe
OMe
|
I-318
CF3
5-OMe
N
OMe
OMe
165-168
|
I-319
CF3
5-OEt
N
OMe
OMe
|
I-320
CF3
5-OPr
N
OMe
OMe
|
I-321
CF3
5-OCF3
N
OMe
OMe
187-190
|
I-322
CF3
5-SMe
N
OMe
OMe
|
I-323
CF3
5-NHMe
N
OMe
OMe
|
I-324
CF3
5-N(Me)2
N
OMe
OMe
|
I-325
CF3
5-CN
N
OMe
OMe
188-191
|
I-326
CF3
5-CO2Me
N
OMe
OMe
126-129
|
I-327
CF3
5-I
N
OMe
OMe
115-118
|
I-328
CF3
6-F
N
OMe
OMe
|
I-329
CF3
6-Cl
N
OMe
OMe
|
I-330
CF3
6-Me
N
OMe
OMe
|
I-331
CF3
5,6-(OMe)2
N
OMe
OMe
|
I-332
Et
5-F
CH
OMe
OMe
135-138
|
I-333
Et
5-Cl
CH
OMe
OMe
137-140
|
I-334
Et
5-Me
CH
OMe
OMe
120-122
|
|
[0042]
11
TABLE 11
|
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-335
Et
5-CF3
CH
OMe
OMe
117-118
|
I-336
Et
5-OMe
CH
OMe
OMe
118-120
|
I-337
Et
5-OEt
CH
OMe
OMe
|
I-338
Et
5-OPr
CH
OMe
OMe
|
I-339
Et
5-N(Me)2
CH
OMe
OMe
|
I-340
Et
5-CN
CH
OMe
OMe
|
I-341
Et
6-F
CH
OMe
OMe
|
I-342
Et
6-Cl
CH
OMe
OMe
|
I-343
Et
6-Me
CH
OMe
OMe
|
I-344
Et
5,6-(OMe)2
CH
OMe
OMe
|
I-345
Et
5-F
N
OMe
OMe
|
I-346
Et
5-Cl
N
OMe
OMe
125-128
|
I-347
Et
5-Me
N
OMe
OMe
|
I-348
Et
5-CF3
N
OMe
OMe
|
I-349
Et
5-OMe
N
OMe
OMe
|
I-350
Et
5-OEt
N
OMe
OMe
|
I-351
Et
5-OPr
N
OMe
OMe
|
I-352
Et
5-N(Me)2
N
OMe
OMe
|
I-353
Et
5-CN
N
OMe
OMe
|
I-354
Et
6-F
N
OMe
OMe
|
I-355
Et
6-Cl
N
OMe
OMe
|
I-356
Et
6-Me
N
OMe
OMe
|
I-357
Et
5,6-(OMe)2
N
OMe
OMe
|
I-358
Pr
5-Cl
N
OMe
OMe
128-131
|
I-359
Pr-i
5-Cl
N
OMe
OMe
160-163
|
I-360
Pr-c
5-Cl
N
OMe
OMe
146-149
|
I-361
NH2
5-F
CH
OMe
OMe
236-239
|
I-362
NH2
5-Me
CH
OMe
OMe
>300
|
I-363
NH2
5-CF3
CH
OMe
OMe
268-271
|
I-364
NH2
5-OMe
CH
OMe
OMe
232-235
|
I-365
NH2
5-OEt
CH
OMe
OMe
239-242
|
I-366
NH2
6-Me
CH
OMe
OMe
>300
|
I-367
NH2
5,6-(OMe)2
CH
OMe
OMe
|
I-368
NH2
5-Cl
N
OMe
OMe
293-296
|
|
[0043]
12
TABLE 12
|
|
|
m.p. (° C.)
|
Com-
or
|
pound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-369
NH2
5-Me
N
OMe
OMe
272-275
|
I-370
NH2
5-CF3
N
OMe
OMe
|
I-371
NH2
5-OMe
N
OMe
OMe
|
I-372
NH2
5-OEt
N
OMe
OMe
|
I-373
NH2
6-Me
N
OMe
OMe
|
I-374
NH2
5,6-(OMe)2
N
OMe
OMe
|
I-375
NHMe
5-Cl
N
OMe
OMe
238-241
|
I-376
N(Me)2
5-Cl
N
OMe
OMe
66-69
|
I-377
CH2OMe
5-Cl
N
OMe
OMe
105-108
|
I-378
Ph
5-Cl
N
OMe
OMe
137-140
|
I-379
Bn
5-Cl
N
OMe
OMe
192-195
|
I-380
CN
5-Cl
CH
OMe
OMe
223-226
|
I-381
CN
5-Me
CH
OMe
OMe
229-231
|
I-382
CN
5-CF3
CH
OMe
OMe
|
I-383
CN
5-OMe
CH
OMe
OMe
|
I-384
CN
5-Cl
N
OMe
OMe
|
I-385
CN
5-Me
N
OMe
OMe
|
I-386
CN
5-CF3
N
OMe
OMe
|
I-387
CN
5-OMe
N
OMe
OMe
|
I-388
SMe
5-Cl
CH
OMe
OMe
184-187
|
I-389
SMe
5-Me
CH
OMe
OMe
155-158
|
I-390
SMe
5-CF3
CH
OMe
OMe
|
I-391
SMe
5-OMe
CH
OMe
OMe
|
I-392
SMe
6-Cl
CH
OMe
OMe
|
I-393
SMe
6-Me
CH
OMe
OMe
|
I-394
SMe
5-Cl
N
OMe
OMe
135-138
|
I-395
SMe
5-Me
N
OMe
OMe
|
I-396
SMe
5-CF3
N
OMe
OMe
|
I-397
SMe
5-OMe
N
OMe
OMe
|
I-398
SMe
6-Cl
N
OMe
OMe
|
I-399
SMe
6-Me
N
OMe
OMe
|
I-400
CCl3
5-Cl
CH
OMe
OMe
132-134
|
I-401
CCl3
5-Me
CH
OMe
OMe
|
I-402
CCl3
5-OMe
CH
OMe
OMe
|
|
[0044]
13
TABLE 13
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-403
CCl3
6-Cl
CH
OMe
OMe
|
I-404
CCl3
6-Me
CH
OMe
OMe
136-139
|
I-405
CCL3
5-Cl
N
OMe
OMe
123-126
|
I-406
CCl3
5-Me
N
OMe
OMe
140-151
|
I-407
CCl3
5-OMe
N
OMe
OMe
|
I-408
CCl3
5-Br
N
OMe
OMe
|
I-409
CCl3
6-Cl
N
OMe
OMe
|
I-410
CCl3
6-Me
N
OMe
OMe
|
I-411
CF2Cl
5-Me
N
OMe
OMe
109-111
|
I-412
CF2Cl
5-Cl
N
OMe
OMe
86-89
|
I-413
CF2Cl
5-Br
N
OMe
OMe
|
I-414
CF2Cl
5-OMe
N
OMe
OMe
|
I-415
CH2Cl
5-Me
N
OMe
OMe
143-145
|
I-416
CH2Cl
5-Cl
N
OMe
OMe
160-161
|
I-417
CH2Cl
5-Br
N
OMe
OMe
|
I-418
CH2Cl
5-OMe
N
OMe
OMe
|
I-419
C2F5
5-Me
N
OMe
OMe
|
I-420
C2F5
5-Cl
N
OMe
OMe
|
I-421
C2F5
5-Br
N
OMe
OMe
|
I-422
C2F5
5-OMe
N
OMe
OMe
|
I-423
SO2Me
5-Cl
CH
OMe
OMe
149-152
|
I-424
SO2Me
5-Me
CH
OMe
OMe
176-177
|
I-425
SO2Me
6-Me
CH
OMe
OMe
|
I-426
SO2Me
5-Cl
N
OMe
OMe
|
I-427
SO2Me
5-Me
N
OMe
OMe
|
I-428
SO2Me
6-Me
N
OMe
OMe
|
I-429
OMe
5-Cl
CH
OMe
OMe
182-185
|
I-430
OMe
6-Cl
CH
OMe
OMe
178-180
|
I-431
OMe
5-Cl
N
OMe
OMe
|
I-432
OMe
6-Cl
N
OMe
OMe
|
I-433
H
H
N
OMe
OEt
|
I-434
H
5-Cl
N
OMe
OEt
|
I-435
H
5-Br
N
OMe
OEt
194-196
|
I-436
H
5-Me
N
OMe
OEt
|
|
[0045]
14
TABLE 14
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-437
Me
H
N
OMe
OEt
|
I-438
Me
5-Cl
N
OMe
OEt
153-156
|
I-439
Me
5-Br
N
OMe
OEt
143-145
|
I-440
Me
5-Me
N
OMe
OEt
155-156
|
I-441
Cl
5-Cl
N
OMe
OEt
|
I-442
Cl
5-Br
N
OMe
OEt
|
I-443
Cl
5-Me
N
OMe
OEt
|
I-444
CF3
H
N
OMe
OEt
|
I-445
CF3
5-Me
N
OMe
OEt
147-150
|
I-446
CF3
5-Cl
N
OMe
OEt
149-151
|
I-447
CF3
5-Br
N
OMe
OEt
138-139
|
I-448
CF2Cl
5-Cl
N
OMe
OEt
|
I-449
CF2Cl
5-Br
N
OMe
OEt
|
I-450
CF2Cl
5-Me
N
OMe
OEt
|
I-451
CH2Cl
5-Cl
N
OMe
OEt
|
I-452
CH2Cl
5-Br
N
OMe
OEt
|
I-453
CH2Cl
5-Me
N
OMe
OEt
|
I-454
C2F5
5-Cl
N
OMe
OEt
|
I-455
C2F5
5-Br
N
OMe
OEt
|
I-456
C2F5
5-Me
N
OMe
OEt
|
I-457
H
H
CH
OEt
OEt
122-124
|
I-458
Cl
H
CH
OEt
OEt
79-82
|
I-459
Br
H
CH
OEt
OEt
|
I-460
SMe
H
CH
OEt
OEt
122-125
|
I-461
Me
H
CH
OEt
OEt
88-91
|
I-462
Et
H
CH
OEt
OEt
90-93
|
I-463
OMe
H
CH
OEt
OEt
87-89
|
I-464
OEt
H
CH
OEt
OEt
96-99
|
I-465
CF3
H
CH
OEt
OEt
90-92
|
I-466
NH2
H
CH
OEt
OEt
222-225
|
I-467
CN
H
CH
OEt
OEt
153-156
|
I-468
H
H
N
OEt
OEt
|
I-469
Cl
H
N
OEt
OEt
|
I-470
Br
H
N
OEt
OEt
|
|
[0046]
15
TABLE 15
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-471
SMe
H
N
OEt
OEt
|
I-472
Me
H
N
OEt
OEt
|
I-473
Et
H
N
OEt
OEt
|
I-474
OMe
H
N
OEt
OEt
|
I-475
OEt
H
N
OEt
OEt
|
I-476
CF3
H
N
OEt
OEt
|
I-477
NH2
H
N
OEt
OEt
|
I-478
CN
H
N
OEt
OEt
|
I-479
H
5-F
CH
OEt
OEt
156-159
|
I-480
H
5-Cl
CH
OEt
OEt
177-180
|
I-481
H
5-Br
CH
OEt
OEt
|
I-482
H
5-Me
CH
OEt
OEt
135-138
|
I-483
H
5-CF3
CH
OEt
OEt
165-168
|
I-484
H
5-OMe
CH
OEt
OEt
|
I-485
H
5-OEt
CH
OEt
OEt
|
I-486
H
6-Cl
CH
OEt
OEt
164-167
|
I-487
H
5,6-(OMe)2
CH
OEt
OEt
|
I-488
H
5-F
N
OEt
OEt
|
I-489
H
5-Cl
N
OEt
OEt
|
I-490
H
5-Br
N
OEt
OEt
170-173
|
I-491
H
5-Me
N
OEt
OEt
|
I-492
H
5-Bu-t
N
OEt
OEt
107-110
|
I-493
H
5-CF3
N
OEt
OEt
|
I-494
H
5-OMe
N
OEt
OEt
|
I-495
H
5-OEt
N
OEt
OEt
|
I-496
H
6-Cl
N
OEt
OEt
|
I-497
H
5,6-(OMe)2
N
OEt
OEt
|
I-498
Me
5-F
CH
OEt
OEt
131-133
|
I-499
Me
5-Cl
CH
OEt
OEt
171-174
|
I-500
Me
5-Br
CH
OEt
OEt
|
I-501
Me
5-Me
CH
OEt
OEt
119-122
|
I-502
Me
5-CF3
CH
OEt
OEt
131-134
|
I-503
Me
5-OMe
CH
OEt
OEt
141-144
|
I-504
Me
5-OEt
CH
OEt
OEt
|
|
[0047]
16
TABLE 16
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-505
Me
5-OCF3
CH
OEt
OEt
|
I-506
Me
5-CN
CH
OEt
OEt
|
I-507
Me
6-F
CH
OEt
OEt
133-134
|
I-508
Me
6-Cl
CH
OEt
OEt
146-149
|
I-509
Me
6-Me
CH
OEt
OEt
|
I-510
Me
6-CF3
CH
OEt
OEt
138-141
|
I-511
Me
6-OMe
CH
OEt
OEt
135-138
|
I-512
Me
5,6-(OMe)2
CH
OEt
OEt
|
I-513
Me
5-F
N
OEt
OEt
|
I-514
Me
5-Cl
N
OEt
OEt
175-178
|
I-515
Me
5-Br
N
OEt
OEt
169-172
|
I-516
Me
5-Me
N
OEt
OEt
141-144
|
I-517
Me
5-Bu-t
N
OEt
OEt
107-109
|
I-518
Me
5-CF3
N
OEt
OEt
|
I-519
Me
5-OMe
N
OEt
OEt
|
I-520
Me
5-OEt
N
OEt
OEt
|
I-521
Me
5-OCF3
N
OEt
OEt
|
I-522
Me
5-CN
N
OEt
OEt
|
I-523
Me
6-F
N
OEt
OEt
|
I-524
Me
6-Cl
N
OEt
OEt
|
I-525
Me
6-Me
N
OEt
OEt
|
I-526
Me
6-CF3
N
OEt
OEt
|
I-527
Me
6-OMe
N
OEt
OEt
|
I-528
Me
5,6-(OMe)2
N
OEt
OEt
|
I-529
Cl
5-Cl
CH
OEt
OEt
|
I-530
Cl
5-Me
CH
OEt
OEt
101-103
|
I-531
Cl
5-OMe
CH
OEt
OEt
153-156
|
I-532
Cl
5-OEt
CH
OEt
OEt
|
I-533
Cl
5,6-(OMe)2
CH
OEt
OEt
|
I-534
Cl
5-Cl
N
OEt
OEt
130-133
|
I-535
Cl
5-Me
N
OEt
OEt
|
I-536
Cl
5-OMe
N
OEt
OEt
|
I-537
Cl
5-OEt
N
OEt
OEt
|
I-538
Cl
5,6-(OMe)2
N
OEt
OEt
|
|
[0048]
17
TABLE 17
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-539
CF3
5-Me
CH
OEt
OEt
|
I-540
CF3
5-OMe
CH
OEt
OEt
|
I-541
CF3
5,6-(OMe)2
CH
OEt
OEt
|
I-542
CF3
H
N
OEt
OEt
|
I-543
CF3
5-Me
N
OEt
OEt
163-165
|
I-544
CF3
5-OMe
N
OEt
OEt
140-143
|
I-545
CF3
5-Cl
N
OEt
OEt
138-141
|
I-546
CF3
5-Br
N
OEt
OEt
120-123
|
I-547
Et
5-Me
CH
OEt
OEt
|
I-548
Et
5-OMe
CH
OEt
OEt
|
I-549
Et
5,6-(OMe)2
CH
OEt
OEt
|
I-550
CCl3
5-Cl
N
OEt
OEt
110-113
|
I-551
CCl3
5-Br
N
OEt
OEt
|
I-552
CCl3
5-Me
N
OEt
OEt
|
I-553
CCl3
5-OMe
N
OEt
OEt
|
I-554
CF2Cl
5-Cl
N
OEt
OEt
|
I-555
CF2Cl
5-Br
N
OEt
OEt
|
I-556
CF2Cl
5-Me
N
OEt
OEt
|
I-557
CH2Cl
5-Cl
N
OEt
OEt
|
I-558
CH2Cl
5-Br
N
OEt
OEt
|
I-559
CH2Cl
5-Me
N
OEt
OEt
|
I-560
C2F5
5-Cl
N
OEt
OEt
|
I-561
C2F5
5-Br
N
OEt
OEt
|
I-562
C2F5
5-Me
N
OEt
OEt
|
I-563
CN
5-Cl
CH
OEt
OEt
170-172
|
I-564
CN
5-OMe
CH
OEt
OEt
|
I-565
CN
5,6-(OMe)2
CH
OEt
OEt
|
I-566
CN
5-Me
N
OEt
OEt
|
I-567
CN
5-OMe
N
OEt
OEt
|
I-568
CN
5-Cl
N
OEt
OEt
|
I-569
SMe
5-Cl
CH
OEt
OEt
167-169
|
I-570
SMe
5-Me
CH
OEt
OEt
|
I-571
SMe
5-Cl
N
OEt
OEt
|
I-572
SMe
5-Me
N
OEt
OEt
|
|
[0049]
18
TABLE 18
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-573
SO2Me
5-Cl
CH
OEt
OEt
167-170
|
I-574
SO2Me
5-Me
CH
OEt
OEt
|
I-575
OMe
5-Cl
CH
OEt
OEt
143-146
|
I-576
H
H
CH
OPr
OPr
89-90
|
I-577
H
H
N
OPr
OPr
|
I-578
H
5-Cl
N
OPr
OPr
|
I-579
H
5-Br
N
OPr
OPr
|
I-580
Me
5-Cl
N
OPr
OPr
128-131
|
I-581
Me
5-Br
N
OPr
OPr
|
I-582
Me
5-Me
N
OPr
OPr
|
I-583
CF3
5-Cl
N
OPr
OPr
71-74
|
I-584
CF3
5-Br
N
OPr
OPr
|
I-585
CF3
5-Me
N
OPr
OPr
|
I-586
H
H
CH
OPr-i
OPr-i
115-117
|
I-587
Me
5-Cl
CH
OPr-i
OPr-i
|
I-588
Me
5-Me
CH
OPr-i
OPr-i
|
I-589
H
H
N
OPr-i
OPr-i
|
I-590
H
5-Cl
N
OPr-i
OPr-i
|
I-591
H
5-Br
N
OPr-i
OPr-i
|
I-592
Me
5-Cl
N
OPr-i
OPr-i
85-88
|
I-593
Me
5-Br
N
OPr-i
OPr-i
|
I-594
Me
5-Me
N
OPr-i
OPr-i
|
I-595
CF3
5-Cl
N
OPr-i
OPr-i
97-100
|
I-596
CF3
5-Br
N
OPr-i
OPr-i
|
I-597
CF3
5-Me
N
OPr-i
OPr-i
|
I-598
H
H
N
OCH2CH═CH2
OCH2CH═CH2
|
I-599
H
5-Cl
N
OCH2CH═CH2
OCH2CH═CH2
|
I-600
H
5-Br
N
OCH2CH═CH2
OCH2CH═CH2
|
I-601
Me
5-Cl
N
OCH2CH═CH2
OCH2CH═CH2
158-161
|
I-602
Me
5-Br
N
OCH2CH═CH2
OCH2CH═CH2
|
I-603
Me
5-Me
N
OCH2CH═CH2
OCH2CH═CH2
|
I-604
CF3
5-Cl
N
OCH2CH═CH2
OCH2CH═CH2
|
I-605
CF3
5-Br
N
OCH2CH═CH2
OCH2CH═CH2
|
I-606
CF3
5-Me
N
OCH2CH═CH2
OCH2CH═CH2
|
|
[0050]
19
TABLE 19
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-607
H
H
N
OCH2C≡CH
OCH2C≡CH
|
I-608
H
5-Cl
N
OCH2C≡CH
OCH2C≡CH
|
I-609
H
5-Br
N
OCH2C≡CH
OCH2C≡CH
|
I-610
Me
5-Cl
N
OCH2C≡CH
OCH2C≡CH
|
I-611
Me
5-Br
N
OCH2C≡CH
OCH2C≡CH
|
I-612
Me
5-Me
N
OCH2C≡CH
OCH2C≡CH
|
I-613
CF3
5-Cl
N
OCH2C≡CH
OCH2C≡CH
|
I-614
CF3
5-Br
N
OCH2C≡CH
OCH2C≡CH
|
I-615
CF3
5-Me
N
OCH2C≡CH
OCH2C≡CH
|
I-616
Me
5-Cl
CH
OCH2CN
OCH2CN
|
I-617
Me
5-Me
CH
OCH2CN
OCH2CN
|
I-618
H
5-Br
N
OCH2CN
OCH2CN
|
I-619
Me
5-Cl
N
OCH2CN
OCH2CN
|
I-620
Me
5-Br
N
OCH2CN
OCH2CN
|
I-621
Me
5-Me
N
OCH2CN
OCH2CN
|
I-622
CF3
5-Cl
N
OCH2CN
OCH2CN
|
I-623
CF3
5-Br
N
OCH2CN
OCH2CN
|
I-624
CF3
5-Me
N
OCH2CN
OCH2CN
|
I-625
Me
5-Cl
CH
OCH2CH2OMe
OCH2CH2OMe
|
I-626
Me
5-Me
CH
OCH2CH2OMe
OCH2CH2OMe
|
I-627
H
5-Br
N
OCH2CH2OMe
OCH2CH2OMe
|
I-628
Me
5-Cl
N
OCH2CH2OMe
OCH2CH2OMe
|
I-629
Me
5-Br
N
OCH2CH2OMe
OCH2CH2OMe
|
I-630
Me
5-Me
N
OCH2CH2OMe
OCH2CH2OMe
|
I-631
CF3
5-Cl
N
OCH2CH2OMe
OCH2CH2OMe
|
I-632
CF3
5-Br
N
OCH2CH2OMe
OCH2CH2OMe
|
I-633
CF3
5-Me
N
OCH2CH2OMe
OCH2CH2OMe
|
I-634
H
5-Br
N
OCH2Pr-c
OCH2Pr-c
|
I-635
Me
5-Cl
N
OCH2Pr-c
OCH2Pr-c
|
I-636
Me
5-Br
N
OCH2Pr-c
OCH2Pr-c
|
I-637
Me
5-Me
N
OCH2Pr-c
OCH2Pr-c
|
I-638
CF3
5-Cl
N
OCH2Pr-c
OCH2Pr-c
|
I-639
CF3
5-Br
N
OCH2Pr-c
OCH2Pr-c
|
I-640
CF3
5-Me
N
OCH2Pr-c
OCH2Pr-c
|
|
[0051]
20
TABLE 20
|
|
|
m.p.
|
Com-
(° C.) or
|
pound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-641
Me
5-Me
CH
OCH2CH2Cl
OCH2CH2Cl
|
I-642
Me
5-Cl
CH
OCH2CH2Cl
OCH2CH2Cl
|
I-643
Me
5-Me
N
OCH2CH2Cl
OCH2CH2Cl
|
I-644
Me
5-Cl
N
OCH2CH2Cl
OCH2CH2Cl
|
I-645
CF3
5-Me
N
OCH2CH2Cl
OCH2CH2Cl
|
I-646
CF3
5-Cl
N
OCH2CH2Cl
OCH2CH2Cl
|
I-647
Me
5-Cl
N
OCH2CH2F
OCH2CH2F
|
I-648
Me
5-Me
N
OCH2CH2F
OCH2CH2F
|
I-649
CF3
5-Me
N
OCH2CH2F
OCH2CH2F
|
1-650
CF3
5-Cl
N
OCH2CH2F
OCH2CH2F
|
I-651
Me
5-Cl
N
OCH2CF3
OCH2CF3
|
I-652
Me
5-Me
N
OCH2CF3
OCH2CF3
|
I-653
CF3
5-Me
N
OCH2CF3
OCH2CF3
|
I-654
CF3
5-Cl
N
OCH2CF3
OCH2CF3
|
I-655
H
H
CH
OBn
OBn
|
I-656
H
H
N
OBn
OBn
|
I-657
H
H
N
OBn(4-Cl)
OBn(4-Cl)
|
I-658
H
H
N
OBn(4-Me)
OBn(4-Me)
|
I-659
H
H
N
OBn(4-OMe)
OBn(4-OMe)
|
I-660
H
H
CH
OMe
OPh
131-132
|
I-661
H
H
N
OMe
OPh
|
I-662
H
H
N
OMe
OPh(4-Cl)
|
I-663
H
H
N
OMe
OPh(4-Me)
|
I-664
H
H
N
OMe
OPh(4-OMe)
|
I-665
H
H
CH
OMe
OCHF2
138-139
|
I-666
H
H
N
OMe
OCHF2
|
I-667
H
H
CH
OMe
H
114-116
|
I-668
Me
H
CH
OMe
H
|
I-669
H
5-Cl
CH
OMe
H
173-176
|
I-670
H
5-Me
CH
OMe
H
140-142
|
I-671
Me
5-Cl
CH
OMe
H
127-130
|
I-672
Me
5-Me
CH
OMe
H
113-114
|
I-673
Me
5-
CH
OMe
H
|
CF3
|
I-674
Me
5-
CH
OMe
H
|
OMe
|
|
[0052]
21
TABLE 21
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-675
Me
6-Cl
CH
OMe
H
126-130
|
I-676
Me
5,6-(OMe)2
CH
OMe
H
|
I-677
Cl
5-Cl
CH
OMe
H
|
I-678
Cl
5-Me
CH
OMe
H
|
I-679
Cl
5-CF3
CH
OMe
H
|
I-680
Cl
5-OMe
CH
OMe
H
|
I-681
Cl
5,6-(OMe)2
CH
OMe
H
|
I-682
CF3
5-Cl
CH
OMe
H
107-108
|
I-683
CF3
5-Me
CH
OMe
H
76-79
|
I-684
CF3
5-CF3
CH
OMe
H
|
I-685
CF3
5-OMe
CH
OMe
H
|
I-686
Et
5-Cl
CH
OMe
H
|
I-687
Et
5-Me
CH
OMe
H
|
I-688
Et
5-CF3
CH
OMe
H
|
I-689
Et
5-OMe
CH
OMe
H
|
I-690
H
H
CH
OEt
H
104-107
|
I-691
Me
H
CH
OEt
H
|
I-692
H
5-Cl
CH
OEt
H
158-160
|
I-693
H
5-Me
CH
OEt
H
131-132
|
I-694
Me
5-Cl
CH
OEt
H
153-155
|
I-695
Me
5-Me
CH
OEt
H
109-111
|
I-696
Me
5-CF3
CH
OEt
H
|
I-697
Me
5-OMe
CH
OEt
H
|
I-698
Me
5,6-(OMe)2
CH
OEt
H
|
I-699
Me
6-Cl
CH
OEt
H
117-118
|
I-700
Cl
5-Me
CH
OEt
H
|
I-701
Cl
5-CF3
CH
OEt
H
|
I-702
Cl
5-OMe
CH
OEt
H
|
I-703
Cl
5,6-(OMe)2
CH
OEt
H
|
I-704
CF3
5-Cl
CH
OEt
H
125-128
|
I-705
CF3
5-Me
CH
OEt
H
86-87
|
I-706
CF3
5-OMe
CH
OEt
H
|
I-707
Et
5-Cl
CH
OEt
H
|
I-708
Et
5-Me
CH
OEt
H
|
|
[0053]
22
TABLE 22
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-709
Et
5-CF3
CH
OEt
H
|
I-710
Et
5-OMe
CH
OEt
H
|
I-711
H
H
CH
OPr
H
83-86
|
I-712
Me
5-Me
CH
OPr
H
|
I-713
Me
5-Cl
CH
OPr
H
|
I-714
Me
5-OMe
CH
OPr
H
|
I-715
H
H
CH
OCH2CH═CH2
H
|
I-716
Me
5-Me
CH
OCH2CH═CH2
H
|
I-717
Me
5-Cl
CH
OCH2CH═CH2
H
|
I-718
Me
5-OMe
CH
OCH2CH═CH2
H
|
I-719
H
H
CH
OBn
H
|
I-720
Me
5-Me
CH
OBn
H
|
I-721
Me
5-Cl
CH
OBn
H
|
I-722
H
H
CH
OPh
H
257-260
|
I-723
H
H
CH
OPh(4-Cl)
H
|
I-724
H
H
CH
OPh(4-Me)
H
|
I-725
H
H
CH
OPh(4-OMe)
H
|
I-726
H
H
CH
OMe
Me
107-110
|
I-727
Me
H
CH
OMe
Me
|
I-728
H
5-Cl
CH
OMe
Me
|
I-729
H
5-Me
CH
OMe
Me
|
I-730
H
5-CF3
CH
OMe
Me
|
I-731
Me
5-Cl
CH
OMe
Me
124-127
|
I-732
Me
5-Me
CH
OMe
Me
|
I-733
Me
5-CF3
CH
OMe
Me
|
I-734
Me
5-OMe
CH
OMe
Me
|
I-735
Me
6-Cl
CH
OMe
Me
|
I-736
Me
5,6-(OMe)2
CH
OMe
Me
|
I-737
Cl
5-Cl
CH
OMe
Me
|
I-738
Cl
5-Me
CH
OMe
Me
|
I-739
Cl
5-OMe
CH
OMe
Me
|
I-740
Cl
5,6-(OMe)2
CH
OMe
Me
|
I-741
CF3
5-Cl
CH
OMe
Me
|
I-742
CF3
5-Me
CH
OMe
Me
|
|
[0054]
23
TABLE 23
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-743
CF3
5-OMe
CH
OMe
Me
|
I-744
Et
5-Cl
CH
OMe
Me
|
I-745
Et
5-Me
CH
OMe
Me
|
I-746
Et
5-OMe
CH
OMe
Me
|
I-747
H
H
N
OMe
Me
|
I-748
H
5-Cl
N
OMe
Me
|
I-749
H
5-Me
N
OMe
Me
|
I-750
H
5-CF3
N
OMe
Me
|
I-751
Me
5-Cl
N
OMe
Me
|
I-752
Me
5-Me
N
OMe
Me
124-127
|
I-753
Me
5-CF3
N
OMe
Me
|
I-754
Me
5-OMe
N
OMe
Me
|
I-755
Me
6-Cl
N
OMe
Me
|
I-756
Me
5,6-(OMe)2
N
OMe
Me
|
I-757
Cl
5-Cl
N
OMe
Me
|
I-758
Cl
5-Me
N
OMe
Me
117-120
|
I-759
Cl
5-OMe
N
OMe
Me
|
I-760
Cl
5,6-(OMe)2
N
OMe
Me
|
I-761
CF3
5-Cl
N
OMe
Me
|
I-762
CF3
5-Me
N
OMe
Me
117-120
|
I-763
CF3
5-OMe
N
OMe
Me
|
I-764
Et
5-Cl
N
OMe
Me
|
I-765
Et
5-Me
N
OMe
Me
|
I-766
Et
5-OMe
N
OMe
Me
|
I-767
NH2
5-Me
N
OMe
Me
>300
|
I-768
H
H
CH
OEt
Me
57-60
|
I-769
Me
H
CH
OEt
Me
92-94
|
I-770
CF3
H
CH
OEt
Me
|
I-771
Cl
H
CH
OEt
Me
95-96
|
I-772
H
5-Me
CH
OEt
Me
105-108
|
I-773
Me
5-F
CH
OEt
Me
|
I-774
Me
5-Cl
CH
OEt
Me
|
I-775
Me
5-Me
CH
OEt
Me
108-110
|
I-776
Me
5-CF3
CH
OEt
Me
|
|
[0055]
24
TABLE 24
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-777
Me
5-OMe
CH
OEt
Me
|
I-778
Me
5-CN
CH
OEt
Me
|
I-779
Me
6-Cl
CH
OEt
Me
|
I-780
Me
5,6-(OMe)2
CH
OEt
Me
|
I-781
Cl
5-Cl
CH
OEt
Me
|
I-782
Cl
5-Me
CH
OEt
Me
|
I-783
Cl
5-CF3
CH
OEt
Me
|
I-784
Cl
5-OMe
CH
OEt
Me
|
I-785
Cl
5,6-(OMe)2
CH
OEt
Me
|
I-786
CF3
5-Cl
CH
OEt
Me
|
I-787
CF3
5-Me
CH
OEt
Me
117-118
|
I-788
CF3
5-OMe
CH
OEt
Me
|
I-789
Et
5-Cl
CH
OEt
Me
|
I-790
Et
5-Me
CH
OEt
Me
|
I-791
Et
5-CF3
CH
OEt
Me
|
I-792
Et
5-OMe
CH
OEt
Me
|
I-793
H
H
N
OEt
Me
|
I-794
H
5-Br
N
OEt
Me
|
I-795
Me
5-Cl
N
OEt
Me
|
I-796
Me
5-Br
N
OEt
Me
|
I-797
Me
5-Me
N
OEt
Me
|
I-798
Me
5-CF3
N
OEt
Me
|
I-799
Cl
5-Cl
N
OEt
Me
|
I-800
Cl
5-Me
N
OEt
Me
|
I-801
CF3
5-Cl
N
OEt
Me
|
I-802
CF3
5-Br
N
OEt
Me
|
I-803
CF3
5-Me
N
OEt
Me
|
I-804
H
H
CH
OPr
Me
47-50
|
I-805
H
5-OMe
CH
OPr
Me
100-102
|
I-806
Me
H
CH
OPr
Me
75-78
|
I-807
CF3
H
CH
OPr
Me
|
I-808
H
5-Cl
CH
OPr
Me
|
I-809
H
5-Me
CH
OPr
Me
73-76
|
I-810
Me
5-F
CH
OPr
Me
|
|
[0056]
25
TABLE 25
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-811
Me
5-Cl
CH
OPr
Me
90-93
|
I-812
Me
5-Me
CH
OPr
Me
59-62
|
I-813
Me
5-OMe
CH
OPr
Me
99-101
|
I-814
Me
6-Cl
CH
OPr
Me
109-112
|
I-815
Me
5,6-(OMe)2
CH
OPr
Me
|
I-816
Cl
5-Cl
CH
OPr
Me
|
I-817
Cl
5-Me
CH
OPr
Me
76-77
|
I-818
Cl
5-OMe
CH
OPr
Me
87-90
|
I-819
Cl
5,6-(OMe)2
CH
OPr
Me
|
I-820
CF3
5-Cl
CH
OPr
Me
|
I-821
CF3
5-Me
CH
OPr
Me
|
I-822
CF3
5-CF3
CH
OPr
Me
|
I-823
CF3
5-OMe
CH
OPr
Me
|
I-824
Et
5-Cl
CH
OPr
Me
|
I-825
Et
5-Me
CH
OPr
Me
|
I-826
Et
5-OMe
CH
OPr
Me
|
I-827
H
H
N
OPr
Me
|
I-828
H
5-Br
N
OPr
Me
|
I-829
Me
5-Cl
N
OPr
Me
|
I-830
Me
5-Br
N
OPr
Me
|
I-831
Me
5-Me
N
OPr
Me
104-107
|
I-832
Me
5-CF3
N
OPr
Me
|
I-833
Cl
5-Cl
N
OPr
Me
|
I-834
Cl
5-Me
N
OPr
Me
|
I-835
CF3
5-Cl
N
OPr
Me
|
I-836
CF3
5-Br
N
OPr
Me
|
I-837
CF3
5-Me
N
OPr
Me
|
I-838
NH2
5-Me
N
OPr
Me
152-153
|
I-839
H
H
CH
OPr-i
Me
66-68
|
I-840
Me
H
CH
OPr-i
Me
1.5805
|
I-841
CF3
H
CH
OPr-i
Me
|
I-842
H
5-Cl
CH
OPr-i
Me
|
I-843
H
5-Me
CH
OPr-i
Me
|
I-844
Me
5-F
CH
OPr-i
Me
|
|
[0057]
26
TABLE 26
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-845
Me
5-Cl
CH
OPr-i
Me
|
I-846
Me
5-Me
CH
OPr-i
Me
|
I-847
Me
5-OMe
CH
OPr-i
Me
|
I-848
Me
6-Cl
CH
OPr-i
Me
|
I-849
Me
5,6-(OMe)2
CH
OPr-i
Me
|
I-850
Cl
5-Cl
CH
OPr-i
Me
|
I-851
Cl
5-Me
CH
OPr-i
Me
|
I-852
Cl
5-CF3
CH
OPr-i
Me
|
I-853
Cl
5-OMe
CH
OPr-i
Me
|
I-854
Cl
5,6-(OMe)2
CH
OPr-i
Me
|
I-855
CF3
5-Cl
CH
OPr-i
Me
|
I-856
CF3
5-Me
CH
OPr-i
Me
|
I-857
CF3
5-OMe
CH
OPr-i
Me
|
I-858
Et
5-Cl
CH
OPr-i
Me
|
I-859
Et
5-Me
CH
OPr-i
Me
|
I-860
Et
5-OMe
CH
OPr-i
Me
|
I-861
H
H
N
OPr-i
Me
|
I-862
H
5-Br
N
OPr-i
Me
|
I-863
Me
5-Cl
N
OPr-i
Me
|
I-864
Me
5-Br
N
OPr-i
Me
|
I-865
Me
5-Me
N
OPr-i
Me
|
I-866
Me
5-CF3
N
OPr-i
Me
|
I-867
Cl
5-Cl
N
OPr-i
Me
|
I-868
Cl
5-Me
N
OPr-i
Me
|
I-869
CF3
5-Cl
N
OPr-i
Me
|
I-870
CF3
5-Br
N
OPr-i
Me
|
I-871
CF3
5-Me
N
OPr-i
Me
|
I-872
H
H
CH
OBu
Me
1.5795
|
I-873
Me
H
CH
OBu
Me
73-76
|
I-874
Me
5-Cl
CH
OBu
Me
|
I-875
Me
5-Me
CH
OBu
Me
|
I-876
Me
5-OMe
CH
OBu
Me
|
I-877
Cl
5-Cl
CH
OBu
Me
|
I-878
Cl
5-Me
CH
OBu
Me
|
|
[0058]
27
TABLE 27
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-879
Cl
5-OMe
CH
OBu
Me
|
I-880
CF3
5-Cl
CH
OBu
Me
|
I-881
CF3
5-Me
CH
OBu
Me
|
I-882
CF3
5-OMe
CH
OBu
Me
|
I-883
H
H
CH
OCH2CH═CH2
Me
55-58
|
I-884
H
5-Me
CH
OCH2CH═CH2
Me
|
I-885
Me
H
CH
OCH2CH═CH2
Me
84-87
|
I-886
Me
5-Cl
CH
OCH2CH═CH2
Me
|
I-887
Me
5-Me
CH
OCH2CH═CH2
Me
|
I-888
Me
5-OMe
CH
OCH2CH═CH2
Me
|
I-889
Cl
5-Cl
CH
OCH2CH═CH2
Me
|
I-890
Cl
5-Me
CH
OCH2CH═CH2
Me
|
I-891
CF3
5-Cl
CH
OCH2CH═CH2
Me
|
I-892
CF3
5-Me
CH
OCH2CH═CH2
Me
|
I-893
CF3
5-OMe
CH
OCH2CH═CH2
Me
|
I-894
H
H
CH
OCH2C≡CH
Me
145-148
|
I-895
H
5-Me
CH
OCH2C≡CH
Me
183-186
|
I-896
Me
H
CH
OCH2C≡CH
Me
147-149
|
I-897
Me
5-Cl
CH
OCH2C≡CH
Me
|
I-898
Me
5-Me
CH
OCH2C≡CH
Me
147-150
|
I-899
Me
5-OMe
CH
OCH2C≡CH
Me
|
I-900
Cl
5-Cl
CH
OCH2C≡CH
Me
|
I-901
Cl
5-Me
CH
OCH2C≡CH
Me
|
I-902
CF3
5-Cl
CH
OCH2C≡CH
Me
|
I-903
CF3
5-Me
CH
OCH2C≡CH
Me
113-116
|
I-904
NH2
5-Me
CH
OCH2C≡CH
Me
225-228
|
I-905
H
H
CH
OBn
Me
|
I-906
H
H
CH
OPn-c
Me
1.5965
|
I-907
Me
H
CH
OPn-c
Me
1.5941
|
I-908
Me
5-Cl
CH
OPn-c
Me
|
I-909
Me
5-Cl
N
OPn-c
Me
|
I-910
H
H
CH
SMe
Me
|
I-911
Me
H
CH
SMe
Me
139-142
|
I-912
Me
5-Me
CH
SMe
Me
|
|
[0059]
28
TABLE 28
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-913
Me
5-Cl
CH
SMe
Me
|
I-914
H
H
N
SMe
Me
|
I-915
Me
5-Me
N
SMe
Me
134-137
|
I-916
Me
5-Cl
N
SMe
Me
|
I-917
H
H
CH
OMe
Et
|
I-918
Me
5-Me
CH
OMe
Et
|
I-919
Me
5-Cl
CH
OMe
Et
|
I-920
Me
5-CF3
CH
OMe
Et
|
I-921
Me
5-OMe
CH
OMe
Et
|
I-922
Cl
5-Me
CH
OMe
Et
|
I-923
Cl
5-Cl
CH
OMe
Et
|
I-924
H
H
CH
OEt
Et
|
I-925
Me
5-Me
CH
OEt
Et
|
I-926
Me
5-Cl
CH
OEt
Et
|
I-927
Me
5-CF3
CH
OEt
Et
|
I-928
Me
5-OMe
CH
OEt
Et
|
I-929
Cl
5-Me
CH
OEt
Et
|
I-930
Cl
5-Cl
CH
OEt
Et
|
I-931
H
H
CH
OPr
Et
|
I-932
Me
5-Me
CH
OPr
Et
|
I-933
Me
5-Cl
CH
OPr
Et
|
I-934
Me
5-CF3
CH
OPr
Et
|
I-935
Me
5-OMe
CH
OPr
Et
|
I-936
Cl
5-Me
CH
OPr
Et
|
I-937
Cl
5-Cl
CH
OPr
Et
|
I-938
H
H
N
OMe
Et
|
I-939
H
5-Br
N
OMe
Et
125-128
|
I-940
Me
5-Me
N
OMe
Et
|
I-941
Me
5-Cl
N
OMe
Et
134-137
|
I-942
Me
5-Br
N
OMe
Et
134-141
|
I-943
Cl
5-Me
N
OMe
Et
|
I-944
Cl
5-Cl
N
OMe
Et
|
I-945
CF3
5-Me
N
OMe
Et
86-89
|
I-946
CF3
5-Cl
N
OMe
Et
79-82
|
|
[0060]
29
TABLE 29
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-947
CF3
5-Br
N
OMe
Et
97-100
|
I-948
H
H
N
OEt
Et
|
I-949
H
5-Br
N
OEt
Et
79-82
|
I-950
Me
5-Me
N
OEt
Et
|
I-951
Me
5-Cl
N
OEt
Et
|
I-952
Me
5-Br
N
OEt
Et
96-98
|
I-953
Cl
5-Me
N
OEt
Et
|
I-954
Cl
5-Cl
N
OEt
Et
|
I-955
CF3
5-Me
N
OEt
Et
|
I-956
CF3
5-Cl
N
OEt
Et
66-67
|
I-957
CF3
5-Br
N
OEt
Et
97-100
|
I-958
H
H
CH
OMe
Pr
78-80
|
I-959
Me
H
CH
OMe
Pr
1.5892
|
I-960
Cl
H
CH
OMe
Pr
1.6009
|
I-961
H
5-Cl
CH
OMe
Pr
|
I-962
H
5-Me
CH
OMe
Pr
116-119
|
I-963
Me
5-F
CH
OMe
Pr
|
I-964
Me
5-Cl
CH
OMe
Pr
113-116
|
I-965
Me
5-Me
CH
OMe
Pr
105-107
|
I-966
Me
5-OMe
CH
OMe
Pr
|
I-967
Me
6-Cl
CH
OMe
Pr
68-71
|
I-968
Cl
5-Cl
CH
OMe
Pr
|
I-969
Cl
5-Me
CH
OMe
Pr
|
I-970
Cl
5-OMe
CH
OMe
Pr
|
I-971
CF3
5-Cl
CH
OMe
Pr
|
I-972
CF3
5-Me
CH
OMe
Pr
|
I-973
CF3
5-OMe
CH
OMe
Pr
|
I-974
H
H
CH
OEt
Pr
|
I-975
H
5-Cl
CH
OEt
Pr
|
I-976
H
5-Me
CH
OEt
Pr
|
I-977
Me
5-F
CH
OEt
Pr
|
I-978
Me
5-Cl
CH
OEt
Pr
|
I-979
Me
5-Me
CH
OEt
Pr
|
I-980
Me
5-CF3
CH
OEt
Pr
|
|
[0061]
30
TABLE 30
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-981
Me
5-OMe
CH
OEt
Pr
|
I-982
Cl
5-Cl
CH
OEt
Pr
|
I-983
Cl
5-Me
CH
OEt
Pr
|
I-984
Cl
5-CF3
CH
OEt
Pr
|
I-985
Cl
5-OMe
CH
OEt
Pr
|
I-986
CF3
5-Cl
CH
OEt
Pr
|
I-987
CF3
5-Me
CH
OEt
Pr
|
I-988
CF3
5-OMe
CH
OEt
Pr
|
I-989
H
H
CH
OPr
Pr
|
I-990
Me
5-Me
CH
OPr
Pr
|
I-991
Me
5-Cl
CH
OPr
Pr
|
I-992
Me
5-OMe
CH
OPr
Pr
|
I-993
Cl
5-Me
CH
OPr
Pr
|
I-994
Cl
5-Cl
CH
OPr
Pr
|
I-995
H
H
N
OMe
Pr
|
I-996
H
5-Br
N
OMe
Pr
|
I-997
Me
5-Cl
N
OMe
Pr
|
I-998
Me
5-Br
N
OMe
Pr
|
I-999
Me
5-Me
N
OMe
Pr
112-115
|
I-1000
Cl
5-Cl
N
OMe
Pr
|
I-1001
Cl
5-Me
N
OMe
Pr
|
I-1002
CF3
5-Cl
N
OMe
Pr
|
I-1003
CF3
5-Br
N
OMe
Pr
|
I-1004
CF3
5-Me
N
OMe
Pr
92-95
|
I-1005
H
H
N
OEt
Pr
|
I-1006
H
5-Br
N
OEt
Pr
|
I-1007
Me
5-Cl
N
OEt
Pr
|
I-1008
Me
5-Br
N
OEt
Pr
|
I-1009
Me
5-Me
N
OEt
Pr
|
I-1010
Cl
5-Cl
N
OEt
Pr
|
I-1011
Cl
5-Me
N
OPr
Pr
|
I-1012
CF3
5-Cl
N
OPr
Pr
|
I-1013
CF3
5-Br
N
OPr
Pr
|
I-1014
CF3
5-Me
N
OPr
Pr
|
|
[0062]
31
TABLE 31
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-1015
H
H
N
OMe
Pr-c
|
I-1016
H
5-Br
N
OMe
Pr-c
154-157
|
I-1017
Me
5-Cl
N
OMe
Pr-c
116-119
|
I-1018
Me
5-Br
N
OMe
Pr-c
121-124
|
I-1019
Me
5-Me
N
OMe
Pr-c
167-170
|
I-1020
CF3
5-Cl
N
OMe
Pr-c
101-104
|
I-1021
CF3
5-Br
N
OMe
Pr-c
119-122
|
I-1022
CF3
5-Me
N
OMe
Pr-c
116-119
|
I-1023
H
H
N
OEt
Pr-c
|
I-1024
H
5-Br
N
OEt
Pr-c
137-140
|
I-1025
Me
5-Cl
N
OEt
Pr-c
130-133
|
I-1026
Me
5-Br
N
OEt
Pr-c
124-127
|
I-1027
Me
5-Me
N
OEt
Pr-c
131-133
|
I-1028
CF3
5-Cl
N
OEt
Pr-c
82-85
|
I-1029
CF3
5-Br
N
OEt
Pr-c
105-108
|
I-1030
CF3
5-Me
N
OEt
Pr-c
79-82
|
I-1031
H
H
N
SMe
Pr-c
|
I-1032
H
5-Br
N
SMe
Pr-c
|
I-1033
Me
5-Cl
N
SMe
Pr-c
|
I-1034
Me
5-Br
N
SMe
Pr-c
|
I-1035
Me
5-Me
N
SMe
Pr-c
|
I-1036
CF3
5-Cl
N
SMe
Pr-c
|
I-1037
CF3
5-Br
N
SMe
Pr-c
|
I-1038
CF3
5-Me
N
SMe
Pr-c
|
I-1039
Me
H
CH
SMe
SMe
129-131
|
I-1040
H
5-Cl
N
SMe
SMe
|
I-1041
H
5-Br
N
SMe
SMe
|
I-1042
Me
H
N
SMe
SMe
176-179
|
I-1043
Me
5-Cl
N
SMe
SMe
186-189
|
I-1044
Me
5-Br
N
SMe
SMe
|
I-1045
Me
5-Me
N
SMe
SMe
|
I-1046
CF3
5-Cl
N
SMe
SMe
144-146
|
I-1047
CF3
5-Br
N
SMe
SMe
|
I-1048
CF3
5-Me
N
SMe
Me
106-109
|
|
[0063]
32
TABLE 32
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-1049
H
5-Br
N
OMe
SMe
|
I-1050
Me
5-Cl
N
OMe
SMe
|
I-1051
Me
5-Br
N
OMe
SMe
|
I-1052
Me
5-Me
N
OMe
SMe
|
I-1053
CF3
5-Cl
N
OMe
SMe
|
I-1054
CF3
5-Br
N
OMe
SMe
|
I-1055
CF3
5-Me
N
OMe
SMe
|
I-1056
H
H
CH
OMe
Ph
160-162
|
I-1057
H
H
N
OMe
Ph
|
I-1058
Me
5-Me
N
OMe
Ph
165-168
|
I-1059
CF3
6-Me
N
OMe
Ph
150-153
|
I-1060
H
H
CH
Cl
Ph
176-179
|
I-1061
H
H
N
Cl
Ph
|
I-1062
H
H
CH
Cl
Cl
165-168
|
I-1063
Me
H
CH
Cl
Cl
170-172
|
I-1064
Me
5,6-Cl2
CH
Cl
Cl
202-205
|
I-1065
H
H
N
Cl
Cl
|
I-1066
Me
H
N
Cl
Cl
>300
|
I-1067
H
H
CH
Cl
Me
187-190
|
I-1068
Me
H
CH
Cl
Me
122-125
|
I-1069
H
H
CH
Cl
N(Me)2
205-208
|
I-1070
H
H
N
Cl
N(Me)2
|
I-1071
Me
5-Cl
N
N(Me)2
N(Me)2
203-206
|
I-1072
H
H
CH
OMe
N(Me)2
129-132
|
I-1073
H
H
CBr
OMe
OMe
>300
|
I-1074
H
H
CMe
OMe
OMe
152-155
|
I-1075
H
H
CMe
Cl
Cl
184-187
|
I-1076
H
H
COMe
H
H
131-134
|
I-1077
Me
5-Me
COMe
H
H
|
I-1078
Me
5-Cl
COMe
H
H
|
I-1079
H
H
CH
Me
Me
131-132
|
I-1080
Me
5-Cl
CH
Me
Me
138-140
|
I-1081
Me
5-CF3
CH
Me
Me
|
I-1082
H
H
CH
Me
CF3
107-110
|
|
[0064]
33
TABLE 33
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-1083
Me
5-Cl
CH
Me
CF3
|
I-1084
Me
5-Cl
N
Me
CF3
|
I-1085
H
H
CH
Me
Et
60-63
|
I-1086
H
5-Me
CH
Me
Et
55-58
|
I-1087
Me
5-Me
CH
Me
Et
109-112
|
I-1088
Me
5-Cl
CH
Me
Et
76-79
|
I-1089
Me
5-OMe
CH
Me
Et
|
I-1090
Me
6-Cl
CH
Me
Et
84-87
|
I-1091
Cl
5-Cl
CH
Me
Et
|
I-1092
Cl
5-Me
CH
Me
Et
|
I-1093
H
H
CH
Et
Et
58-61
|
I-1094
H
5-Me
CH
Et
Et
68-71
|
I-1095
Me
5-Me
CH
Et
Et
76-79
|
I-1096
Me
5-Cl
CH
Et
Et
78-80
|
I-1097
Me
5-OMe
CH
Et
Et
|
I-1098
Me
6-Cl
CH
Et
Et
80-83
|
I-1099
Cl
5-Cl
CH
Et
Et
|
I-1100
Cl
5-Me
CH
Et
Et
|
I-1101
H
H
CH
Me
Pr-c
124-125
|
I-1102
H
5-Me
CH
Me
Pr-c
|
I-1103
Me
5-Me
CH
Me
Pr-c
153-156
|
I-1104
Me
5-Cl
CH
Me
Pr-c
119-122
|
I-1105
Me
5-OMe
CH
Me
Pr-c
|
I-1106
Me
6-Cl
CH
Me
Pr-c
110-113
|
I-1107
Cl
5-Cl
CH
Me
Pr-c
|
I-1108
Cl
5-Me
CH
Me
Pr-c
|
I-1109
H
H
CH
Et
Pr-c
|
I-1110
Me
5-Me
CH
Et
Pr-c
|
I-1111
Me
5-Cl
CH
Et
Pr-c
|
I-1112
Me
5-OMe
CH
Et
Pr-c
|
I-1113
Me
6-Cl
CH
Et
Pr-c
|
I-1114
Cl
5-Cl
CH
Et
Pr-c
|
I-1115
Cl
5-Me
CH
Et
Pr-c
|
I-1116
H
H
CH
Et
Et
|
|
[0065]
34
TABLE 34
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-1117
Me
5-Me
CH
Et
Et
|
I-1118
Me
5-Cl
CH
Et
Et
|
I-1119
Me
5-OMe
CH
Et
Et
|
I-1120
Me
6-Cl
CH
Et
Et
|
I-1121
Cl
5-Cl
CH
Et
Et
|
I-1122
Cl
5-Me
CH
Et
Et
|
I-1123
H
H
CH
C≡CMe
Me
134-136
|
I-1124
Me
5-Me
CH
C≡CMe
Me
|
I-1125
Me
5-Cl
CH
C≡CMe
Me
|
I-1126
Me
5-Me
N
C≡CMe
Me
|
I-1127
Me
5-Cl
N
C≡CMe
Me
|
I-1128
Cl
5-Cl
CH
C≡CMe
Me
|
I-1129
Cl
5-Me
CH
C≡CMe
Me
|
I-1130
H
H
CH
CH═CH2
Me
|
I-1131
Me
5-Me
CH
CH═CH2
Me
|
I-1132
Me
5-Cl
CH
CH═CH2
Me
|
I-1133
Me
5-Me
N
CH═CH2
Me
|
I-1134
Cl
5-Cl
CH
CH═CH2
Me
|
I-1135
Cl
5-Me
CH
CH═CH2
Me
|
I-1136
H
H
CH
CHO
Me
|
I-1137
Me
5-Cl
CH
CHO
Me
|
I-1138
Me
5-Cl
N
CHO
Me
|
I-1139
H
H
CH
COMe
Me
|
I-1140
Me
5-Cl
CH
COMe
Me
|
I-1141
Me
5-Cl
N
COMe
Me
|
I-1142
H
H
CH
CH2OMe
Me
|
I-1143
Me
5-Cl
CH
CH2OMe
Me
|
I-1144
Me
5-Me
CH
CH2OMe
Me
|
I-1145
H
H
N
CH2OMe
OMe
|
I-1146
Me
H
CH
CN
CN
|
I-1147
Me
H
CH
CN
Me
187-189
|
I-1148
Me
H
N
CN
CN
|
I-1149
Me
H
N
CN
Me
|
I-1150
Me
H
CH
SO2Me
SO2Me
|
|
[0066]
35
TABLE 35
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
I-1151
Me
H
N
SO2Me
SO2Me
|
I-1152
Me
H
CH
SO2Me
Me
183-186
|
|
[0067] Typical processes for producing pyrimidinylbenzimidazole and triazinylbenzimidazole derivatives represented by the general formula [I] as the compounds of the present invention, will be exemplified below.
5
[0068] (wherein X, Y, R1, R2, A and n have the same meanings as mentioned above respectively, and L is a leaving group such as a halogen atom, a (C1-C6) alkylsulfonyl group or a benzylsulfonyl group.)
[0069] The compound of the present invention represented by the general formula [I] can be produced by reacting a benzimidazole derivative represented by the general formula [II] and a pyrimidine derivative or triazine derivative represented by the general formula [III] in the presence of a base in a solvent. Here, as the base, a carbonate, hydrogencarbonate, acetate, alcoholate, hydroxide, hydride or oxide of an alkali metal or alkaline earth metal, particularly sodium, potassium, magnesium or calcium, may, for example, be used. The solvent which can be used in the present reaction may be one which does not inhibit the progress of the present reaction, and an ether such as diethyl ether, diisopropyl ether, tetrahydrofuran, dioxane, monoglyme or diglyme, a halogenated hydrocarbon such as dichloroethane, chloroform, carbon tetrachloride or tetrachloroethane, an aromatic hydrocarbon such as benzene, chlorobenzene, nitrobenzene or toluene, or N,N-dimethylformamide, N,N-dimethylacetoamide, 1,3-dimethyl-2-imidazolinone or dimethylsulfoxide, may, for example, be used. These inert solvents may be used alone or as mixed. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the inert solvent to be used, and preferably within a range of from 0° C. to 80° C. The reaction time varies depending upon e.g. the reaction temperature and the reaction amount, but may be selected within a range of from 1 hour to 48 hours in general. After completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
[0070] Here, the benzimidazole derivative represented by the general formula [II] may be a commercially available product or may be produced by a known method [e.g. a method as disclosed in Angewandte Chemie, vol 85, p866 (1973); Journal of the American Chemical Society, vol 69, p2459 (1947); Journal of the American Chemical Society, vol 82, p3138 (1960); Organic Syntheses, vol 2, p65 (1943); or Organic Syntheses, vol 4, p569 (1963)].
6
[0071] (wherein X, Y, R1, R2, A and n have the same meanings as mentioned above respectively.)
[0072] The anilide derivative represented by the general formula [V] can be produced by reacting an anilinopyrimidine derivative or anilinotriazine derivative represented by the general formula [IV] with an acylating agent in an inert solvent. The reaction is carried out preferably in the presence of a base. As the acylating agent, an acid halide such as acetyl chloride, propionyl chloride or benzoyl chloride, or an acid anhydride such as trifluoroacetic anhydride, propionic anhydride or benzoic anhydride may be mentioned. The inert solvent which can be used in the present reaction may be one which does not inhibit the progress of the present reaction, and for example, e.g. a ketone such as acetone, methyl ethyl ketone or cyclohexanone, an ether such as diethyl ether, diisopropyl ether, tetrahydrofuran, dioxane, monoglyme or diglyme, an ester such as ethyl acetate or methyl acetate, a halogenated hydrocarbon such as dichloroethane, chloroform, carbon tetrachloride or tetrachloroethane, an aromatic hydrocarbon such as benzene, chlorobenzene, nitrobenzene or toluene, a nitrile such as acetonitrile, or N,N-dimethylformamide, N,N-dimethylacetoamide, 1,3-dimethyl-2-imidazolinone, dimethylsulfoxide, pyridine or water, may be used. These inert solvents may be used alone or as mixed. As the base to be used in the present reaction, an inorganic base or an organic base may be used. For example, as an inorganic base, a carbonate or hydroxide of an alkali metal or alkaline earth metal, such as sodium carbonate, potassium carbonate, calcium carbonate, sodium hydrogencarbonate, sodium hydroxide, potassium hydroxide or calcium hydroxide, or a hydride of an alkali metal such as lithium hydride or sodium hydride, may be used, and as an organic base, triethylamine, diisopropylethylamine or pyridine may, for example, be used. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the inert solvent to be used, and preferably within a range of from 0° C. to 50° C. The reaction time varies depending upon e.g. the reaction temperature and the reaction amount, but may be selected within a range of from several minutes to 48 hours in general.
[0073] Then, the anilide derivative represented by the general formula [V] is subjected to a cyclization reaction without a solvent or in a solvent, in the presence of a catalyst as the case requires, to produce the compound of the present invention represented by the general formula [I]. As the catalyst to be used here, an inorganic acid such as sulfuric acid or hydrochloric acid or an organic acid such as para-toluenesulfonic acid may, for example, be used. As the solvent which can be used in the present reaction, the solvent exemplified in Process 1 may be used. The reaction temperature may be selected within a range of from 0° C. to the boiling point of the solvent to be used, and preferably within a range of from room temperature to the boiling point of the solvent. The reaction time varies depending upon e.g. the reaction temperature and the reaction amount, but may be selected within a range of from 1 hour to 48 hours in general. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
7
[0074] (wherein X, Y, R1, R2, A and n have the same meanings as mentioned above respectively.)
[0075] The compound of the present invention represented by the general formula [I] can be produced directly by heating an anilinopyrimidine derivative or anilinotriazine derivative represented by the general formula [IV] in a carboxylic acid represented by the general formula [VI], in the presence of an acid anhydride as the case requires. The reaction temperature may be selected within a range of from 0° C. to the boiling point of the carboxylic acid to be used, preferably within a range of from room temperature to the boiling point of the carboxylic acid. The reaction time may be selected within a range of from 1 hour to 48 hours in general. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
8
[0076] (wherein Y, R1, R2, A and n have the same meanings as mentioned above respectively.)
[0077] The compound represented by the general formula [I-a] can be produced by reacting an anilinopyrimidine derivative or anilinotriazine derivative represented by the general formula [IV] and a reagent [VII] such as BrCN or H2NCN by a method known from a literature [e.g. a method as disclosed in Journal of the American Chemical Society, vol 69, p2459 (1947); or Angewandte Chemie, vol 85, p866 (1973)] in a solvent. As the solvent which can be used in the present reaction, the solvent as exemplified in Process 1 may be used. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the reaction mixture to be used, preferably within a range of from 0° C. to the boiling point of the reaction mixture. The reaction time varies depending upon e.g. the reaction temperature or the reaction amount, and may be selected within a range of from 1 hour to 48 hours in general. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
9
[0078] (wherein X′ is a halogen atom, and Y, R1, R2, A and n have the same meanings as mentioned above respectively.)
[0079] The compound represented by the general formula [I-d] can be produced by diazotizing a 2-aminobenzimidazole derivative represented by the general formula [I-a] by a known method [e.g. Sandmeyer method, Schwechten method or Gattermann method] in a solvent at a reaction temperature which are conventionally employed, followed by halogenation. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
10
[0080] (wherein Y, R1, R2, A and n have the same meanings as mentioned above respectively, and R4 is a C1-C6 alkyl group.)
[0081] The compound represented by the general formula [I-e] can be produced by oxidizing a pyrimidinylbenzimidazole derivative or triazinylbenzimidazole derivative represented by the general formula [I-b] by a known method. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires. The oxidizing agent which can be used in the present reaction may, for example, be-hydrogen peroxide or an organic peracid such as m-chloroperbenzoic acid. As the solvent which can be used, the solvent as exemplified in Process 1 may be used. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the reaction mixture to be used, preferably within a range of from 5° C. to the boiling point of the reaction mixture. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
11
[0082] (wherein Y, R1, R2, A, L and n have the same meanings as mentioned above respectively, and X″ is a (C1-C6) alkoxy, (C2-C6) alkenyloxy, (C2-C6) alkynyloxy, (C1-C6) alkylthio or (C1-C6) alkylamino group.)
[0083] The compound of the present invention represented by the general formula [I-f] can be produced by reacting a pyrimidinylbenzimidazole derivative or triazinylbenzimidazole derivative represented by the general formula [I-c] and an alcohol, mercaptan or amine represented by the general formula [XVI] in the presence of a base without a solvent or in a solvent. As the base and the solvent which can be used in the present reaction, the base and the solvent as exemplified in Process 1 may be used. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the reaction mixture to be used, preferably within a range of from room temperature to the boiling point of the reaction mixture. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
12
[0084] (wherein X, Y, A, L and n have the same meanings as mentioned above respectively, and Z is a (C1-C6) alkoxy, (C2-C6) alkenyloxy, (C2-C6) alkynloxy, (C1-C6) alkylthio or di (C1-C6) alkylamino group.)
[0085] The compound of the present invention represented by the general formula [I-h] can be produced by reacting a pyrimidinylbenzimidazole derivative or triazinylbenzimidazole derivative represented by the general formula [I-g] and an alcohol, mercaptan or amine represented by the general formula [VIII] in the presence of a base without a solvent or in a proper solvent. As the base and the solvent which can be used in the present reaction, the base and the solvent as exemplified in Process 1 may be used. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the reaction mixture to be used, preferably within a range of from room temperature to the boiling point of the reaction mixture. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
13
[0086] (wherein Y, R1, R2, A and n have the same meanings as mentioned above respectively.)
[0087] The compound of the present invention represented by the general formula [I-i] can be produced by reducing an anilinotriazine derivative represented by the general formula [IX] with iron powder in acetic acid or in a mixed solvent of acetic anhydride and acetic acid. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the reaction mixture to be used, preferably within a range of from room temperature to the boiling point of the reaction mixture. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
[0088] Now, processes for synthesizing the production intermediates for the compounds of the present invention will be explained in detail below.
[0089] Process 10
[0090] Synthesis of Production Intermediate Represented by the General Formula [IV]
[0091] The compound [IV] may be synthesized, for example, in accordance with the following process, but the process is not limited thereto.
14
[0092] (wherein Y, R1, R2, A, L and n have the same meanings as mentioned above respectively.)
[0093] A formanilide derivative represented by the general formula [X] and a pyrimidine derivative or triazine derivative represented by the general formula [III] are reacted in the presence of a base in an inert solvent at a reaction temperature within a range of from −20° C. to the boiling point of the solvent, preferably within a range of from room temperature to 80° C., followed by hydrolysis with e.g. an acid such as hydrochloric acid, hydrobromic acid or sulfuric acid or an alkali metal hydroxide such as sodium hydroxide or potassium hydroxide by a generally known method to obtain [XI]. Then, the obtained [XI] is reduced with a reducing agent such as iron, tin chloride, or a hydrogen atom accompanied with another catalyst such as palladium carbon or Raney Nickel, by a generally known method to produce an anilinopyrimidine derivative or anilinotriazine derivative represented by the general formula [IV].
[0094] Process 11
[0095] Synthesis of Production Intermediate Represented by the General Formula [XI-b]
[0096] The compound [XI-b] may be synthesized, for example, in accordance with the following process, but the process is not limited thereto.
15
[0097] (wherein Y, Z and n have the same meanings as mentioned above respectively.)
[0098] A nitroaniline derivative represented by the general formula [XII] and cyanuric chloride represented by [XIII] are reacted in the presence of a base without a solvent or in a proper solvent to produce an anilinotriazine derivative represented by the general formula [XI-a], which is successively reacted with an alcohol, mercaptan or amine represented by the general formula [VIII] in the presence of a base without a solvent or in a proper solvent to produce an anilinotriazine derivative represented by the general formula [XI-b]. As the base and the solvent which can be used in the present reaction, the base and the solvent as exemplified in Process 1 may be used. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the reaction mixture to be used, preferably within a range of from room temperature to the boiling point of the reaction mixture. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
[0099] Process 12
[0100] Synthesis of Production Intermediates Represented by the General Formulae [XI-c] and [XI-d]
[0101] The compounds [XI-c] and [XI-d] may be synthesized, for example, in accordance with the following process, but the process is not limited thereto.
16
[0102] (wherein R1, Y, L, Z and n have the same meanings as mentioned above respectively.)
[0103] A formanilide derivative represented by the general formula [X] and a triazine derivative represented by [XIV] are reacted in the presence of a base without a solvent or in a proper solvent, followed by hydrolysis with e.g. an acid such as hydrochloric acid, hydrobromic acid or sulfuric acid or an alkali metal hydroxide such as sodium hydroxide or potassium hydroxide, by a generally known method to produce an anilinotriazine derivative represented by the general formula [XI-c], which is successively reacted with an alcohol, mercaptan or amine represented by the general formula [VIII] in the presence of a base without a solvent or in a proper solvent to produce an anilinotriazine derivative represented by the general formula [XI-d] . As the base and the solvent which can be used in the present reaction, the base and the solvent as exemplified in Process 1 may be used. The reaction temperature may be selected within a range of from −20° C. to the boiling point of the reaction mixture to be used, preferably within a range of from room temperature to the boiling point of the reaction mixture. After the completion of the reaction, the desired product is isolated from the reaction system by a conventional method and may be purified by e.g. column chromatography or recrystallization, as the case requires.
[0104] Here, the anilinopyrimidine and anilinotriazine derivatives represented by the general formulae [IV], [V] and [XI] are also novel compounds, and specific examples thereof will be disclosed in Tables 36 to 65.
36TABLE 36
|
|
|
17
|
m.p. (° C.)
Compoundor RI
No.XYnAR1R2(nD20)
|
1-1HHCHOMeOMe
1-2MeHCHOMeOMe
1-3EtHCHOMeOMe
1-4PrHCHOMeOMe
1-5Pr-iHCHOMeOMe
1-6Pr-cHCHOMeOMe
1-7BuHCHOMeOMe
1-8BnHCHOMeOMe169-172
1-9Bn(4-Cl)HCHOMeOMe187-200
1-10Bn(4-Me)HCHOMeOMe157-158
1-11Bn(4-OMe)HCHOMeOMe
1-12CH═CH2HCHOMeOMe147-149
1-13C≡CHHCHOMeOMe
1-14CH2OEtHCHOMeOMe
1-15CH2ClHCHOMeOMe125-126
1-16CH2CH2ClHCHOMeOMe162-165
1-17CH2IHCHOMeOMe
1-18CCl3HCHOMeOMe
1-19CF3HCHOMeOMe
1-20C2F5HCHOMeOMe82-85
1-21PhHCHOMeOMe148-152
1-22Ph(4-Cl)HCHOMeOMe
1-23Ph(4-Me)HCHOMeOMe
1-24Ph(4-OMe)HCHOMeOMe
1-25HHNOMeOMe
1-26MeHNOMeOMe
|
[0105]
37
TABLE 37
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-27
Et
H
N
OMe
OMe
|
1-28
Pr
H
N
OMe
OMe
|
1-29
Pr-i
H
N
OMe
OMe
|
1-30
Pr-c
H
N
OMe
OMe
|
1-31
Bu
H
N
OMe
OMe
|
1-32
Bn
H
N
OMe
OMe
|
1-33
Bn(4-Cl)
H
N
OMe
OMe
|
1-34
Bn(4-Me)
H
N
OMe
OMe
|
1-35
Bn(4-OMe)
H
N
OMe
OMe
|
1-36
CH═CH2
H
N
OMe
OMe
|
1-37
C≡CH
H
N
OMe
OMe
|
1-38
CH2OEt
H
N
OMe
OMe
|
1-39
CH2Cl
H
N
OMe
OMe
|
1-40
CH2I
H
N
OMe
OMe
|
1-41
CCl3
H
N
OMe
OMe
|
1-42
CF3
H
N
OMe
OMe
|
1-43
C2F5
H
N
OMe
OMe
|
1-44
Ph
H
N
OMe
OMe
|
1-45
Ph(4-Cl)
H
N
OMe
OMe
|
1-46
Ph(4-Me)
H
N
OMe
OMe
|
1-47
Ph(OMe)
H
N
OMe
OMe
|
1-48
H
6-Me
CH
OMe
OMe
|
1-49
H
6-Cl
CH
OMe
OMe
|
1-50
H
5-F
CH
OMe
OMe
|
1-51
H
5-Cl
CH
OMe
OMe
|
1-52
H
5-Br
CH
OMe
OMe
|
1-53
H
5-Me
CH
OMe
OMe
|
1-54
H
5-Bu-t
CH
OMe
OMe
|
1-55
H
5-CF3
CH
OMe
OMe
|
1-56
H
5-OMe
CH
OMe
OMe
|
1-57
H
5-OEt
CH
OMe
OMe
|
1-58
H
5-OPr
CH
OMe
OMe
|
1-59
H
5-OCF3
CH
OMe
OMe
|
|
[0106]
38
TABLE 38
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-60
H
5-OCH2CH═CH2
CH
OMe
OMe
|
1-61
H
5-OCH2C≡CH
CH
OMe
OMe
|
1-62
H
5-OPh
CH
OMe
OMe
|
1-63
H
5-OPh(4-Cl)
CH
OMe
OMe
|
1-64
H
5-OPh(4-Me)
CH
OMe
OMe
|
1-65
H
5-OPh(4-OMe)
CH
OMe
OMe
|
1-66
H
5-SMe
CH
OMe
OMe
|
1-67
H
5-CH2OMe
CH
OMe
OMe
|
1-68
H
5-COMe
CH
OMe
OMe
|
1-69
H
5-COPh
CH
OMe
OMe
|
1-70
H
5-CO2Et
CH
OMe
OMe
|
1-71
H
5-Ph
CH
OMe
OMe
|
1-72
H
5-Ph(4-Cl)
CH
OMe
OMe
|
1-73
H
5-Ph(4-Me)
CH
OMe
OMe
|
1-74
H
5-Ph(4-OMe)
CH
OMe
OMe
|
1-75
H
5-NO2
CH
OMe
OMe
|
1-76
H
5-NH2
CH
OMe
OMe
|
1-77
H
5-NHMe
CH
OMe
OMe
|
1-78
H
5-NMe2
CH
OMe
OMe
|
1-79
H
5-CN
CH
OMe
OMe
|
1-80
H
4-F
CH
OMe
OMe
|
1-81
H
4-Cl
CH
OMe
OMe
|
1-82
H
4-Me
CH
OMe
OMe
|
1-83
H
4-CF3
CH
OMe
OMe
|
1-84
H
4-OMe
CH
OMe
OMe
|
1-85
H
4-CO2Et
CH
OMe
OMe
|
1-86
H
4-COPh
CH
OMe
OMe
|
1-87
H
3-Me
CH
OMe
OMe
|
1-88
H
3-Cl
CH
OMe
OMe
|
1-89
H
4,5-Cl2
CH
OMe
OMe
|
1-90
H
4,5-Me2
CH
OMe
OMe
|
1-91
H
4,5-(OMe)2
CH
OMe
OMe
|
1-92
H
4-CF3, 6-Br
CH
OMe
OMe
|
|
[0107]
39
TABLE 39
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-93
H
4-CF3, 6-Cl
CH
OMe
OMe
|
1-94
H
4,5,6-F3
CH
OMe
OMe
|
1-95
H
6-Me
N
OMe
OMe
|
1-96
H
6-Cl
N
OMe
OMe
|
1-97
H
5-F
N
OMe
OMe
|
1-98
H
5-Cl
N
OMe
OMe
|
1-99
H
5-Br
N
OMe
OMe
|
1-100
H
5-Me
N
OMe
OMe
|
1-101
H
5-CF3
N
OMe
OMe
|
1-102
H
5-OMe
N
OMe
OMe
|
1-103
H
5-OEt
N
OMe
OMe
|
1-104
H
5-OPr
N
OMe
OMe
|
1-105
H
5-OCF3
N
OMe
OMe
|
1-106
H
5-OCH2CH═CH2
N
OMe
OMe
|
1-107
H
5-OCH2C≡CH
N
OMe
OMe
|
1-108
H
5-OPh
N
OMe
OMe
|
1-109
H
5-SMe
N
OMe
OMe
|
1-110
H
5-COPh
N
OMe
OMe
|
1-111
H
5-CO2Et
N
OMe
OMe
|
1-112
H
5-Ph
N
OMe
OMe
|
1-113
H
5-Ph(4-Cl)
N
OMe
OMe
|
1-114
H
5-Ph(4-Me)
N
OMe
OMe
|
1-115
H
5-Ph(4-OMe)
N
OMe
OMe
|
1-116
H
5-NO2
N
OMe
OMe
|
1-117
H
5-NH2
N
OMe
OMe
|
1-118
H
5-NHMe
N
OMe
OMe
|
1-119
H
5-NMe2
N
OMe
OMe
|
1-120
H
5-CN
N
OMe
OMe
|
1-121
H
4-F
N
OMe
OMe
|
1-122
H
4-Cl
N
OMe
OMe
|
1-123
H
4-Me
N
OMe
OMe
|
1-124
H
4-CF3
N
OMe
OMe
|
1-125
H
4-OMe
N
OMe
OMe
|
|
[0108]
40
TABLE 40
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-126
H
4-NO2
N
OMe
OMe
|
1-127
H
4-CO2Et
N
OMe
OMe
|
1-128
H
4-COPh
N
OMe
OMe
|
1-129
H
3-Me
N
OMe
OMe
|
1-130
H
3-Cl
N
OMe
OMe
|
1-131
H
4,5-Cl2
N
OMe
OMe
|
1-132
H
4,5-Me2
N
OMe
OMe
|
1-133
H
4,5-(OMe)2
N
OMe
OMe
|
1-134
H
4-CF3, 6-Br
N
OMe
OMe
|
1-135
H
4-CF3, 6-Cl
N
OMe
OMe
|
1-136
H
4,5,6-F3
N
OMe
OMe
|
1-137
Me
6-Me
CH
OMe
OMe
|
1-138
Me
6-Cl
CH
OMe
OMe
|
1-139
Me
6-F
CH
OMe
OMe
|
1-140
Me
5-Cl
CH
OMe
OMe
|
1-141
Me
5-Br
CH
OMe
OMe
|
1-142
Me
5-Me
CH
OMe
OMe
|
1-143
Me
5-Bu-t
CH
OMe
OMe
|
1-144
Me
5-CF3
CH
OMe
OMe
|
1-145
Me
5-OMe
CH
OMe
OMe
|
1-146
Me
5-COPh
CH
OMe
OMe
|
1-147
Me
5-Ph
CH
OMe
OMe
|
1-148
Me
5-NH2
CH
OMe
OMe
|
1-149
Me
5-NMe2
CH
OMe
OMe
|
1-150
Me
5-CN
CH
OMe
OMe
|
1-151
Me
4-F
CH
OMe
OMe
|
1-152
Me
4-Cl
CH
OMe
OMe
|
1-153
Me
4-Me
CH
OMe
OMe
|
1-154
Me
4-CF3
CH
OMe
OMe
|
1-155
Me
4-OMe
CH
OMe
OMe
|
1-156
Me
4-COPh
CH
OMe
OMe
|
1-157
Me
4,5-Cl2
CH
OMe
OMe
|
1-158
Me
4,5-Me2
CH
OMe
OMe
|
|
[0109]
41
TABLE 41
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-159
Me
4,5-(OMe)2
CH
OMe
OMe
|
1-160
Me
6-Me
N
OMe
OMe
|
1-161
Me
6-Cl
N
OMe
OMe
|
1-162
Me
5-F
N
OMe
OMe
|
1-163
Me
5-Cl
N
OMe
OMe
|
1-164
Me
5-Br
N
OMe
OMe
|
1-165
Me
5-Me
N
OMe
OMe
180-183
|
1-166
Me
5-Et
N
OMe
OMe
|
1-167
Me
5-Pr
N
OMe
OMe
|
1-168
Me
5-Pr-i
N
OMe
OMe
|
1-169
Me
5-Bu-t
N
OMe
OMe
|
1-170
Me
5-CH═CH2
N
OMe
OMe
|
1-171
Me
5-C≡CBu
N
OMe
OMe
|
1-172
Me
5-CF3
N
OMe
OMe
|
1-173
Me
5-OMe
N
OMe
OMe
|
1-174
Me
5-SMe
N
OMe
OMe
|
1-175
Me
5-COPh
N
OMe
OMe
|
1-176
Me
5-Ph
N
OMe
OMe
|
1-177
Me
5-NH2
N
OMe
OMe
|
1-178
Me
5-NMe2
N
OMe
OMe
|
1-179
Me
5-CN
N
OMe
OMe
|
1-180
Me
4-F
N
OMe
OMe
|
1-181
Me
4-Cl
N
OMe
OMe
|
1-182
Me
4-Me
N
OMe
OMe
|
1-183
Me
4-CF3
N
OMe
OMe
|
1-184
Me
4-OMe
N
OMe
OMe
|
1-185
Me
4-OEt
N
OMe
OMe
|
1-186
Me
4-OPr
N
OMe
OMe
|
1-187
Me
4-CO2Et
N
OMe
OMe
|
1-188
Me
4-COPh
N
OMe
OMe
|
1-189
Me
4,5-Cl2
N
OMe
OMe
|
1-190
Me
4,6-Me2
N
OMe
OMe
|
1-191
Me
4,5-Me2
N
OMe
OMe
|
|
[0110]
42
TABLE 42
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-192
Me
4,5-(OMe)2
N
OMe
OMe
|
1-193
CF3
5-F
CH
OMe
OMe
158-160
|
1-194
CF3
5-Cl
CH
OMe
OMe
150-151
|
1-195
CF3
5-Br
CH
OMe
OMe
|
1-196
CF3
5-Me
CH
OMe
OMe
144-147
|
1-197
CF3
5-CF3
CH
OMe
OMe
168-171
|
1-198
CF3
5-OMe
CH
OMe
OMe
|
1-199
CF3
5-OEt
CH
OMe
OMe
122-125
|
1-200
CF3
5-OPr
CH
OMe
OMe
|
1-201
CF3
5-NMe2
CH
OMe
OMe
|
1-202
CF3
5-CN
CH
OMe
OMe
|
1-203
CF3
4-F
CH
OMe
OMe
|
1-204
CF3
4-Cl
CH
OMe
OMe
|
1-205
CF3
4-Me
CH
OMe
OMe
|
1-206
CF3
4,5-(OMe)2
CH
OMe
OMe
|
1-207
CF3
5-F
N
OMe
OMe
202-205
|
1-208
CF3
5-Cl
N
OMe
OMe
|
1-209
CF3
5-Br
N
OMe
OMe
|
1-210
CF3
5-Me
N
OMe
OMe
195-198
|
1-211
CF3
5-Et
N
OMe
OMe
182-185
|
1-212
CF3
5-Pr
N
OMe
OMe
141-144
|
1-213
CF3
5-Pr-i
N
OMe
OMe
193-196
|
1-214
CF3
5-Bu-t
N
OMe
OMe
215-218
|
1-215
CF3
5-CF3
N
OMe
OMe
|
1-216
CF3
5-OMe
N
OMe
OMe
183-185
|
1-217
CF3
5-OEt
N
OMe
OMe
|
1-218
CF3
5-OPr
N
OMe
OMe
|
1-219
CF3
5-OCF3
N
OMe
OMe
188-191
|
1-220
CF3
5-SMe
N
OMe
OMe
|
1-221
CF3
5-NHMe
N
OMe
OMe
|
1-222
CF3
5-NMe2
N
OMe
OMe
|
1-223
CF3
5-CN
N
OMe
OMe
|
1-224
CF3
5-CO2Me
N
OMe
OMe
186-189
|
|
[0111]
43
TABLE 43
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-225
CF3
5-I
N
OMe
OMe
169-172
|
1-226
CF3
4-F
N
OMe
OMe
|
1-227
CF3
4-Cl
N
OMe
OMe
|
1-228
CF3
6-Me
N
OMe
OMe
|
1-229
CF3
4,5-(OMe)2
N
OMe
OMe
|
1-230
Et
5-F
CH
OMe
OMe
|
1-231
Et
5-Cl
CH
OMe
OMe
|
1-232
Et
5-Me
CH
OMe
OMe
|
1-233
Et
5-CF3
CH
OMe
OMe
|
1-234
Et
5-OMe
CH
OMe
OMe
|
1-235
Et
5-CN
CH
OMe
OMe
|
1-236
Et
4-F
CH
OMe
OMe
|
1-237
Et
4-Cl
CH
OMe
OMe
|
1-238
Et
4-Me
CH
OMe
OMe
|
1-239
Et
4,5-(OMe)2
CH
OMe
OMe
|
1-240
Et
5-F
N
OMe
OMe
|
1-241
Et
5-Cl
N
OMe
OMe
|
1-242
Et
5-Me
N
OMe
OMe
|
1-243
Et
5-CF3
N
OMe
OMe
|
1-244
Et
5-OMe
N
OMe
OMe
|
1-245
Et
5-CN
N
OMe
OMe
|
1-246
Et
4-F
N
OMe
OMe
|
1-247
Et
4-Cl
N
OMe
OMe
|
1-248
Et
4-Me
N
OMe
OMe
|
1-249
Et
4,5-(OMe)2
N
OMe
OMe
|
1-250
Pr
5-Cl
N
OMe
OMe
137-140
|
1-251
Pr-i
5-Cl
N
OMe
OMe
149-152
|
1-252
Pr-c
5-Cl
N
OMe
OMe
181-184
|
1-253
CH2OMe
5-Cl
N
OMe
OMe
|
1-254
Ph
5-Cl
N
OMe
OMe
176-179
|
1-255
Ph
5-Br
N
OMe
OMe
|
1-256
Ph(4-Cl)
5-Cl
N
OMe
OMe
|
1-257
Ph(4-Me)
5-Cl
N
OMe
OMe
|
|
[0112]
44
TABLE 44
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-258
Ph(4-OMe)
5-Cl
N
OMe
OMe
|
1-259
Bn
5-Cl
N
OMe
OMe
|
1-260
CF2Cl
5-Me
N
OMe
OMe
|
1-261
CF2Cl
5-Cl
N
OMe
OMe
|
1-262
CF2Cl
5-Br
N
OMe
OMe
|
1-263
CF2Cl
5-OMe
N
OMe
OMe
|
1-264
CH2Cl
5-Me
N
OMe
OMe
|
1-265
CH2Cl
5-Cl
N
OMe
OMe
|
1-266
CH2Cl
5-Br
N
OMe
OMe
|
1-267
CH2Cl
5-OMe
N
OMe
OMe
|
1-268
C2F5
5-Me
N
OMe
OMe
|
1-269
C2F5
5-Cl
N
OMe
OMe
|
1-270
C2F5
5-Br
N
OMe
OMe
|
1-271
C2F5
5-OMe
N
OMe
OMe
|
1-272
Ph(4-Cl)
5-OMe
CH
OMe
OMe
187-200
|
1-273
CH2OMe
5-Cl
N
OMe
OMe
183-186
|
1-274
CF3
5-Me
N
OMe
OEt
|
1-275
CF3
5-Cl
N
OMe
OEt
|
1-276
CF3
5-Br
N
OMe
OEt
|
1-277
CF2Cl
5-Cl
N
OMe
OEt
|
1-278
CF2Cl
5-Br
N
OMe
OEt
|
1-279
CF2Cl
5-Me
N
OMe
OEt
|
1-280
CH2Cl
5-Cl
N
OMe
OEt
|
1-281
CH2Cl
5-Br
N
OMe
OEt
|
1-282
CH2Cl
5-Me
N
OMe
OEt
|
1-283
C2F5
5-Cl
N
OMe
OEt
|
1-284
C2F5
5-Br
N
OMe
OEt
|
1-285
C2F5
5-Me
N
OMe
OEt
|
1-286
Me
5-F
CH
OEt
OEt
|
1-287
Me
5-Cl
CH
OEt
OEt
|
1-288
Me
5-Br
CH
OEt
OEt
|
1-289
Me
5-Me
CH
OEt
OEt
|
1-290
Me
5-CF3
CH
OEt
OEt
|
|
[0113]
45
TABLE 45
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-291
Me
5-F
N
OEt
OEt
|
1-292
Me
5-Cl
N
OEt
OEt
|
1-293
Me
5-Br
N
OEt
OEt
|
1-294
Me
5-Me
N
OEt
OEt
|
1-295
Me
5-CF3
N
OEt
OEt
|
1-296
CF3
5-F
CH
OEt
OEt
|
1-297
CF3
5-Cl
CH
OEt
OEt
|
1-298
CF3
5-Br
CH
OEt
OEt
|
1-299
CF3
5-Me
CH
OEt
OEt
|
1-300
CF3
5-CF3
CH
OEt
OEt
|
1-301
CF3
5-OMe
N
OEt
OEt
159-161
|
1-302
CF3
5-Cl
N
OEt
OEt
194-197
|
1-303
CF3
5-Br
N
OEt
OEt
191-194
|
1-304
CF3
5-Me
N
OEt
OEt
201-204
|
1-305
CF3
5-CF3
N
OEt
OEt
|
1-306
Ph
H
N
OEt
OEt
|
1-307
Ph(4-Cl)
H
N
OEt
OEt
|
1-308
Ph(4-Me)
H
N
OEt
OEt
|
1-309
Ph(4-OMe)
H
N
OEt
OEt
|
1-310
Ph
5-Cl
N
OEt
OEt
|
1-311
Ph(4-Cl)
5-Cl
N
OEt
OEt
|
1-312
Ph(4-Me)
5-Cl
N
OEt
OEt
|
1-313
Ph(4-OMe)
5-Cl
N
OEt
OEt
|
1-314
Ph
5-Br
N
OEt
OEt
|
1-315
Ph(4-Cl)
5-Br
N
OEt
OEt
|
1-316
Ph(4-Me)
5-Br
N
OEt
OEt
|
1-317
Ph(4-OMe)
5-Br
N
OEt
OEt
|
1-318
H
H
CH
OPr
OPr
|
1-319
Me
5-Cl
N
OPr
OPr
|
1-320
Me
5-Br
N
OPr
OPr
|
1-321
Me
5-Me
N
OPr
OPr
|
1-322
CF3
5-Cl
N
OPr
OPr
150-153
|
1-323
CF3
5-Br
N
OPr
OPr
|
|
[0114]
46
TABLE 46
|
|
|
Compound
m.p. (° C.) or
|
No.
X
Yn
A
R1
R2
RI (nD20)
|
|
1-324
CF3
5-Me
N
OPr
OPr
|
1-325
H
H
CH
OPr-i
OPr-i
|
1-326
Me
5-Cl
CH
OPr-i
OPr-i
|
1-327
Me
5-Me
CH
OPr-i
OPr-i
|
1-328
Me
5-Cl
N
OPr-i
OPr-i
|
1-329
Me
5-Br
N
OPr-i
OPr-i
|
1-330
Me
5-Me
N
OPr-i
OPr-i
|
1-331
CF3
5-Cl
N
OPr-i
OPr-i
198-201
|
1-332
CF3
5-Br
N
OPr-i
OPr-i
|
1-333
CF3
5-Me
N
OPr-i
OPr-i
|
1-334
Me
5-Cl
N
OCH2CH═CH2
OCH2CH═CH2
|
1-335
Me
5-Br
N
OCH2CH═CH2
OCH2CH═CH2
|
1-336
Me
5-Me
N
OCH2CH═CH2
OCH2CH═CH2
|
1-337
CF3
5-Cl
N
OCH2CH═CH2
OCH2CH═CH2
121-124
|
1-338
CF3
5-Br
N
OCH2CH═CH2
OCH2CH═CH2
|
1-339
CF3
5-Me
N
OCH2CH═CH2
OCH2CH═CH2
|
1-340
Me
5-Cl
N
OCH2C≡CH
OCH2C≡CH
|
1-341
Me
5-Br
N
OCH2C≡CH
OCH2C≡CH
|
1-342
Me
5-Me
N
OCH2C≡CH
OCH2C≡CH
|
1-343
CF3
5-Cl
N
OCH2C≡CH
OCH2C≡CH
|
1-344
CF3
5-Br
N
OCH2C≡CH
OCH2C≡CH
|
1-345
CF3
5-Me
N
OCH2C≡CH
OCH2C≡CH
|
1-346
Me
5-Cl
CH
OCH2CN
OCH2CN
|
1-347
Me
5-Me
CH
OCH2CN
OCH2CN
|
1-348
Me
5-Cl
N
OCH2CN
OCH2CN
|
1-349
Me
5-Br
N
OCH2CN
OCH2CN
|
1-350
Me
5-Me
N
OCH2CN
OCH2CN
|
1-351
CF3
5-Cl
N
OCH2CN
OCH2CN
|
1-352
CF3
5-Br
N
OCH2CN
OCH2CN
|
1-353
CF3
5-Me
N
OCH2CN
OCH2CN
|
1-354
Me
5-Cl
CH
OCH2CH2OMe
OCH2CH2OMe
|
1-355
Me
5-Me
CH
OCH2CH2OMe
OCH2CH2OMe
|
1-356
H
5-Br
N
OCH2CH2OMe
OCH2CH2OMe
|
|
[0115]
47
TABLE 47
|
|
|
m.p. (° C.) or
|
Compound No.
X
Yn
A
R1
R2
RI (nD20)
|
|
1-357
Me
5-Cl
N
OCH2CH2OMe
OCH2CH2OMe
|
1-358
Me
5-Br
N
OCH2CH2OMe
OCH2CH2OMe
|
1-359
Me
5-Me
N
OCH2CH2OMe
OCH2CH2OMe
|
1-360
CF3
5-Cl
N
OCH2CH2OMe
OCH2CH2OMe
|
1-361
CF3
5-Br
N
OCH2CH2OMe
OCH2CH2OMe
|
1-362
CF3
5-Me
N
OCH2CH2OMe
OCH2CH2OMe
|
1-363
H
5-Br
N
OCH2Pr-c
OCH2Pr-c
|
1-364
Me
5-Cl
N
OCH2Pr-c
OCH2Pr-c
|
1-365
Me
5-Br
N
OCH2Pr-c
OCH2Pr-c
|
1-366
Me
5-Me
N
OCH2Pr-c
OCH2Pr-c
|
1-367
CF3
5-Cl
N
OCH2Pr-c
OCH2Pr-c
|
1-368
CF3
5-Br
N
OCH2Pr-c
OCH2Pr-c
|
1-369
CF3
5-Me
N
OCH2Pr-c
OCH2Pr-c
|
1-370
H
H
CH
OBn
OBn
|
1-371
H
H
N
OBn
OBn
|
1-372
H
H
N
OBn(4-Cl)
OBn(4-Cl)
|
1-373
H
H
N
OBn(4-Me)
OBn(4-Me)
|
1-374
H
H
N
OBn(4-OMe)
OBn(4-OMe)
|
1-375
H
H
CH
OMe
OPh
|
1-376
H
H
N
OMe
OPh
|
1-377
H
H
N
OMe
OPh(4-Cl)
|
1-378
H
H
N
OMe
OPh(4-Me)
|
1-379
H
H
N
OMe
OPh(4-OMe)
|
1-380
H
H
CH
OMe
OCHF2
|
1-381
H
H
N
OMe
OCHF2
|
1-382
Me
5-Cl
CH
OMe
H
|
1-383
Me
5-Me
CH
OMe
H
|
1-384
Me
5-CF3
CH
OMe
H
|
1-385
Me
5-OMe
CH
OMe
H
|
1-386
CF3
5-Cl
CH
OMe
H
125-128
|
1-387
CF3
5-Me
CH
OMe
H
130-133
|
1-388
CF3
5-CF3
CH
OMe
H
|
1-389
CF3
5-OMe
CH
OMe
H
153-156
|
|
[0116]
48
TABLE 48
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-390
CF3
5-Cl
CH
OEt
H
|
1-391
CF3
5-Me
CH
OEt
H
125-127
|
1-392
CF3
5-OMe
CH
OEt
H
|
1-393
Me
5-Cl
CH
OMe
Me
|
1-394
Me
5-Me
CH
OMe
Me
|
1-395
Me
5-CF3
CH
OMe
Me
|
1-396
CF3
5-Cl
CH
OMe
Me
|
1-397
CF3
5-Me
CH
OMe
Me
|
1-398
CF3
5-OMe
CH
OMe
Me
|
1-399
Me
5-Cl
N
OMe
Me
|
1-400
Me
5-Me
N
OMe
Me
|
1-401
Me
5-CF3
N
OMe
Me
|
1-402
CF3
5-Cl
N
OMe
Me
|
1-403
CF3
5-Me
N
OMe
Me
192-195
|
1-404
CF3
5-OMe
N
OMe
Me
|
1-405
CF3
5-Cl
N
OMe
Pr
|
1-406
CF3
5-Br
N
OMe
Pr
|
1-407
CF3
5-Me
N
OMe
Pr
149-152
|
1-408
CF3
5-Cl
N
OMe
Pr-c
|
1-409
CF3
5-Br
N
OMe
Pr-c
|
1-410
CF3
5-Me
N
OMe
Pr-c
103-106
|
1-411
CF3
5-Cl
N
OEt
Pr-c
|
1-412
CF3
5-Me
N
OEt
Pr-c
|
1-413
CF3
5-CF3
N
OEt
Pr-c
|
1-414
Me
5-Cl
CH
OEt
Me
|
1-415
Me
5-Me
CH
OEt
Me
|
1-416
Me
5-CF3
CH
OEt
Me
|
1-417
Me
5-OMe
CH
OEt
Me
|
1-418
CF3
5-Cl
CH
OEt
Me
|
1-419
CF3
5-Me
CH
OEt
Me
|
1-420
CF3
5-OMe
CH
OEt
Me
136-139
|
1-421
Me
5-Cl
N
OEt
Me
|
1-422
Me
5-Br
N
OEt
Me
|
|
[0117]
49
TABLE 49
|
|
|
m.p.
|
Compound
(° C.) or
|
No.
X
Yn
A
R1
R2
RI (nD20)
|
|
1-423
Me
5-Me
N
OEt
Me
|
1-424
Me
5-CF3
N
OEt
Me
|
1-425
CF3
5-Cl
N
OEt
Me
|
1-426
CF3
5-Br
N
OEt
Me
|
1-427
CF3
5-Me
N
OEt
Me
|
1-428
CF3
5-Cl
CH
OCH2CH═CH2
Me
|
1-429
CF3
5-Me
CH
OCH2CH═CH2
Me
|
1-430
CF3
5-OMe
CH
OCH2CH═CH2
Me
|
1-431
CF3
5-Cl
N
OCH2CH═CH2
Me
|
1-432
CF3
5-Me
N
OCH2CH═CH2
Me
175-178
|
1-433
CF3
5-OMe
N
OCH2CH═CH2
Me
|
1-434
CF3
5-Me
CH
SMe
Me
|
1-435
CF3
5-Cl
CH
SMe
Me
|
1-436
CF3
5-Me
N
SMe
Me
196-199
|
1-437
CF3
5-Cl
N
SMe
Me
157-160
|
1-438
CF3
5-Cl
N
OMe
Et
|
1-439
CF3
5-Br
N
OMe
Et
|
1-440
CF3
5-Me
N
OMe
Et
|
1-441
CF3
5-Cl
N
OEt
Et
|
1-442
CF3
5-Br
N
OEt
Et
|
1-443
CF3
5-Me
N
OEt
Et
|
1-444
Me
5-Cl
N
SMe
SMe
|
1-445
Me
5-Br
N
SMe
SMe
|
1-446
Me
5-Me
N
SMe
SMe
|
1-447
CF3
5-Cl
N
SMe
SMe
|
1-448
CF3
5-Br
N
SMe
SMe
|
1-449
CF3
5-Me
N
SMe
SMe
|
1-450
Me
5-Cl
N
OMe
SMe
|
1-451
Me
5-Br
N
OMe
SMe
|
1-452
CF3
5-Cl
N
OMe
SMe
|
1-453
CF3
5-Br
N
OMe
SMe
|
1-454
CF3
5-Me
N
OMe
SMe
|
1-455
Me
5-Me
N
OMe
Ph
|
|
[0118]
50
TABLE 50
|
|
|
m.p.
|
(° C.) or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-456
CF3
5-Me
N
OMe
Ph
219-222
|
1-457
Me
H
CH
Cl
Cl
|
1-458
Me
4,5-Cl2
CH
Cl
Cl
|
1-459
Me
H
N
Cl
Cl
|
1-460
Me
H
CH
Cl
Me
|
1-461
Me
5-Cl
N
NMe2
NMe2
|
1-462
CF3
5-Cl
N
NMe2
NMe2
219-222
|
1-463
H
H
CH
OMe
NMe2
|
1-464
H
H
CBr
OMe
OMe
|
1-465
H
H
CMe
Cl
Cl
|
1-466
Me
5-Me
COMe
H
H
|
1-467
Me
5-Cl
COMe
H
H
|
1-468
Me
5-Cl
CH
Me
Me
|
1-469
Me
5-CF3
CH
Me
Me
|
1-470
Me
5-Cl
CH
Me
CF3
|
1-471
Me
5-Me
CH
Me
Et
|
1-472
Me
5-Cl
CH
Me
Et
|
1-473
CF3
5-Me
CH
Me
Et
|
1-474
CF3
5-Cl
CH
Me
Et
|
1-475
Me
5-Me
CH
Me
Pr-c
|
1-476
Me
5-Cl
CH
Me
Pr-c
|
1-477
CF3
5-Me
CH
Me
Pr-c
|
1-478
CF3
5-Cl
CH
Me
Pr-c
|
1-479
CF3
5-Cl
CH
C≡CMe
Me
|
1-480
CF3
5-Cl
N
C≡CMe
Me
|
1-481
CF3
5-Cl
CH
CH═CH2
Me
|
1-482
CF3
5-Cl
N
CH═CH3
Me
|
1-483
Me
5-Cl
CH
CHO
Me
|
1-484
Me
5-Cl
N
CHO
Me
|
1-485
Me
5-Cl
CH
COMe
Me
|
1-486
Me
5-Cl
N
COMe
Me
|
1-487
Me
5-Cl
CH
CH2OMe
Me
|
1-488
Me
5-Me
CH
CH2OMe
Me
|
|
[0119]
51
TABLE 51
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
X
Yn
A
R1
R2
(nD20)
|
|
1-489
Me
H
CH
CN
CN
|
1-490
Me
H
CH
CN
Me
|
1-491
Me
H
N
CN
CN
|
1-492
Me
H
N
CN
Me
|
1-493
Me
H
CH
SO2Me
SO2Me
|
1-494
Me
H
N
SO2Me
SO2Me
|
1-495
Me
H
CH
SO2Me
Me
|
|
[0120]
52
TABLE 52
|
|
|
|
18
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
2-1
3-Me
CH
OMe
OMe
|
2-2
3-Cl
CH
OMe
OMe
|
2-3
4-F
CH
OMe
OMe
194-196
|
2-4
4-Cl
CH
OMe
OMe
188-190
|
2-5
4-Br
CH
OMe
OMe
191-194
|
2-6
4-Me
CH
OMe
OMe
158-161
|
2-7
4-Bu-t
CH
OMe
OMe
|
2-8
4-CF3
CH
OMe
OMe
178-180
|
2-9
4-OMe
CH
OMe
OMe
189-190
|
2-10
4-OEt
CH
OMe
OMe
178-180
|
2-11
4-OPr
CH
OMe
OMe
|
2-12
4-OCF3
CH
OMe
OMe
144-147
|
2-13
4-OCH2CH═CH2
CH
OMe
OMe
|
2-14
4-OCH2C≡CH
CH
OMe
OMe
|
2-15
4-OPh
CH
OMe
OMe
|
2-16
4-OPh(4-Cl)
CH
OMe
OMe
|
2-17
4-OPh(4-Me)
CH
OMe
OMe
|
2-18
4-OPh(4-OMe)
CH
OMe
OMe
|
2-19
4-SMe
CH
OMe
OMe
|
2-20
4-CH2OMe
CH
OMe
OMe
|
2-21
4-COMe
CH
OMe
OMe
|
2-22
4-COPh
CH
OMe
OMe
|
2-23
4-CO2Et
CH
OMe
OMe
|
2-24
4-Ph
CH
OMe
OMe
|
|
[0121]
53
TABLE 53
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
2-25
4-Ph(4-Cl)
CH
OMe
OMe
|
2-26
4-Ph(4-Me)
CH
OMe
OMe
|
2-27
4-Ph(4-OMe)
CH
OMe
OMe
|
2-28
4-NO2
CH
Ome
OMe
|
2-29
4-NH2
CH
OMe
OMe
|
2-30
4-NHMe
CH
OMe
OMe
|
2-31
4-NMe2
CH
OMe
OMe
|
2-32
4-CN
CH
OMe
OMe
241-244
|
2-33
5-F
CH
OMe
OMe
|
2-34
5-Cl
CH
OMe
OMe
|
2-35
5-Me
CH
OMe
OMe
|
2-36
5-CF3
CH
OMe
OMe
|
2-37
5-OMe
CH
OMe
OMe
|
2-38
5-CO2Me
CH
OMe
OMe
|
2-39
5-COPh
CH
OMe
OMe
|
2-40
6-Me
CH
OMe
OMe
136-139
|
2-41
6-Cl
CH
OMe
OMe
|
2-42
4,5-Cl2
CH
OMe
OMe
|
2-43
4,5-Me2
CH
OMe
OMe
|
2-44
4,5-(OMe)2
CH
OMe
OMe
|
2-45
4,6-Me2
CH
OMe
OMe
139-142
|
2-46
3-Br, 5-CF3
CH
OMe
OMe
|
2-47
3-Cl, 5-CF3
CH
OMe
OMe
|
2-48
3,4,5-F3
CH
OMe
OMe
|
2-49
H
N
OMe
OMe
177-180
|
2-50
3-Me
N
OMe
OMe
|
2-51
3-Cl
N
OMe
OMe
|
2-52
4-F
N
OMe
OMe
184-187
|
2-53
4-Cl
N
OMe
OMe
206-208
|
2-54
4-Br
N
OMe
OMe
|
2-55
4-I
N
OMe
OMe
218-221
|
|
[0122]
54
TABLE 54
|
|
|
Compound
m.p. (° C.)
|
No.
Yn
A
R1
R2
or RI (nD20)
|
|
2-56
4-Me
N
OMe
OMe
189-191
|
2-57
4-Et
N
OMe
OMe
146-149
|
2-58
4-Pr
N
OMe
OMe
170-173
|
2-59
4-CF3
N
OMe
OMe
|
2-60
4-Bu-t
N
OMe
OMe
118-121
|
2-61
4-C≡CBu-t
N
OMe
OMe
117-120
|
2-62
4-OMe
N
OMe
OMe
197-199
|
2-63
4-OEt
N
OMe
OMe
|
2-64
4-OPr
N
OMe
OMe
|
2-65
4-OCF3
N
OMe
OMe
119-122
|
2-66
4-OCH2CH═CH2
N
OMe
OMe
|
2-67
4-OCH2C≡CH
N
OMe
OMe
|
2-68
4-OPh
N
OMe
OMe
|
2-69
4-SMe
N
OMe
OMe
|
2-70
4-COPh
N
OMe
OMe
221-224
|
2-71
4-CO2Me
N
OMe
OMe
289-292
|
2-72
4-Ph
N
OMe
OMe
|
2-73
4-Ph(4-Cl)
N
OMe
OMe
|
2-74
4-Ph(4-Me)
N
OMe
OMe
|
2-75
4-Ph(4-OMe)
N
OMe
OMe
|
2-76
4-NO2
N
OMe
OMe
|
2-77
4-NH2
N
OMe
OMe
|
2-78
4-NHMe
N
OMe
OMe
|
2-79
4-NMe2
N
OMe
OMe
155-158
|
2-80
4-CN
N
OMe
OMe
189-201
|
2-81
5-F
N
OMe
OMe
|
2-82
5-Cl
N
OMe
OMe
|
2-83
5-Me
N
OMe
OMe
151-154
|
2-84
5-CF3
N
OMe
OMe
|
2-85
5-OMe
N
OMe
OMe
|
2-86
5-NO2
N
OMe
OMe
|
|
[0123]
55
TABLE 55
|
|
|
m.p. (° C.) or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
2-87
5-CO2Et
N
OMe
OMe
|
2-88
5-COPh
N
OMe
OMe
|
2-89
6-Me
N
OMe
OMe
|
2-90
6-Cl
N
OMe
OMe
|
2-91
4,5-Cl2
N
OMe
OMe
|
2-92
4,5-Me2
N
OMe
OMe
|
2-93
4,5-(OMe)2
N
OMe
OMe
|
2-94
3-Br,5-CF3
N
OMe
OMe
|
2-95
3-Cl,5-CF3
N
OMe
OMe
|
2-96
3,4,5-F3
N
OMe
OMe
|
2-97
4-Me
N
OMe
OEt
173-175
|
2-98
4-Cl
N
OMe
OEt
130-132
|
2-99
4-Br
N
OMe
OEt
|
2-100
H
CH
OEt
OEt
92-95
|
2-101
4-F
CH
OEt
OEt
131-134
|
2-102
4-Cl
CH
OEt
OEt
147-149
|
2-103
4-Br
CH
OEt
OEt
|
2-104
4-Me
CH
OEt
OEt
147-150
|
2-105
4-CF3
CH
OEt
OEt
134-137
|
2-106
4-F
N
OEt
OEt
|
2-107
4-Cl
N
OEt
OEt
|
2-108
4-Br
N
OEt
OEt
|
2-109
4-Me
N
OEt
OEt
|
2-110
4-CF3
N
OEt
OEt
|
2-111
4-Cl
N
OPr
OPr
|
2-112
4-Cl
CH
OPr-i
OPr-i
|
2-113
4-Me
CH
OPr-i
OPr-i
|
2-114
4-Cl
N
OPr-i
OPr-i
|
2-115
4-Br
N
OPr-i
OPr-i
|
2-116
4-Cl
N
OCH2CH═CH2
OCH2CH═CH2
|
2-117
4-Br
N
OCH2CH═CH2
OCH2CH═CH2
|
|
[0124]
56
TABLE 56
|
|
|
m.p. (° C.)
|
Com-
or
|
pound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
2-118
4-Cl
N
OCH2C≡CH
OCH2C≡CH
|
2-119
4-Br
N
OCH2C≡CH
OCH2C≡CH
|
2-120
4-Cl
N
OCH2CN
OCH2CN
|
2-121
4-Br
N
OCH2CN
OCH2CN
|
2-122
4-Br
N
OCH2CH2OMe
OCH2CH2OMe
|
2-123
4-Cl
N
OCH2CH2OMe
OCH2CH2OMe
|
2-124
4-Br
N
OCH2Pr-c
OCH2Pr-c
|
2-125
4-Cl
N
OCH2Pr-c
OCH2Pr-c
65-68
|
2-126
H
CH
OBn
OBn
|
2-127
H
N
OBn
OBn
|
2-128
H
N
OBn(4-Cl)
OBn(4-Cl)
|
2-129
H
N
OBn(4-Me)
OBn(4-Me)
|
2-130
H
N
OBn(4-OMe)
OBn(4-OMe)
|
2-131
H
CH
OMe
OPh
|
2-132
H
N
OMe
OPh
|
2-133
H
N
OMe
OPh(4-Cl)
|
2-134
H
N
OMe
OPh(4-Me)
|
2-135
H
N
OMe
OPh(4-OMe)
|
2-136
H
CH
OMe
OCHF2
|
2-137
H
N
OMe
OCHF2
|
2-138
4-Cl
CH
OMe
H
136-139
|
2-139
4-Me
CH
OMe
H
136-139
|
2-140
4-Cl
CH
OEt
H
118-119
|
2-141
4-Me
CH
OEt
H
99-100
|
2-142
4-Cl
CH
OMe
Me
|
2-143
4-Me
CH
OMe
Me
|
2-144
4-CF3
CH
OMe
Me
155-158
|
2-145
4-Cl
N
OMe
Me
|
2-146
4-Me
N
OMe
Me
|
2-147
4-Cl
N
OMe
Pr
|
2-148
4-Me
N
OMe
Pr
116-119
|
|
[0125]
57
TABLE 57
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
2-149
4-Cl
N
OMe
Pr-c
|
2-150
4-Br
N
OMe
Pr-c
|
2-151
4-Me
N
OMe
Pr-c
130133
|
2-152
4-Cl
N
OEt
Pr-c
|
2-153
4-Me
N
OEt
Pr-c
|
2-154
4-Cl
N
OMe
Et
109-112
|
2-155
4-Br
N
OMe
Et
113-116
|
2-156
4-Me
N
OMe
Et
|
2-157
4-Cl
N
OEt
Et
|
2-158
4-Br
N
OEt
Et
|
2-159
4-Me
N
OEt
Et
|
2-160
4-Me
N
OPr
Me
175-178
|
2-161
4-Cl
N
OPr
Me
|
2-162
4-Me
CH
Me
Et
75-78
|
2-163
4-Cl
CH
Me
Et
|
2-164
4-Me
CH
Et
Et
64-67
|
2-165
4-Cl
CH
Et
Et
|
2-166
4-Me
N
Me
SMe
174-177
|
2-167
4-Cl
N
SMe
SMe
179-182
|
2-168
4-Br
N
SMe
SMe
|
2-169
4-Me
N
SMe
SMe
|
2-170
4-Cl
N
OMe
SMe
|
2-171
4-Me
N
OMe
SMe
|
2-172
4-Me
N
OMe
Ph
165-168
|
2-173
4-Cl
N
NMe2
NMe2
>300
|
2-174
H
CBr
OMe
OMe
|
2-175
H
CMe
Cl
Cl
|
2-176
4-Me
COMe
H
H
|
2-177
4-Cl
COMe
H
H
|
2-178
4-Me
N
Cl
Ph
106-109
|
2-179
4-Cl
N
Cl
Ph
|
|
[0126]
58
TABLE 58
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
2-180
4-Cl
CH
C≡CMe
Me
|
2-181
4-Cl
N
C≡CMe
Me
|
2-182
4-Cl
CH
CH═CH2
Me
|
2-183
4-Cl
N
CH═CH2
Me
|
2-184
4-Cl
CH
CHO
Me
|
2-185
4-Cl
N
CHO
Me
|
2-186
4-Cl
CH
COMe
Me
|
2-187
4-Cl
N
COMe
Me
|
2-188
4-Cl
CH
CH2OMe
Me
|
2-189
4-Me
CH
CH2OMe
Me
|
2-190
H
CH
CN
CN
|
2-191
H
CH
CN
Me
|
2-192
H
N
CN
CN
|
2-193
H
N
CN
Me
|
2-194
H
CH
SO2Me
SO2Me
|
2-195
H
N
SO2Me
SO2Me
|
2-196
H
CH
SO2Me
Me
|
|
[0127]
59
TABLE 59
|
|
|
|
19
|
|
m.p. (° C.)
|
Compound
or RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
3-1
3-Me
CH
OMe
OMe
|
3-2
3-Cl
CH
OMe
OMe
|
3-3
4-F
CH
OMe
OMe
120-123
|
3-4
4-Cl
CH
OMe
OMe
|
3-5
4-Br
CH
OMe
OMe
117-118
|
3-6
4-Me
CH
OMe
OMe
128-129
|
3-7
4-Bu-t
CH
OMe
OMe
|
3-8
4-CF3
CH
OMe
OMe
113-115
|
3-9
4-OMe
CH
OMe
OMe
|
3-10
4-OEt
CH
OMe
OMe
129-132
|
3-11
4-OPr
CH
OMe
OMe
|
3-12
4-OCF3
CH
OMe
OMe
85-88
|
3-13
4-OCH2CH═CH2
CH
OMe
OMe
|
3-14
4-OCH2C≡CH
CH
OMe
OMe
|
3-15
4-OPh
CH
OMe
OMe
|
3-16
4-OPh(4-Cl)
CH
OMe
OMe
|
3-17
4-OPh(4-Me)
CH
OMe
OMe
|
3-18
4-OPh(4-OMe)
CH
OMe
OMe
|
3-19
4-SMe
CH
OMe
OMe
|
3-20
4-CH2OMe
CH
OMe
OMe
|
3-21
4-COMe
CH
OMe
OMe
|
3-22
4-COPh
CH
OMe
OMe
|
3-23
4-CO2Et
CH
OMe
OMe
|
3-24
4-Ph
CH
OMe
OMe
130-132
|
|
[0128]
60
TABLE 60
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
3-25
4-Ph(4-Cl)
CH
OMe
OMe
|
3-26
4-Ph(4-Me)
CH
OMe
OMe
|
3-27
4-Ph(4-OMe)
CH
OMe
OMe
|
3-28
4-NO2
CH
OMe
OMe
|
3-29
4-NH2
CH
OMe
OMe
|
3-30
4-NHMe
CH
OMe
OMe
|
3-31
4-NMe2
CH
OMe
OMe
|
3-32
4-CN
CH
OMe
OMe
166-169
|
3-33
5-F
CH
OMe
OMe
|
3-34
5-Cl
CH
OMe
OMe
124-125
|
3-35
5-Me
CH
OMe
OMe
91-94
|
3-36
5-CF3
CH
OMe
OMe
|
3-37
5-OMe
CH
OMe
OMe
|
3-38
5-CO2Me
CH
OMe
OMe
|
3-39
5-COPh
CH
OMe
OMe
|
3-40
6-Me
CH
OMe
OMe
|
3-41
6-Cl
CH
OMe
OMe
|
3-42
4,5-Cl2
CH
OMe
OMe
|
3-43
4,6-Me2
CH
OMe
OMe
145-147
|
3-44
4,5-Me2
CH
OMe
OMe
|
3-45
4,5-(OMe)2
CH
OMe
OMe
|
3-46
3-Br,5-CF3
CH
OMe
OMe
|
3-47
3-Cl,5-CF3
CH
OMe
OMe
|
3-48
3,4,5-F3
CH
OMe
OMe
|
3-49
H
N
OMe
OMe
152-155
|
3-50
3-Me
N
OMe
OMe
|
3-51
3-Cl
N
OMe
OMe
|
3-52
4-F
N
OMe
OMe
183-186
|
3-53
4-Cl
N
OMe
OMe
202-205
|
3-54
4-Br
N
OMe
OMe
200-203
|
3-55
4-I
N
OMe
OMe
191-194
|
|
[0129]
61
TABLE 61
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
3-56
4-Me
N
OMe
OMe
180-183
|
3-57
4-Et
N
OMe
OMe
123-126
|
3-58
4-Pr
N
OMe
OMe
136-139
|
3-59
4-CF3
N
OMe
OMe
177-180
|
3-60
4-Bu-t
N
OMe
OMe
140-143
|
3-61
4-C≡CBu-t
N
OMe
OMe
161-164
|
3-62
4-OMe
N
OMe
OMe
182-185
|
3-63
4-OEt
N
OMe
OMe
|
3-64
4-OPr
N
OMe
OMe
|
3-65
4-OCF3
N
OMe
OMe
|
3-66
4-OCH2CH═CH2
N
OMe
OMe
|
3-67
4-OCH2C≡CH
N
OMe
OMe
|
3-68
4-OPh
N
OMe
OMe
|
3-69
4-SMe
N
OMe
OMe
|
3-70
4-COPh
N
OMe
OMe
175-178
|
3-71
4-CO2Me
N
OMe
OMe
197-200
|
3-72
4-Ph
N
OMe
OMe
|
3-73
4-Ph(4-Cl)
N
OMe
OMe
|
3-74
4-Ph(4-Me)
N
OMe
OMe
|
3-75
4-Ph(4-OMe)
N
OMe
OMe
|
3-76
4-NO2
N
OMe
OMe
|
3-77
4-NH2
N
OMe
OMe
|
3-78
4-NHMe
N
OMe
OMe
|
3-79
4-NMe2
N
OMe
OMe
115-118
|
3-80
4-CN
N
OMe
OMe
215-218
|
3-81
5-F
N
OMe
OMe
|
3-82
5-Cl
N
OMe
OMe
|
3-83
5-Me
N
OMe
OMe
131-134
|
3-84
5-CF3
N
OMe
OMe
|
3-85
5-OMe
N
OMe
OMe
|
3-86
5-NO2
N
OMe
OMe
|
|
[0130]
62
TABLE 62
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
3-87
5-CO2Et
N
OMe
OMe
|
3-88
5-COPh
N
OMe
OMe
|
3-89
6-Me
N
OMe
OMe
|
3-90
6-Cl
N
OMe
OMe
|
3-91
4,5-Cl2
N
OMe
OMe
|
3-92
4,5-Me2
N
OMe
OMe
|
3-93
4,5-(OMe)2
N
OMe
OMe
|
3-94
3-Br,5-CF3
N
OMe
OMe
|
3-95
3-Cl,5-CF3
N
OMe
OMe
|
3-96
3,4,5-F3
N
OMe
OMe
|
3-97
4-Me
N
OMe
OEt
134-137
|
3-98
4-Cl
N
OMe
OEt
132-135
|
3-99
4-Br
N
OMe
OEt
140-142
|
3-100
H
CH
OEt
OEt
146-148
|
3-101
4-F
CH
OEt
OEt
|
3-102
4-Cl
CH
OEt
OEt
|
3-103
4-Br
CH
OEt
OEt
|
3-104
4-Me
CH
OEt
OEt
|
3-105
4-CF3
CH
OEt
OEt
167-170
|
3-106
4-F
N
OEt
OEt
|
3-107
4-Cl
N
OEt
OEt
163-166
|
3-108
4-Br
N
OEt
OEt
172-175
|
3-109
4-Me
N
OEt
OEt
158-161
|
3-110
4-Bu-t
N
OEt
OEt
128-129
|
3-111
4-OMe
N
OEt
OEt
128-129
|
3-112
4-CF3
N
OEt
OEt
|
3-113
4-Cl
N
OPr
OPr
145-148
|
3-114
4-Cl
CH
OPr-i
OPr-i
|
3-115
4-Me
CH
OPr-i
OPr-i
|
3-116
4-Cl
N
OPr-i
OPr-i
179-182
|
3-117
4-Br
N
OPr-i
OPr-i
|
|
[0131]
63
TABLE 63
|
|
|
m.p.
|
(° C.)
|
Com-
or
|
pound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
3-118
4-Cl
N
OCH2CH═CH2
OCH2CH═CH2
|
3-119
4-Br
N
OCH2CH═CH2
OCH2CH═CH2
|
3-120
4-Cl
N
OCH2C≡CH
OCH2C≡CH
|
3-121
4-Br
N
OCH2C≡CH
OCH2C≡CH
|
3-122
4-Cl
N
OCH2CN
OCH2CN
|
3-123
4-Br
N
OCH2CN
OCH2CN
|
3-124
4-Br
N
OCH2CH2OMe
OCH2CH2OMe
|
3-125
4-Cl
N
OCH2CH2OMe
OCH2CH2OMe
|
3-126
4-Br
N
OCH2Pr-c
OCH2Pr-c
|
3-127
4-Cl
N
OCH2Pr-c
OCH2Pr-c
156-159
|
3-128
H
CH
OBn
OBn
|
3-129
H
N
OBn
OBn
|
3-130
H
N
OBn(4-Cl)
OBn(4-Cl)
|
3-131
H
N
OBn(4-Me)
OBn(4-Me)
|
3-132
H
N
OBn(4-OMe)
OBn(4-OMe)
|
3-133
H
CH
OMe
OPh
|
3-134
H
N
OMe
OPh
|
3-135
H
N
OMe
OPh(4-Cl)
|
3-136
H
N
OMe
OPh(4-Me)
|
3-137
H
N
OMe
OPh(4-OMe)
|
3-138
H
CH
OMe
OCHF2
|
3-139
H
N
OMe
OCHF2
|
3-140
4-Cl
CH
OMe
H
136-139
|
3-141
4-Me
CH
OMe
H
126-129
|
3-142
4-Cl
CH
OEt
H
113-115
|
3-143
4-Me
CH
OEt
H
103-105
|
3-144
4-Cl
CH
OMe
Me
|
3-145
4-Me
CH
OMe
Me
|
3-146
4-CF3
CH
OMe
Me
134-137
|
3-147
4-Cl
N
OMe
Me
|
3-148
4-Me
N
OMe
Me
202-205
|
|
[0132]
64
TABLE 64
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
3-149
4-Cl
N
OMe
Pr
|
3-150
4-Me
N
OMe
Pr
133-136
|
3-151
4-Cl
N
OMe
Pr-c
|
3-152
4-Br
N
OMe
Pr-c
163-165
|
3-153
4-Me
N
OMe
Pr-c
56-59
|
3-154
4-Cl
N
OEt
Pr-c
163-166
|
3-155
4-Me
N
OEt
Pr-c
105-108
|
3-156
4-Cl
N
OMe
Et
155-158
|
3-157
4-Br
N
OMe
Et
162-165
|
3-158
4-Me
N
OMe
Et
171-174
|
3-159
4-Cl
N
OEt
Et
|
3-160
4-Br
N
OEt
Et
|
3-161
4-Me
N
OEt
Et
|
3-162
4-Me
N
OPr
Me
|
3-163
4-Cl
N
OPr
Me
|
3-164
4-Me
CH
Me
Et
92-95
|
3-165
4-Cl
CH
Me
Et
|
3-166
4-Me
CH
Et
Et
91-94
|
3-167
4-Cl
CH
Et
Et
|
3-168
4-Me
N
Me
SMe
180-183
|
3-169
4-Cl
N
SMe
SMe
192-195
|
3-170
4-Br
N
SMe
SMe
|
3-171
4-Me
N
SMe
SMe
|
3-172
4-Cl
N
OMe
SMe
|
3-173
4-Me
N
OMe
SMe
|
3-174
4-Me
N
OMe
Ph
170-173
|
3-175
4-Cl
N
NMe2
NMe2
176-179
|
3-176
H
CBr
OMe
OMe
|
3-177
H
CMe
Cl
Cl
|
3-178
4-Me
COMe
H
H
|
3-179
4-Cl
COMe
H
H
|
|
[0133]
65
TABLE 65
|
|
|
m.p. (° C.)
|
or
|
Compound
RI
|
No.
Yn
A
R1
R2
(nD20)
|
|
|
3-180
4-Me
N
Cl
Ph
|
3-181
4-Cl
N
Cl
Ph
|
3-182
4-Cl
CH
C≡CMe
Me
|
3-183
4-Cl
N
C≡CMe
Me
|
3-184
4-Cl
CH
CH═CH2
Me
|
3-185
4-Cl
N
CH═CH2
Me
|
3-186
4-Cl
CH
CHO
Me
|
3-187
4-Cl
N
CHO
Me
|
3-188
4-Cl
CH
COMe
Me
|
3-189
4-Cl
N
COMe
Me
|
3-190
4-Cl
CH
CH2OMe
Me
|
3-191
4-Me
CH
CH2OMe
Me
|
3-192
H
CH
CN
CN
|
3-193
H
CH
CN
Me
|
3-194
H
N
CN
CN
|
3-195
H
N
CN
Me
|
3-196
H
CH
SO2Me
SO2Me
|
3-197
H
N
SO2Me
SO2Me
|
3-198
H
CH
SO2Me
Me
|
|
BEST MODE FOR CARRYING OUT THE INVENTION
[0134] Now, the processes for producing the compound of the present invention, formulation methods and applications will be specifically described with reference to Examples.
1-(4-methoxypyrimidin-2-yl)-benzimidazole (Compound Number I-667)
[0135] Benzimidazole (0.50 g) was dissolved in dimethylformamide (10 ml), and sodium hydride (60% purity, oily) (0.18 g) was added thereto at room temperature. After stirring for 1 hour, 2-chloro-4-methoxypyrimidine (0.62 g) was added at room temperature, followed by stirring for 3 hours. Ice water was added, followed by extraction with ethyl acetate, washing with a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 0.40 g of the desired product as a white powder (m.p. 114-116° C.).
1-(4,6-dimethoxypyrimidin-2-yl)-2-methylthiobenzimidazole (Compound Number I-4)
[0136] 2-Methylthiobenzimidazole (0.50 g) was dissolved in dimethylformamide (10 ml), and sodium hydride (60% purity, oily) (0.13 g) was added thereto at room temperature. After stirring for 1 hour, 2-methylsulfonyl-4,6-dimethoxypyrimidine (0.67 g) was added at room temperature, followed by stirring for 8 hours. Ice water was added, followed by extraction with ethyl acetate, washing with a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 0.80 g of the desired product as a white powder (m.p. 135-137° C.).
1-(4,6-dimethoxypyrimidin-2-yl)-2-methylsulfonylbenzimidazole (Compound Number I-5)
[0137] 1-(4,6-dimethoxypyrimidin-2-yl)-2-methylthiobenzimidazole (0.70 g) and m-chloroperbenzoic acid (1.30 g) were dissolved in chloroform (30 ml), followed by stirring at room temperature for 3 hours. The reaction liquid was washed with a 5% aqueous potassium carbonate solution and water, and the organic solvent layer was dried over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 0.50 g of the desired product as a white powder (m.p. 114-117° C.).
1-(4,6-dimethoxypyrimidin-2-yl)-2-methoxybenzimidazole (Compound Number I-18)
[0138] 1-(4,6-dimethoxypyrimidin-2-yl)-2-methylsulfonylbenzimidazole (0.40 g) was dissolved in tetrahydrofuran (20 ml), and sodium methylate (0.50 g) was added thereto under cooling with ice, followed by stirring for 1 hour. Ice water was added, followed by extraction with ethyl acetate, washing with a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the mixture was purified by silica gel column chromatography to obtain 0.40 g of the desired product as a white powder (m.p. 121-122° C.).
1-(4,6-dimethoxypyrimidin-2-yl)-2,5-dimethylbenzimidazole (Compound Number I-186)
[0139] N′-(4,6-dimethoxypyrimidin-2-yl)-4-methylbenzene-1,2-diamine (2.50 g) was dissolved in acetic acid (20 ml) and acetic anhydride (10 ml), followed by reflux for 4 hours. Water was added, and the crystals were collected by filtration, washed with water and dried. Recrystallization from ethanol was carried out to obtain 1.90 g of the desired product as white feather-like crystals (m.p. 163-166° C.).
2-amino-1-(4,6-dimethoxypyrimidin-2-yl)-5-methylbenzimidazole (Compound Number I-362)
[0140] N′-(4,6-dimethoxypyrimidin-2-yl)-4-methylbenzene-1,2-diamine (2.00 g) was dissolved in ethanol, and cyanogen bromide (1.00 g) was added thereto at room temperature, followed by stirring at 60° C. for 1 hour. Water was added, and the crystals were collected by filtration, washed with water and dried to obtain 2.03 g of the desired product as a white powder (m.p. at least 300° C.)
2-chloro-1-(4,6-dimethoxypyrimidin-2-yl)-5-methylbenzimidazole (Compound Number I-258)
[0141] 2-Amino-1-(4,6-dimethoxypyrimidin-2-yl)-5-methylbenzimidazole (1.67 g) and copper(II)chloride (0.94 g) were suspended in acetonitrile (30 ml), and tert-butyl nitrite (0.90 g) was added thereto at room temperature, followed by reflux for 30 minutes. Water was added, followed by extraction with ethyl acetate, washing with a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 1.48 g of the desired product as white feather-like crystals (m.p. 145-148° C.).
1-(4,6-dimethoxypyrimidin-2-yl)-5-methyl-2-trifluoromethylbenzimidazole (Compound Number I-298)
[0142] 2-(4,6-dimethoxypyrimidin-2-yl)amino-5-methyltrifluoroacetic anilide (0.60 g) and para-toluenesulfonic acid (0.05 g) were dissolved in toluene (30 ml), followed by reflux for 5 hours. Water and ethyl acetate were added, and the organic layer was washed with a saturated sodium hydrogencarbonate solution and a saturated sodium chloride aqueous solution and dried over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 0.56 g of the desired product as a white powder (m.p. 93-96° C.).
1-(4,6-dichloro-[1,3,5]triazin-2-yl)-2-methylbenzimidazole (Compound Number I-1066)
[0143] 2-Methylbenzimidazole (5.0 g) was dissolved in tetrahydrofuran (50 ml), and sodium hydride (60% purity, oily) (1.6 g) was added thereto at room temperature. After stirring for 1 hour, cyanuric chloride (7.0 g) was added at room temperature, followed by stirring for 3 hours. Ice water was added, followed by extraction with ethyl acetate, washing with a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 2.6 g of the desired product as a white powder (m.p. at least 300° C.)
1-(4,6-dimethylthio-[1,3,5]triazin-2-yl)-2-methylbenzimidazole (Compound Number I-1042)
[0144] 1-(4,6-dichloro-[1,3,5]triazin-2)-2-methylbenzimidazole (0.5 g) was dissolved in methanol (10 ml), and a 15% aqueous methyl mercaptan sodium salt solution (0.25 g) was added at room temperature, followed by stirring for 1 hour. After the completion of the reaction, the reaction liquid was poured into ice water, and the crystals thus deposited were collected by filtration, washed with water and dried to obtain 0.46 g of the desired product as a white powder (m.p. 176-179° C.)
5-chloro-1-(4,6-dimethoxy-[1,3,5]triazin-2-yl)-2-methylbenzimidazole (Compound Number I-215)
[0145] 4-Chloro-N′-(4,6-dimethoxy-[1,3,5]triazin-z-2-yl)benzene-1,2-diamine (0.5 g) was dissolved in acetic acid (10 ml), and acetic anhydride (10 ml) followed by reflux for 4 hours. Water was added, and the crystals were collected by filtration, washed with water and dried. Recrystallization from ethanol was carried out to obtain 0.47 g of the desired product as white feather-like crystals (m.p. 173-176° C.)
5-chloro-1-(4,6-dimethoxy-[1,3,5]triazin-2-yl)-2-methylbenzimidazole (Compound Number I-215)
[0146] 2-Nitro-4-chloro-N-(4,6-dimethoxy-[1,3,5]triazin-2-yl)aniline (0.5 g) and iron powder (0.3 g) were dissolved in acetic acid (10 ml) and acetic anhydride (5 ml), followed by reflux for 4 hours. The reaction mixture was cooled to room temperature, followed by filtration. The filtrate was concentrated under reduced pressure, water was added to the residue, and the crystals were collected by filtration, washed with water and dried. Recrystallization from ethanol was carried out to obtain 0.39 g of the desired product as white feather-like crystals (m.p. 173-176° C.)
2-amino-5-chloro-1-(4,6-dimethoxy-[1,3,5]triazin-2-yl)benzimidazole (Compound Number I-368)
[0147] 4-Chloro-N′-(4,6-dimethoxy-[1,3,5]triazin-2-yl)benzene-1,2-diamine (1.5 g) was dissolved in ethanol (50 ml), and cyanogen bromide (0.6 g) was added thereto at room temperature, followed by stirring at 60° C. for 1 hour. Water was added, and the crystals were collected by filtration, washed with water and dried to obtain 1.2 g of the desired product as a pink powder (m.p. 293-296° C.)
2,5-dichloro-1-(4,6-dimethoxy-[1,3,5]triazin-2-yl)benzimidazole (Compound Number I-277)
[0148] 2-Amino-5-chloro-1-(4,6-dimethoxy-[1,3,5]triazin-2-yl)benzimidazole (1.1 g) and copper(II)chloride (0.6 g) were suspended in acetonitrile (50 ml), and tert-butyl nitrite (0.5 g) was added thereto at room temperature, followed by reflux for 30 minutes. Water was added, followed by extraction with ethyl acetate, washing with a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 0.5 g of the desired product as white feather-like crystals (m.p. 146-149° C.).
1-(4,6-dimethoxy-[1,3,5]triazin-2-yl)-5-methyl-2-trifluoromethylbenzimidazole (Compound Number I-312)
[0149] 2-(4,6-dimethoxy-[1,3,5]triazin-2-yl)amino-5-methyltrifluoroacetic anilide (1.0 g) and para-toluenesulfonic acid (0.05 g) were dissolved in chlorobenzene (30 ml), followed by reflux for 5 hours. Water and ethyl acetate were added, and the organic layer was washed with a saturated sodium hydrogencarbonate solution and a saturated sodium chloride aqueous solution and dried over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 0.23 g of the desired product as a white powder (m.p. 137-140° C.).
[0150] Now, 1H-NMR(CDCl3/TMS, δ (ppm)) data of some among examples of the compounds of the present invention, will be shown below.
66TABLE 66
|
|
Compound
No.1H-NMR δ(ppm), solvent CDCl3
|
I-302.99(6H, s); 4.03(6H, s); 5.99(1H, s); 7.03-7.09(1H, m); 7.17-7.22(1H, m);
7.48-7.51(1H, m); 7.84-7.85(1H, m); 8.01(1H, s)
I-343.64(6H, s); 5.92(1H, s); 7.42-7.36(5H, m); 7.56-7.60(2H, m);
7.58-7.88(1H, m); 8.20-8.23(1H, m)
I-8401.41(6H, d, J=6.3Hz); 2.52(3H, s); 2.98(3H, s); 5.39-5.47(1H, m);
6.46(1H, s); 7.26-7.33(2H, m); 7.69-7.72(1H, m); 8.25-8.28(1H, m)
I-8721.01(3H, t, J=7.5Hz); 1.49-1.57(2H, m); 1.80-1.87(2H, m); 2.51(3H, s);
4.50(2H, t, J=6.57Hz); 6.45(1H, s); 7.33-7.43(2H, m); 7.82-7.85(1H, m);
8.55-8.59(1H, m); 9.05(1H, s)
I-9061.66-2.11(8H, m); 2.45(3H, s); 5.51-5.56(1H, m); 6.36(1H, s);
7.28-7.41(2H, m); 7.81-7.83(1H, m); 8.45-8.52(1H, m); 9.05(1H, s)
I-9071.65-2.04(8H, m); 2.51(3H, s); 3.98(3H, s); 5.51-5.55(1H, m); 6.46(1H, s);
7.26-7.34(2H, m); 7.68-7.73(1H, m); 8.25-8.31(1H, m)
I-9591.03(3H, t, J=7.41Hz); 1.81-1.89(2H, m); 2.76(2H, t, J=7.14Hz);
3.00(3H, s); 4.08(3H, s); 6.51(1H, s); 7.27-7.33(2H, m); 7.70-7.73(1H, m);
8.28-8.34(1H, m)
I-9601.03(3H, t, J=7.29Hz); 1.81-1.89(2H, m); 2.77(2H, t, J=7.29Hz);
4.07(3H, s); 6.58(1H, s); 7.30-7.37(2H, m); 7.71-7.74(1H, m);
8.00-8.05(1H, m)
|
[0151] Now, Preparation Examples of intermediates for the synthesis of the compounds of the present invention will be shown below.
N-(4,6-dimethoxypyrimidin-2-yl)-4-methyl-2-nitroaniline (Compound Number 2-6)
[0152] N-formyl-4-methyl-2-nitroaniline (25.00 g) was dissolved in dimethylformamide (400 ml), and sodium hydride (60% purity, oily) (6.11 g) was added thereto at room temperature. After stirring for 10 minutes, 2-methylsulfonyl-4,6-dimethoxypyrimidine (30.28 g) was added at room temperature, followed by stirring for 3 hours. A 10% NaOH aqueous solution was added thereto, and the crystals were collected by filtration, washed with water and dried to obtain 37.50 g of the desired product as a yellow powder (m.p. 158-161° C.).
N′-(4,6-dimethoxypyrimidin-2-yl)-4-methylbenzene-1,2-diamine (Compound Number 3-6)
[0153] N-(4,6-dimethoxypyrimidin-2-yl)-4-methyl-2-nitroaniline (37.50 g) was dissolved in ethyl acetate (600 ml), and 10% palladium carbon (3.75 g) was added thereto. Stirring was carried out at room temperature under normal pressure in an atmosphere of hydrogen for 4 hours, followed by filtration. The solvent of the filtrate was distilled off to obtain 32.70 g of the desired product as a white powder (m.p. 128-129° C.)
2-(4,6-dimethoxypyrimidin-2-yl)amino-5-methyltrifluoroacetic anilide (Compound Number 1-196)
[0154] N′-(4,6-dimethoxypyrimidin-2-yl)-4-methylbenzene-1,2-diamine (0.80 g) was dissolved in pyridine (10 ml), and trifluoroacetic anhydride (0.97 g) was added thereto under cooling with ice salt. After stirring for 1 hour, diluted hydrochloric acid was added thereto, followed by extraction with ethyl acetate, washing with diluted hydrochloric acid and a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 0.88 g of the desired product as a white powder (m.p. 144-147° C.).
N-(4,6-dimethoxy-[1,3,5]triazin-2-yl)-4-methyl-2-nitroaniline (Compound Number 2-56)
[0155] N-formyl-4-methyl-2-nitroaniline (7.2 g) was dissolved in tetrahydrofuran (50 ml), and sodium hydride (60% purity, oily) (2.0 g) was added thereto at room temperature. After stirring for 10 minutes, 2-chloro-4,6-dimethoxy-[1,3,5]triazine (7.0 g) was added at room temperature, followed by stirring for 3 hours. A 10% aqueous sodium hydroxide solution was added thereto, and the crystals were collected by filtration, washed with water and dried to obtain 10.0 g of the desired product as a yellow powder (m.p. 189-191° C.)
N′-(4,6-dimethoxy-[1,3,5]triazin-2-yl)-4-methylbenzene-1,2-diamine (Compound Number 3-56)
[0156] N-(4,6-dimethoxy-[1,3,5]triazin-2-yl)-4-methyl-2-nitroaniline (10 g) was dissolved in ethyl acetate (50 ml) and water (50 ml), and 10 g of iron power and acetic acid (2 ml) were added thereto, followed by reflux for 2 hours. Insoluble matters were removed by filtration, and the ethyl acetate layer was washed with a saturated sodium chloride aqueous solution and dried over anhydrous magnesium sulfate. The solvent was distilled off to obtain 8.8 g of the desired product as a white powder (m.p. 180-183° C.).
2-(4,6-dimethoxy-[1,3,5]triazin-2-yl)amino-5-methyltrifluoroacetic anilide (Compound Number 1-210)
[0157] N′-(4,6-dimethoxy-[1,3,5]triazin-2-yl)-4-methylbenzene-1,2-diamine (1.0 g) was dissolved in pyridine (50 ml), and trifluoroacetic anhydride (0.8 g) was added thereto under cooling with ice salt. After stirring for 1 hour, diluted hydrochloric acid was added thereto, followed by extraction with ethyl acetate, washing with diluted hydrochloric acid and a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was purified by silica gel column chromatography to obtain 1.3 g of the desired product as a white powder (m.p. 195-198° C.).
4-chloro-N-(4,6-dimethoxy-[1,3,5]triazin-2-yl)-2-nitroaniline (Compound Number 2-53)
[0158] 4-Chloro-2-nitroaniline (5.0 g) and sodium hydrogencarbonate (3.6 g) were dissolved in tetrahydrofuran (50 ml), and cyanuric chloride (8.0 g) was added thereto, followed by stirring for 8 hours. To the reaction solution, 28% sodium methylate (11.2 g) was added, followed by reflux for 1 hour. Water was added thereto, followed by extraction with ethyl acetate, washing with a saturated sodium chloride aqueous solution and drying over anhydrous magnesium sulfate. The solvent was distilled off, and the residue was subjected to recrystallization from ethanol to obtain 6.3 of the desired product as a yellow powder (m.p. 206-208° C.).
[0159] The agricultural/horticultural fungicides of the present invention contain triazinylbenzimidazole derivatives represented by the general formula [I] as the active ingredients. When the compounds of the present invention are used for agricultural/horticultural fungicides, the active ingredient can be used in appropriate formulations depending on the purpose. The active ingredient is usually diluted with an inert liquid or solid carrier and is used in an appropriate dosage form such as a dust, a wettable powder, an emulsifiable concentrate or a granule by blending it with a surfactant and other ingredients, depending on its use.
[0160] Preferable examples of carriers include solid carriers such as talc, bentonite, clay, kaolin, diatomaceous earth, white carbon, vermiculite, slaked lime, silica sand, ammonium sulfate and urea and liquid carriers such as isopropyl alcohol, xylene, cyclohexanone and methylnaphthalene. Examples of surfactants and dispersants include dinaphthylmethanesulfonates, alcohol-sulfuric acid ester salts, alkylarylsulfonates, lignin sulfonate, polyoxyethylene glycol ether, polyoxyethylene alkyl aryl ethers and polyoxyethylene sorbitan monoalkylate. Examples of adjuvants include carboxymethyl cellulose and the like. These formulations are applied after diluted to appropriate concentrations or directly.
[0161] The agricultural/horticultural fungicides of the present invention can be used for foliage treatment, soil treatment or submerged treatment. The blending proportion of the active ingredient is suitably selected depending on the case. However, the preferable proportion is from 0.1 to 20% (by weight) in the cases of a dust or a granule, and from 5 to 80% (by weight) in the cases of an emulsifiable concentrate or a wettable powder.
[0162] The dose of the agricultural/horticultural fungicides of the present invention depends on the type of the compound to be used, the disease to be controlled, the tendency of disease development, the degrees of the damage, the environmental conditions and the type of the formulation to be used. For example, for direct use as a dust or a granule, the dose of the active ingredient is selected suitably within a range of from 0.1 g to 5 kg, preferably from 1 g to 1 kg, per 10 are. For use in a liquid state as an emulsifiable concentrate or a wettable powder, the dose is selected suitably within a range of from 0.1 ppm to 10,000 ppm, preferably from 1 to 3,000 ppm.
[0163] The compounds of the present invention in the above formulations can control plant diseases caused by Oomycetes, Ascomycetes, Deuteromycetes and Basidiomycetes. Specific but non-restrictive examples of microorganisms are given below. Pseudoperonospora genus such as Pseudoperonospora cubensis, Erysiphe genus such as Erysiphe graminis, Venturia genus such as Venturia inaequalis, Pyricularia genus such as Pyricularia oryzae, Botrytis genus such as Botrytis cinerea, Rhizoctonia genus such as Rhizoctonia solani and Puccinia genus such as Puccinia recondita.
[0164] The compounds of the present invention can be used in combination with insecticides, other fungicides, herbicides, plant growth regulators or fertilizers, as the case requires. Now, typical formulations of the agricultural/horticultural fungicides of the present invention will be described with reference to Formulation Examples. Hereinafter, “%” means “% by weight”.
Dust
[0165] b 2% of Compound (I-45), 5% of diatomaceous earth and 93% of clay were uniformly mixed and pulverized to give a dust.
Wettable Powder
[0166] 50% of Compound (I-170), 45% of diatomaceous earth, 2% of sodium dinaphthylmethanedisulfonate and 3% of sodium lignin sulfonate were uniformly mixed and pulverized to give a wettable powder.
Emulsifiable Concentrate
[0167] 30% of Compound (I-309), 20% of cyclohexanone, 11% of polyoxyethylene alkyl aryl ether, 4% of calcium alkylbenzenesulfonate and 35% of methylnaphthalene were uniformly dissolved to give an emulsifiable concentrate.
Granule
[0168] 5% of Compound (I-121), 2% of the sodium salt of the lauryl alcohol sulfuric ester, 5% of sodium lignin sulfonate, 2% of carboxymethyl cellulose and 86% of clay were uniformly mixed and pulverized. The resulting mixture was kneaded with 20% of water, granulated to 14 to 32 mesh by means of an extrusion granulator and dried to give a granule.
[0169] Now, the effects of the agricultural/horticultural fungicides of the present invention will be described with reference to specific Test Example.
Test for Preventive Effect on Wheat Powdery Mildew
[0170] 9 Wheat seeds (variety: Norin-61-go) were sown in each 9 cm×9 cm polyvinyl chloride pot, grown in a greenhouse for 8 days, then treated with 10 ml per pot of aqueous solutions of wettable powders prepared in accordance with Formulation Example 2, at a concentration of 500 ppm in terms of the active ingredients and dried in the air. Then, the seedlings were inoculated with Erysiphe graminis spores by sprinkle over the plant and placed in a greenhouse of from 20 to 25° C. 10 days after the inoculation, the total diseases area of the first leaves in each pot was observed and evaluated on the basis of the standards shown in Table 67. The results are shown in Tables 68 and 69.
67TABLE 67
|
|
Evaluation
|
ANo diseased area
BDiseased area of less than 25%
CDiseased area of at least 25% but less than 50%
DDiseased area of at least 50%
|
[0171]
68
TABLE 68
|
|
|
Biological
|
Compound
effective-
|
No.
ness
|
|
I-1
A
|
I-2
A
|
I-3
A
|
I-6
B
|
I-7
A
|
I-10
B
|
I-22
A
|
I-23
A
|
I-25
A
|
I-26
A
|
I-27
B
|
I-29
B
|
I-30
B
|
I-35
B
|
I-38
B
|
I-40
B
|
I-41
A
|
I-45
A
|
I-66
A
|
I-82
A
|
I-83
B
|
I-84
A
|
I-85
A
|
I-87
A
|
I-88
B
|
I-91
B
|
I-111
B
|
I-112
B
|
I-113
B
|
I-114
B
|
I-116
B
|
I-122
B
|
I-130
A
|
I-131
A
|
I-132
A
|
I-133
A
|
I-134
A
|
I-135
A
|
I-136
B
|
I-141
A
|
I-175
A
|
I-176
A
|
I-181
B
|
I-183
B
|
I-184
A
|
I-185
A
|
I-186
A
|
I-188
A
|
I-189
A
|
I-192
B
|
I-195
B
|
I-199
B
|
I-200
A
|
I-201
A
|
I-202
B
|
I-203
B
|
I-204
A
|
I-208
B
|
I-209
B
|
I-212
B
|
I-214
A
|
I-215
A
|
I-216
A
|
I-217
A
|
I-218
A
|
I-219
A
|
I-220
B
|
I-221
B
|
I-222
B
|
I-225
A
|
I-226
A
|
I-229
A
|
I-232
B
|
I-234
A
|
I-235
A
|
I-239
A
|
I-242
A
|
I-250
B
|
I-251
A
|
I-255
A
|
I-256
A
|
I-258
A
|
I-259
A
|
I-260
A
|
I-261
B
|
I-263
A
|
I-271
A
|
I-272
A
|
I-277
B
|
I-279
A
|
I-295
A
|
I-296
A
|
I-298
A
|
I-299
A
|
I-300
A
|
I-301
A
|
I-307
A
|
I-309
A
|
I-310
A
|
I-311
A
|
I-312
A
|
I-313
A
|
I-314
A
|
I-315
B
|
I-316
B
|
I-318
A
|
I-321
A
|
I-327
A
|
I-332
B
|
I-333
A
|
I-334
A
|
I-335
A
|
I-336
A
|
I-346
A
|
I-358
A
|
I-359
A
|
I-360
B
|
I-362
A
|
I-364
A
|
I-366
A
|
I-368
B
|
I-369
B
|
I-375
A
|
I-376
B
|
I-377
A
|
I-378
A
|
I-379
A
|
I-380
A
|
I-381
A
|
I-388
A
|
I-389
B
|
I-394
A
|
I-400
A
|
I-404
B
|
I-405
A
|
I-406
A
|
I-423
A
|
I-424
A
|
I-438
A
|
I-457
B
|
I-458
A
|
I-461
A
|
I-462
B
|
I-465
B
|
|
[0172]
69
TABLE 69
|
|
|
Biological
|
Compound
effective-
|
No.
ness
|
|
I-479
A
|
I-480
A
|
I-482
A
|
I-483
A
|
I-486
A
|
I-490
A
|
I-498
A
|
I-499
A
|
I-501
A
|
I-502
A
|
I-503
A
|
I-507
A
|
I-508
B
|
I-510
A
|
I-511
A
|
I-514
A
|
I-515
A
|
I-516
A
|
I-530
A
|
I-531
A
|
I-534
A
|
I-543
A
|
I-544
A
|
I-545
A
|
I-546
A
|
I-550
A
|
I-573
B
|
I-580
A
|
I-592
A
|
I-595
B
|
I-601
A
|
I-667
B
|
I-669
B
|
I-670
B
|
I-671
B
|
I-672
B
|
I-675
B
|
I-682
A
|
I-683
A
|
I-690
A
|
I-692
B
|
I-693
A
|
I-694
B
|
I-695
A
|
I-704
B
|
I-705
A
|
I-726
B
|
I-731
B
|
I-752
A
|
I-758
A
|
I-762
A
|
I-767
B
|
I-768
A
|
I-769
A
|
I-771
A
|
I-772
A
|
I-775
A
|
I-804
A
|
I-805
B
|
I-806
B
|
I-809
B
|
I-818
B
|
I-831
B
|
I-839
A
|
I-840
B
|
I-872
B
|
I-883
A
|
I-885
B
|
I-894
B
|
I-895
B
|
I-903
B
|
I-904
B
|
I-915
A
|
I-958
B
|
I-959
A
|
I-960
A
|
I-962
A
|
I-964
B
|
I-965
A
|
I-967
A
|
I-999
A
|
I-1004
A
|
I-1019
A
|
I-1022
A
|
I-1043
A
|
I-1046
A
|
I-1048
A
|
I-1058
A
|
I-1059
A
|
I-1064
B
|
I-1071
A
|
I-1079
B
|
I-1082
B
|
I-1085
A
|
I-1086
B
|
I-1087
A
|
I-1088
A
|
I-1090
B
|
I-1093
A
|
I-1094
A
|
I-1095
A
|
I-1096
A
|
I-1098
A
|
I-1103
B
|
I-1104
B
|
I-1106
B
|
I-1123
B
|
I-1147
B
|
|
[0173] The agricultural/horticultural fungicides of the present invention have a broad disease control spectrum, and have an excellent effect particularly on wheat powdery mildew. Further, they have high controlling effects on cucumber downy mildew, apple scab, rice blast, cucumber gray mold, rice sheath blight and wheat brown leaf rust, and are excellent in residual effectiveness and rain-fastness without damaging crops, and thus they are useful as agricultural/horticultural fungicides.
Claims
- 1. (Currently amended) A pyrimidinylbenzimidazole or triazinylbenzimidazole derivative compound represented by the general formula [I]:
- 2-6. (Cancelled).
- 7. (Currently amended) An anilinopyrimidine derivative compound represented by the general formula [XVII]:
- 8. (Currently amended) An agricultural/horticultural fungicide containing the pyrimidinylbenzimidazole or triazinylbenzimidazole derivative compound as defined in claim 1, 2, 3, 4, or 5, as the active ingredient.
- 9. (New) The pyrimidinylbenzimidazole compound according to claim 1, wherein each of R1 and R2 which are independent of each other, is a hydrogen atom, a halogen atom, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C3-C6) cycloalkyl group, a (C1-C4) haloalkyl group, a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C3-C6) cycloalkoxy group, a (C1-C4) haloalkoxy group, a cyano (C1-C4) alkyloxy group, a (C1-C4) alkoxy (C1-C4) alkyloxy group, a (C3-C6) cycloalkyl (C1-C4) alkoxy group, a benzyloxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C6) alkylthio group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) alkylcarbonyl group, a formyl group, a phenyl group, a cyano group or a (C1-C6) alkylsulfonyl group, R3 is a hydrogen atom, a (C1-C6) alkyl group, a (C1-C6) alkoxy group or a halogen atom, X is a hydrogen atom, a halogen atom, a nitro group, a (C1-C6) alkyl group, a (C2-C6) alkynyl group, a (C3-C6) cycloalkyl group, a benzyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C1-C6) alkylthio group, a (C1-C6) alkylsulfonyl group, a phenoxy group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) haloalkyl group, a (C1-C4) haloalkoxy group, a (C1-C4) alkylcarbonyl group, a (C1-C4) alkoxycarbonyl group, an amino group, a mono (C1-C4) alkylamino group, a di(C1-C4) alkylamino group, an anilino group or a phenyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], Y is a halogen atom, a nitro group, a cyano group, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C1-C4) haloalkoxy group, a (C1-C6) alkylthio group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) haloalkyl group, a (C1-C4) alkylcarbonyl group, a (C1-C4) alkoxycarbonyl group, a benzoyl group, an amino group, a mono (C1-C4) alkylamino group, a di(C1-C4) alkylamino group, a phenyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group]]or a phenoxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], and n is 0 or an integer of from 1 to 3.
- 10. (New) An agricultural/horticultural fungicide containing the pyrimidinylbenzimidazole compound as defined in claim 9, as the active ingredient.
- 7. An agricultural/horticultural fungicide containing the pyrimidinylbenzimidazole or triazinylbenzimidazole derivative as defined in claim 1, 2, 3, 4 or 5, as the active ingredient. is a hydrogen atom, a (C1-C6) alkyl group, a (C1-C6) alkoxy group or a halogen atom, X is a hydrogen atom, a halogen atom, a nitro group, a cyano group, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C3-C6) cycloalkyl group, a benzyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C1-C6) alkylthio group, a (C1-C6) alkylsulfonyl group, a phenoxy group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) haloalkyl group, a (C1-C4) haloalkoxy group, a (C1-C4) alkylcarbonyl group, a (C1-C4) alkoxycarbonyl group, an amino group, a mono(C1-C4) alkylamino group, a di(C1-C4) alkylamino group, an anilino group or a phenyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], Y is a halogen atom, a nitro group, a cyano group, a (C1-C6) alkyl group, a (C2-C6) alkenyl group, a (C2-C6) alkynyl group, a (C1-C6) alkoxy group, a (C2-C6) alkenyloxy group, a (C2-C6) alkynyloxy group, a (C1-C4) haloalkoxy group, a (C1-C6) alkylthio group, a (C1-C4) alkoxy (C1-C4) alkyl group, a (C1-C4) haloalkyl group, a (C1-C4) alkylcarbonyl group, a (C1-C4) alkoxycarbonyl group, a benzoyl group, an amino group, a mono(C1-C4) alkylamino group, a di(C1-C4) alkylamino group, a phenyl group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group] or a phenoxy group [said group may be substituted by a halogen atom, a (C1-C4) alkyl group or a (C1-C4) alkoxy group], and n is 0 or an integer of from 1 to 3}.
Priority Claims (2)
Number |
Date |
Country |
Kind |
10/343614 |
Nov 1998 |
JP |
|
11/39566 |
Feb 1999 |
JP |
|
Divisions (1)
|
Number |
Date |
Country |
Parent |
09830578 |
May 2001 |
US |
Child |
10383693 |
Mar 2003 |
US |