Crystallization solutions

Abstract

In one aspect, the present invention provides sets of crystallization solutions that each comprise a crystallization solution set selected from the group of crystallization solution sets consisting of Crystallization Solution Set 1, Crystallization Solution Set 2, Crystallization Solution Set 3, Crystallization Solution Set 4 and Crystallization Solution Set 5. In another aspect, the present invention provides kits that each comprise at least one crystallization plate and a Crystallization Solution Set of the invention.

Description

FIELD OF THE INVENTION

The present invention relates to solutions that are useful for crystallizing molecules, especially macromolecules such as proteins.

BACKGROUND OF THE INVENTION

Macromolecular X-ray crystallography is an essential tool in modern drug discovery and molecular biology. Using X-ray crystallographic techniques, the three-dimensional structures of biological macromolecules, such as proteins, nucleic acids, and their various complexes, can be determined at practically atomic-level resolution from X-ray diffraction data.

One of the first and most important steps in the X-ray crystal structure determination of a target macromolecule is to grow large, well-diffracting crystals of the macromolecule. As the techniques for collecting and analyzing X-ray diffraction data have become more rapid and automated, crystal growth has become a rate-limiting step in the structure determination process.

Vapor diffusion is the most widely used technique for crystallization in modem macromolecular X-ray crystallography. In this technique, a small volume of the macromolecule sample is mixed with an approximately equal volume of a crystallization solution. The resulting drop of liquid (containing macromolecule and dilute crystallization solution) is sealed in a chamber with a much larger reservoir volume of the crystallization solution. The drop is kept separate from the reservoir of crystallization solvent either by hanging the drop from a glass cover slip or by sitting the drop on a pedestal above the level of the solvent in the reservoir. Over time, the crystallization drop and the reservoir solutions equilibrate via vapor diffusion of volatile chemical species. Supersaturating concentrations of the macromolecule are achieved, resulting in crystallization of the macromolecule sample in the drop.

Lipidic cubic phase (LCP) is a relatively new technique which has been successful in crystallizing integral membrane proteins. Typically, membrane proteins are very hydrophobic, and tend to aggregate amorphously instead of forming well-ordered three-dimensional crystals. In the LCP technique, the protein samples are mixed with a lipid to form a gel-like emulsion of protein and lipid. The lipid in this emulsion forms a cubic, three-dimensional, lattice in which the hydrophobic membrane proteins can form three-dimensional crystals. To set up LCP crystallizations, a portion of LCP emulsion, containing the protein and lipid, is dispensed into a reservoir of crystallization solution. The LCP emulsion must remain as a distinct, separate, phase from the aqueous crystallization solution during the crystallization experiment. Consequently, crystallization solutions used in LCP experiments should not dissolve the LCP emulsion of protein and lipid.

The process of growing biological macromolecule crystals remains a highly empirical process. Macromolecular crystallization is dependent on a host of experimental parameters, including; pH, temperature, the concentration of salts in the crystallization drop, the concentration of the macromolecule to be crystallized, and the concentration of the precipitating agent (of which there are hundreds). In particular, the choice of solute conditions in which to grow crystals continues to be a matter for empirical determination. Consequently, the ability to rapidly and easily generate many crystallization trials is important in determining the ideal conditions for crystallization. Thus, there is a need for sets of preformulated crystallization solutions that can be used to rapidly and easily generate many crystallization trials. More specifically, there is a need for sets of crystallization solutions that can be used to generate numerous LCP crystallization trials.

SUMMARY OF THE INVENTION

In one aspect, the present invention provides sets of crystallization solutions useful, for example, for crystallizing molecules, such as proteins and other macromolecules. The crystallization solution sets are identified herein as Crystallization Solution Set 1 , Crystallization Solution Set 2 , Crystallization Solution Set 3 , Crystallization Solution Set 4 , and Crystallization Solution Set 5 . The composition of Crystallization Solution Sets 1 - 5 are set forth in Tables 1-5 herein.

Thus, in one aspect, the present invention provides sets of crystallization solutions that each comprise a crystallization solution set selected from the group of crystallization solution sets consisting of Crystallization Solution Set 1 , Crystallization Solution Set 2 , Crystallization Solution Set 3 , Crystallization Solution Set 4 , and Crystallization Solution Set 5 .

In another aspect, the present invention provides kits that each comprise at least one crystallization plate and a set of crystallization solutions comprising a set of crystallization solutions selected from the group of crystallization solutions sets consisting of Crystallization Solution Set 1 , Crystallization Solution Set 2 , Crystallization Solution Set 3 , Crystallization Solution Set 4 , and Crystallization Solution Set 5 . In some embodiments of the kits of the invention, the crystallization solutions of the Crystallization Solution Set(s) are disposed within the reservoirs of the crystallization plate(s). The presently preferred crystallization plates for inclusion in the kits of the invention are disclosed in U.S. patent application Ser. No. 09/150,629 (now U.S. Pat. No. 6,039,804), incorporated herein by reference.

Thus, the present invention provides Crystallization Solution Sets and kits that permit a large number of crystallization conditions to be simultaneously tested in order to identify crystallization conditions under which a molecule, especially a biological macromolecule, such as a protein, can be crystallized. The crystallization solutions of the solution sets of the invention can be used in LCP crystallization experiments because they do not dissolve the LCP emulsion of protein and lipid.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing aspects and many of the attendant advantages of this invention will become more readily appreciated as the same become better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:

FIG. 1 is a three-dimensional view of a presently preferred crystallization plate useful for inclusion in a kit of the present invention.

FIG. 2 is a view of the upper surface of a presently preferred crystallization plate useful for inclusion in a kit of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

In one aspect, the present invention provides sets of crystallization solutions, each crystallization solution set comprising a crystallization solution set selected from the group of crystallization solution sets consisting of Crystallization Solution Set 1 , Crystallization Solution Set 2 , Crystallization Solution Set 3 , Crystallization Solution Set 4 , and Crystallization Solution Set 5 . The compositions of the individual solutions that constitute Crystallization Solution Sets 1 - 5 are set forth in Tables 1-5.

The following abbreviations are used: CAPS, 3-(cyclohexylamino)-1-propanesulfonic acid; CHES, 2-(N-cyclohexylamino)ethanesulfonic acid; EG, ethylene glycol; HEPES, N-(2-hydroxyethyl)piperazine-N′-(2-ethanesulfonic acid); MES, 2-(N-morpholino)ethanesulfonic acid; MME, monomethyl ether; NaMal, sodium malonate; Ac, acetate; PEG, polyethylene glycol; Tris, tris(hydroxymethyl)aminomethane.

TABLE 1
Crystallization Solution Set 1
Solution	Compound Buffer	Precipitant	Salt
1	100.000 mM HEPES/NaOH pH:	10.000% v/v	200.000 mM sodium
	7.5	isopropanol	chloride
2	100.000 mM Na 3 citrate/citric	20.000% w/v PEG-
	acid pH: 5.5	3000
3	100.000 mM MES/NaOH pH: 6.	10.000% w/v PEG-	200.000 mM ZnAc 2
		8000
4	100.000 mM Na 3 citrate/citric	2000.000 mM (NH 4 ) 2
	acid pH: 5.5	sulfate
5	100.000 mM Tris base/HCl pH:	20.000% w/v PEG-
	7.	2000 MME
6	100.000 mM MES/NaOH pH: 6.	20.000% v/v 1,4-	200.000 mM Li 2
		butanediol	sulfate
7	100.000 mM imidazole/HCl pH:	20.000% w/v PEG-	200.000 mM CaAc 2
	8.	1000
8	100.000 mM Na 2 H	2500.000 mM sodium
	phosphate/K H 2 phosphate pH:	chloride
	6.2
9	100.000 mM acetic acid/NaAc	30.000% w/v PEG-	200.000 mM Li 2
	pH: 4.5	8000	sulfate
10	100.000 mM Tris base/HCl pH:	10.000% v/v
	8.5	isopropanol
11	100.000 mM Tris base/HCl pH:	30.000% v/v PEG-400	200.000 mM MgCl 2
	8.5
12	100.000 mM imidazole/HCl pH:	2500.000 mM sodium
	8.	chloride
13	100.000 mM MES/NaOH pH: 6.	10.000% v/v	200.000 mM CaAc 2
		isopropanol
14	100.000 mM Tris base/HCl pH:	15.000% v/v EtOH
	7.
15	100.000 mM acetic acid/NaAc	30.000% v/v PEG-400	200.000 mM CaAc 2
	pH: 4.5
16	100.000 mM acetic acid/NaAc	20.000% w/v PEG-	200.000 mM ZnAc 2
	pH: 4.5	1000
17	100.000 mM acetic acid/NaAc	10.000% w/v PEG-	200.000 mM ZnAc 2
	pH: 4.5	3000
18	100.000 mM Na 2 H	10.000% w/v PEG-	200.000 mM sodium
	phosphate/K H 2 phosphate pH:	8000	chloride
	6.2
19	100.000 mM Tris base/HCl pH:	1000.000 mM (NH 4 ) 2
	8.5	H phosphate
20	100.000 mM Na cacodylate/HCl	10.000% v/v	200.000 mM ZnAc 2
	pH: 6.5	isopropanol
21	100.000 mM Na cacodylate/HCl	30.000% v/v PEG-400	200.000 mM Li 2
	pH: 6.5		sulfate
22	100.000 mM Na 3 citrate/citric	15.000% v/v EtOH	200.000 mM Li 2
	acid pH: 5.5		sulfate
23	100.000 mM HEPES/NaOH pH:	1260.000 mM (NH 4 ) 2
	7.5	sulfate
24	100.000 mM Tris base/HCl pH:	2500.000 mM sodium	200.000 mM MgCl 2
	7.	chloride
25	100.000 mM MES/NaOH pH: 6.	15.000% v/v EtOH	200.000 mM ZnAc 2
26	100.000 mM imidazole/HCl pH:	10.000% v/v
	8.	isopropanol
27	100.000 mM HEPES/NaOH pH:	15.000% v/v EtOH	200.000 mM MgCl 2
	7.5
28	100.000 mM Na cacodylate/HCl	10.000% w/v PEG-	200.000 mM MgCl 2
	pH: 6.5	3000
29	100.000 mM MES/NaOH pH: 6.	20.000% w/v PEG-	200.000 mM CaAc 2
		8000
30	100.000 mM CHES/NaOH pH:	1260.000 mM (NH 4 ) 2	200.000 mM sodium
	9.5	sulfate	chloride
31	100.000 mM imidazole/HCl pH:	20.000% v/v 1,4-	200.000 mM ZnAc 2
	8.	butanediol
32	100.000 mM Tris base/HCl pH:	1000.000 mM Na 3	200.000 mM sodium
	7.	citrate	chloride
33	100.000 mM HEPES/NaOH pH:	30.000% v/v PEG-400	200.000 mM sodium
	7.5		chloride
34	100.000 mM Tris base/HCl pH:	10.000% w/v PEG-	200.000 mM MgCl 2
	7.	8000
35	100.000 mM Na cacodylate/HCl	20.000% w/v PEG-	200.000 mM MgCl 2
	pH: 6.5	1000
36	100.000 mM imidazole/HCl pH:	2500.000 mM sodium	200.000 mM ZnAc 2
	8.	chloride
37	100.000 mM Na 2 H	40.000% v/v EG
	phosphate/K H 2 phosphate pH:
	6.2
38	100.000 mM Tris base/HCl pH:	30.000% v/v PEG-200	200.000 mM (NH 4 ) 2
	8.5		H phosphate
39	100.000 mM HEPES/NaOH pH:	10.000% v/v glycerol	50.000 mM Li 2 sulfate
	7.5	30.000% v/v PEG-600
40	100.000 mM HEPES/NaOH pH:	40.000% v/v EG
	7.5	5.000% w/v PEG-3000
41	100.00 mM Tris base/HCl pH:	40.000% v/v EG
	7.
42	100.00 mM Tris base/HCl pH:	50.000% v/v EG	200.000 mM MgCl 2
	8.5
43	100.00 mM Tris base/HCl pH:	5.000% w/v PEG-8000
	8.5	10.000% v/v glycerol
		20.000% v/v PEG-300
44	100.000 mM acetic acid/NaAc	40.000% v/v PEG-400
	pH: 4.5
45	100.000 mM Tris base/HCl pH:	10.000% v/v glycerol	500.000 mM (NH 4 ) 2
	7.	30.000% v/v PEG-600	sulfate
46	100.000 mM HEPES/NaOH pH:	50.000% v/v EG	200.000 mM Li 2
	7.5		sulfate
47	100.000 mM acetic acid/NaAc	30.000% v/v PEG-200	100.000 mM sodium
	pH: 4.5		chloride
48	100.000 mM CAPS/NaOH pH:	30.000% v/v PEG-200	200.000 mM (NH 4 ) 2
	10.5		sulfate

TABLE 2
Crystallization Solution Set 2
Solution	Compound Buffer	Precipitant	Salt
1	100.000 mM Tris base/HCl pH: 7.	10.000% v/v	200.000 mM ZnAc 2
		isopropanol
2	100.000 mM acetic acid/NaAc pH:	10.000% v/v	200.000 mM CaAc 2
	4.5	isopropanol
3	100.000 mM Na 3 citrate/Na 3	10.000% v/v	200.000 mM Li 2
	citrate pH: 5.5	isopropanol	sulfate
4	100.000 mM Tris base/HCl pH: 7.	10.000% v/v	200.000 mM CaAc 2
		isopropanol
5	100.000 mM acetic acid/NaAc pH:	10.000% v/v	200.000 mM sodium
	4.5	isopropanol	chloride
6	100.000 mM Na 3 citrate/Na 3	10.000% v/v	200.000 mM MgCl 2
	citrate pH: 5.5	isopropanol
7	100.000 mM HEPES/NaOH pH:	10.000% w/v PEG-	200.000 mM sodium
	7.5	8000	chloride
8	100.000 mM MES/NaOH pH: 6.	10.000% w/v PEG-	200.000 mM ZnAc 2
		8000
9	100.000 mM Na 2 H phosphate/K	10.000% w/v PEG-	200.000 mM Li 2
	H 2 phosphate pH: 6.2	8000	sulfate
10	100.000 mM acetic acid/NaAc pH:	10.000% w/v PEG-	200.000 mM CaAc 2
	4.5	8000
11	100.000 mM Tris base/HCl pH: 8.5	10.000% w/v PEG-	200.000 mM MgCl 2
		8000
12	100.000 mM Na cacodylate/HCl	10.000% w/v PEG-	200.000 mM sodium
	pH: 6.5	8000	chloride
13	100.000 mM Na 3 citrate/citric acid	10.000% w/v PEG-	200.000 mM Li 2
	pH: 5.5	8000	sulfate
14	100.000 mM HEPES/NaOH pH:	10.000% w/v PEG-	200.000 mM MgCl 2
	7.5	8000
15	100.000 mM HEPES/NaOH pH:	20.000% w/v PEG-	200.000 mM NaCl
	7.5	2000 MME
16	100.000 mM MES/NaOH pH: 6.	20.000% w/v PEG-	200.000 mM ZnAc 2
		2000 MME
17	100.000 mM Na 2 H phosphate/K	20.000% w/v PEG-
	H 2 phosphate pH: 6.2	2000 MME
		200.00 mM Li 2
		sulfate
18	100.000 mM acetic acid/NaAc pH:	20.000% w/v PEG-	200.000 mM CaAc 2
	4.5	2000 MME
19	100.000 mM Tris base/HCl pH: 8.5	20.000% w/v PEG-	200.000 mM MgCl 2
		2000 MME
20	100.000 mM cacodylic acid/Na	20.000% w/v PEG-
	cacodylate pH: 6.5	2000 MME
		200.000 mM Li 2
		sulfate
21	100.000 mM HEPES/NaOH pH:	20.000% w/v PEG-
	7.5	2000 MME
		200.000 mM Li 2
		sulfate
22	100.000 mM Tris base/HCl pH: 8.5	20.000% v/v 1,4-
		butanediol
		200.000 mM Li 2
		sulfate
23	100.00 mM cacodylic acid/Na	20.000% v/v 1,4-	200.000 mM CaAc 2
	cacodylate pH: 6.5	butanediol
24	100.000 mM Na 3 citrate/citric acid	20.000% v/v 1,4-	200.000 mM MgCl 2
	pH: 5.5	butanediol

TABLE 3
Crystallization Solution Set 3
Solution	Compound Buffer	Precipitant	Salt
1	100.000 mM Tris base/HCl pH: 7.	20.000% v/v 1,4-	200.000 mM ZnAc 2
		butanediol
2	100.000 mM Tris base/HCl pH:	20.000% v/v 1,4-	200.000 mM MgCl 2
	8.5	butanediol
3	100.000 mM Na 3 citrate/citric acid	20.000% v/v 1,4-	200.000 mM sodium
	pH: 5.5	butanediol	chloride
4	100.000 mM HEPES/NaOH pH:	20.000% w/v PEG-	200.000 mM sodium
	7.5	1000	chloride
5	100.000 mM MES/NaOH pH: 6.	20.000% w/v PEG-	200.000 mM ZnAc 2
		1000
6	100.000 mM Tris base/HCl pH: 7.	20.000% w/v PEG-	200.000 mM Li 2
		1000	sulfate
7	100.000 mM HEPES/NaOH pH:	20.000% w/v PEG-	200.000 mM MgCl 2
	7.5	1000
8	100.000 mM MES/NaOH pH: 6.	20.000% w/v PEG-	200.000 mM sodium
		1000	chloride
9	100.000 mM HEPES/NaOH pH:	2500.000 mM sodium
	7.5	chloride
10	100.000 mM MES/NaOH pH: 6.	2500.000 mM sodium	200.000 mM ZnAc 2
		chloride
11	100.000 mM Tris base/HCl pH:	2500.000 mM sodium	200.000 mM Li 2
	8.5	chloride	sulfate
12	100.000 mM cacodylic acid/Na	2500.000 mM sodium	200.000 mM CaAc 2
	cacodylate pH: 6.5	chloride
13	100.000 mM Na 3 citrate/citric acid	2500.000 mM sodium	200.000 mM MgCl 2
	pH: 5.5	chloride
14	100.000 mM cacodylic acid/Na	2500.000 mM sodium	200.000 mM Li 2
	cacodylate pH: 6.5	chloride	sulfate
15	100.000 mM Tris base/HCl pH: 7.	30.000% v/v PEG-400	200.000 mM ZnAc 2
16	100.000 mM imidazole/HCl pH: 8.	30.000% v/v PEG-400	200.000 mM Li 2
			sulfate
17	100.000 mM Na 3 citrate/citric acid	30.000% v/v PEG-400	200.000 mM MgCl 2
	pH: 5.5
18	100.000 mM Na 3 citrate/citric acid	30.000% v/v PEG-400	200.000 mM Li 2
	pH: 5.5		sulfate
19	100.000 mM imidazole/HCl pH: 8.	30.000% v/v PEG-400	200.000 mM ZnAc 2
20	100.000 mM Tris base/HCl pH: 7.	30.000% v/v PEG-400	200.000 mM NaCl
21	100.000 mM Na 2 H phosphate/K	15.000% v/v EtOH	200.000 mM sodium
	H 2 phosphate pH: 6.2		chloride
22	100.000 mM acetic acid/NaAc pH:	15.000% v/v EtOH	200.000 mM ZnAc 2
	4.5
23	100.000 mM cacodylic acid/Na	15.000% v/v EtOH	200.000 mM CaAc 2
	cacodylate pH: 6.5
24	100.000 mM acetic acid/NaAc pH:	15.000% v/v EtOH	200.000 mM MgCl 2
	4.5

TABLE 4
Crystallization Solution Set 4
Solution	Compound Buffer	Precipitant	Salt
1	100.000 mM cacodylic acid/Na	15.000% v/v EtOH	200.000 mM sodium
	cacodylate pH: 6.5		chloride
2	100.000 mM HEPES/HEPES pH:	10.000% w/v PEG-3000	200.000 mM sodium
	7.5		chloride
3	100.000 mM MES/NaOH pH: 6.	10.000% w/v PEG-3000	200.000 mM ZnAc 2
4	100.000 mM Tris base/HCl pH:	10.000% w/v PEG-3000	200.000 mM CaAc 2
	8.5
5	100.000 mM Na 3 citrate/citric	10.000% w/v PEG-3000	200.000 mM MgCl 2
	acid pH: 5.5
6	100.000 mM Tris base/HCl pH:	10.000% w/v PEG-3000	200.000 mM Li 2
	8.5		sulfate
7	100.000 mM MES/NaOH pH: 6.	10.000% w/v PEG-3000	200.000 mM Li 2
			sulfate
8	100.000 mM HEPES/HEPES pH:	1000.000 mM (NH 4 ) 2 H	200.000 mM sodium
	7.5	phosphate	chloride
9	100.000 mM cacodylic acid/Na	1000.000 mM (NH 4 ) 2 H	200.000 mM sodium
	cacodylate pH: 6.5	phosphate	chloride
10	100.000 mM Na 2 H phosphate/K	1260.000 mM (NH 4 ) 2	200.000 mM Li 2
	H 2 phosphate pH: 6.2	sulfate	sulfate
11	100.000 mM Tris base/HCl pH:	1260.000 mM (NH 4 ) 2	200.000 mM MgCl 2
	7.	sulfate
12	100.000 mM imidazole/HCl pH:	1260.000 mM (NH 4 ) 2	200.000 mM Li 2
	8.	sulfate	sulfate
13	100.000 mM Na 3 citrate/citric	1260.000 mM (NH 4 ) 2	200.000 mM sodium
	acid pH: 5.5	sulfate	chloride
14	100.000 mM HEPES/HEPES pH:	20.000% w/v PEG-8000	200.000 mM sodium
	7.5		chloride
15	100.000 mM Tris base/HCl pH:	20.000% w/v PEG-8000	200.000 mM ZnAc 2
	7.
16	100.000 mM imidazole/HCl pH:	20.000% w/v PEG-8000	200.000 mM Li 2
	8.		sulfate
17	100.000 mM acetic acid/NaAc	20.000% w/v PEG-8000	200.000 mM MgCl 2
	pH: 4.5
18	100.000 mM cacodylic acid/Na	20.000% w/v PEG-8000	200.000 mM sodium
	cacodylate pH: 6.5		chloride
19	100.000 mM Tris base/HCl pH:	20.000% w/v PEG-8000	200.000 mM MgCl 2
	7.
20	100.000 mM HEPES/HEPES pH:	1000.000 mM Na 3	200.000 mM sodium
	7.5	citrate	chloride
21	100.000 mM MES/NaOH pH: 6.	1000.000 mM Na 3	200.000 mM ZnAc 2
		citrate
22	100.000 mM imidazole/HCl pH:	1000.000 mM Na 3	200.000 mM Li 2
	8.	citrate	sulfate
23	100.000 mM acetic acid/NaAc	1000.000 mM Na 3	200.000 mM MgCl 2
	pH: 4.5	citrate
24	100.000 mM Tris base/HCl pH:	1000.000 mM Na 3	200.000 mM Li 2
	8.5	citrate	sulfate

TABLE 5
Crystallization Solution Set 5
Solution	Compound Buffer	Precipitant	Salt
1	100.000 mM MES/NaOH pH: 6.	1000.000 mM Na 3	200.000 mM MgCl 2
		citrate
2	100.000 mM acetic acid/NaAc	10.000% v/v	200.000 mM Li 2
	pH: 4.5	isopropanol	sulfate
3	100.000 mM Na 3 citrate/citric	10.000% v/v	200.000 mM sodium
	acid pH: 5.5	isopropanol	chloride
4	100.000 mM acetic acid/NaAc	10.000% w/v PEG-	200.000 mM MgCl 2
	pH: 4.5	8000
5	100.000 mM Tris base/HCl pH:	10.000% w/v PEG-	200.000 mM sodium
	8.5	8000	chloride
6	100.000 mM acetic acid/NaAc	20.000% w/v PEG-	200.000 mM ZnAc 2
	pH: 4.5	2000 MME
7	100.000 mM Tris base/HCl pH:	20.000% w/v PEG-	200.000 mM Li 2
	8.5	2000 MME	sulfate
8	100.000 mM Tris base/HCl pH:	20.000% w/v 1,4-	200.000 mM sodium
	8.5	butanediol	chloride
9	100.000 mM cacodylic acid/Na	20.000% w/v 1,4-	200.000 mM Li 2
	cacodylate pH: 6.5	butanediol	sulfate
10	100.000 mM HEPES/NaOH pH:	20.000% w/v PEG-	200.000 mM Li 2
	7.5	1000	sulfate
11	100.000 mM MES/NaOH pH: 6.	20.000% w/v PEG-	200.000 mM MgCl 2
		1000
12	100.000 mM MES/NaOH pH: 6.	2500.00 mM sodium	200.000 mM Li 2
		chloride	sulfate
13	100.000 mM Tris base/HCl pH:	30.000% w/v PEG-	200.000 mM Li 2
	8.5	8000	sulfate
14	100.000 mM cacodylic acid/Na	30.000% w/v PEG-	200.000 mM CaAc 2
	cacodylate pH: 6.5	8000
15	100.000 mM MES/NaOH pH: 6.	30.000% w/v PEG-	200.000 mM MgCl 2
		400
16	100.000 mM Tris base/HCl pH: 7.	30.000% w/v PEG-	200.000 mM Li 2
		400	sulfate
17	100.000 mM HEPES/NaOH pH:	10.000% w/v PEG-	200.000 mM Li 2
	7.5	3000	sulfate
18	100.000 mM MES/NaOH pH: 6.	10.000% w/v PEG-	200.000 mM MgCl 2
		3000
19	100.000 mM imidazole/HCl pH:	1000.000 mM Na 3	200.000 mM MgCl 2
	8.	citrate
20	100.000 mM Tris base/HCl pH:	1000.000 mM Na 3	200.000 mM sodium
	8.5	citrate	chloride
21	100.000 mM Tris base/HCl pH: 7.	2500.000 mM NaMal
22	100.000 mM acetic acid/NaAc	2500.000 mM NaMal
	pH: 4.5
23	100.000 mM Tris base/HCl pH:	2500.000 mM NaMal
	8.5
24	100.000 mM imidazole/HCl pH:	2500.000 mM NaMal
	8.

All of the crystallization solutions are made with ultrapure ASTM Type I water, and sterile-filtered into sterile tubes. The sterile crystallization solutions should be stored at room temperature. The following stock solutions are utilized to formulate the crystallization solutions.

Acetic Acid/NaAc RH 4.5. 1 M acetic acid and 1 M sodium acetate solutions are mixed together to make a pH 4.5 acetate stock solution. A 10-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

Na Cacodylate/HCl pH 6.5. A 1 M sodium cacodylate stock solution is adjusted to pH 6.5 with concentrated (37%) HCl. A 10-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

CAPS/NaOH pH 10.5. A 1 M CAPS stock solution is adjusted to pH 10.5 with 50% (w/v) NaOH. A 10-fold dilution of this solution is used in the final crystallization solution formulations, if required.

CHES/NaOH pH 9.5. A 1 M CHES stock solution is adjusted to pH 9.5 with 50% NaOH. A 10-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

Na 3 Citrate/Citric Acid pH 5.5. 0.5 M citric acid and 0.5 M sodium citrate solutions are mixed together to make a pH 5.5 citrate stock solution. A 5-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

HEPES/NaOH pH 7.5. A 1 M HEPES stock solution is adjusted to pH 7.5 with 50% NaOH. A 10-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

Imidazole/HCl pH 8.0. A 1 M imidazole stock solution is adjusted to pH 8.0 with concentrated HCl. A 10-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

MES/NaOH pH 6.0. A 1 M MES stock solution is adjusted to pH 6.0 with concentrated HCl. A 10-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

Na 2 H Phosphate/KH 2 Phosphate pH 6.2. 0.5 M Na 2 HPO 4 and 0.5 M KH 2 PO 4 solutions are mixed together to make a pH 6.2 Na/K phosphate stock solution. A 5-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

Phosphate-citrate pH 4.2. 0.5 M Na 2 HPO 4 and 0.5 M citric acid solutions are mixed together to make a pH 4.2 phosphate-citrate stock solution. A 5-fold dilution of this stock solution is used in the final crystallization solution formulations, if required.

Tris base/HCl pH 7.0 (or pH 8.5). A 1 M Tris base stock solution is adjusted to pH 7.0 or 8.5 with concentrated HCl. 10-fold dilutions of these stock solutions are used in the final crystallization solution formulations, if required.

When using the crystallization solutions of the present invention to crystallize a molecule, the molecule should be as highly purified as possible. If the molecule to be crystallized is a protein, preferably the protein should appear greater than 97% pure as determined by silver-stained SDS-PAGE. When the molecular sample is a biological macromolecule, such as a protein, the molecular sample should be in as minimal a buffer as possible (i.e., the buffer should contain as few chemical components as possible) to help maintain the biological activity of the macromolecule, and the molecular sample should preferably be at a concentration of 5-15 mg/ml.

The crystallization solution sets of the present invention can be used in any crystallization technique, such as vapor diffusion techniques as described, for example, in Gilliland, G. L. & Davies, D. R. (1984) Methods in Enzymol . 104:370-381; McPherson, A. (1990) Eur. J. Biochem . 189:1-23 and Weber, P. C. (1991) Adv. in Prot. Chem . 41:1-36. For example, hanging drop crystallization is a vapor diffusion technique that typically utilizes crystallization plates including a plurality of reservoirs, such as those available from Hampton Research (27632 El Lazo Rd., Laguna Niguel, Calif. 92677) and ICN-Flow (3300 Hyland Ave., Costa Mesa, Calif. 92626). In an exemplary hanging drop crystallization experiment, sealant, such as petroleum jelly or vacuum grease, is applied to the rim of a crystallization plate reservoir and 0.5-1.0 ml of a single crystallization solution of the present invention is pipetted into the reservoir. 1-10 μl (depending on availability) of the macromolecule sample is pipetted onto a siliconized cover slip (plates from Hampton Research and ICN-Flow typically require 22 mm square or round cover slips) and an equal volume of the crystallization solution that is in the reservoir is added to the sample drop on the cover slip and mixed by repeatedly aspirating and dispensing the solution from the pipettor. The cover slip is inverted and sealed over the reservoir. When a crystallization solution set of the present invention is utilized, this sequence of events can be repeated for all of the crystallization solutions in the crystallization solution set.

Similarly, sitting drop crystallization is a type of vapor diffusion technique that utilizes sitting drop crystallization plates, including a plurality of reservoirs within each of which is located a pedestal that includes a sample depression within its upper end, such as those available from Charles Supper Co. (15 Tech Circle, Natick, Mass. 01760). In an exemplary sitting drop crystallization experiment utilizing the crystallization solutions of the present invention, 0.5-1.0 ml of a single crystallization solution are pipetted into a reservoir of a sitting drop crystallization plate and 1-10 μl of the sample are pipetted into the sample depression of the sitting drop pedestal. An equal volume of the crystallization solution that is in the reservoir is added to the sample drop and mixed. This procedure can be repeated, utilizing a different crystallization solution in each of the reservoirs. The reservoirs can be individually sealed with sealant and cover slips, or the entire sitting drop plate can be sealed with a single piece of clear sealing tape after application of sample to all wells has been completed.

By way of non-limiting example, other crystallization techniques that can utilize the crystallization solution sets of the present invention include sandwich drop vapor diffusion which is similar to hanging drop and sitting drop vapor diffusion, except that the crystallization drop is contacted on two sides by glass or plastic surfaces. See, e.g., A. McPherson, Eur. J. Biochem . 189:1-23 (1990). Sandwich drop crystallization plates are available from Hampton Research and ICN-Flow. In the technique of crystallization using oils, the rate of equilibration by vapor diffusion can be modulated by placing a layer of oil between the crystallization drop and the reservoir (see, e.g., Chayen, N. E. (1997) J. Appl. Cryst . 30:198-202). Alternatively, oils can be used to seal microbatch crystallization drops, in the absence of a larger reservoir of crystallization solution (see, e.g, Chayen N. E. et al. (1990) J. Appl. Cryst . 23:297-302). In the technique of capillary crystallization, layers of sample solution and crystallization solution can be deposited in a capillary 0.5-1.0 mm in diameter, either with an air space between the solutions or with a direct liquid-liquid interface. Crystallization occurs by vapor diffusion or liquid-liquid diffusion inside the capillary.

If the supply of sample permits, it is preferable to set up the crystallizations in duplicate, with one set of crystallizations placed at room temperature (typically from about 16° C. to about 25° C.), and the other one at 4° C. Regardless of the crystallization method used, the crystallization trials should preferably be stored in a place free of vibrations or mechanical shock, which could result in premature precipitation.

Typically, observations of crystallization trials are recorded every one or two days. The crystallization trials can be viewed under a stereo microscope at 10-100× magnification. If less than ten percent of the samples in the crystallization screen do not show heavy precipitate after one day, it may be desirable to increase the concentration of the sample molecule. If more than fifty percent of the samples in the crystallization screen show heavy precipitate after one day, it may be desirable to reduce the sample molecule concentration.

Crystals suitable for X-ray data collection are generally 0.1 mm or greater in their smallest dimension, and have clean, sharp edges. Viewing the crystallization trials between crossed polarizers often aids in distinguishing microcrystals from amorphous precipitate. Except for the rather unusual occurrence of a cubic space group, X-ray diffraction quality biological macromolecule crystals are birefringent (have more than one refractive index), and turn polarized light. When rotated between crossed polarizers, the intensity and/or color of light transmitted through birefringent crystals will change, with a periodicity of 90°. Amorphous precipitates will not transmit and turn polarized light.

In another aspect, the present invention provides kits comprising at least one crystallization plate and a set of crystallization solutions comprising a set of crystallization solutions selected from the group of sets of crystallization solutions consisting of Crystallization Solution Set 1 , Crystallization Solution Set 2 , Crystallization Solution Set 3 , Crystallization Solution Set 4 , and Crystallization Solution Set 5 . In some embodiments, the Crystallization Solution Sets are disposed with the reservoirs of the crystallization plate(s) which can therefore be immediately used to conduct crystallization experiments.

Any crystallization plate can be included in the kits of the present invention, including, by way of non-limiting example: Hampton Research plate models VDX, Linbro, Costar, Cryschem, Q-Plate, Q-Plate II and Crystal Clear Strips; Charles Supper Co. sitting drop plates and ICN Linbro model. The presently preferred crystallization plates are disclosed in U.S. Pat. No. 6,039,804, incorporated herein by reference.

By way of representative example, a presently preferred crystallization plate for inclusion in a kit of the present invention is shown in FIGS. 1 and 2 . With reference to FIGS. 1 and 2 , crystallization plate 10 includes a body 12 having an upper surface 14 , a lower surface 16 , a first end 18 , a second end 20 , a first side 22 and a second side 24 . Body 12 defines a plurality of crystallization units 26 . Each crystallization unit 26 includes a central reservoir 28 , four diffusion channels 30 and four drop chambers 32 . Each drop chamber 32 is connected to central reservoir 28 by one diffusion channel 30 . While the plate of FIGS. 1 and 2 is preferred, other plates or arrays of vessels may suitably be employed with the solutions of the present invention.

A kit of the present invention may optionally include, for example, water-permeable silicone oil DC200 (BDH, Gallard Schlesinger Industries, 584 Mineola Ave., Carle Place, N.Y. 11514-1744, Catalogue number #63002 4N), and/or paraffin oil (Fluka Chemical Corp., 980 South 2nd St., Ronkonkoma, N.Y. 11779-7238, catalogue number #76235) which are useful in microbatch crystallizations, and vapor diffusion crystallizations with oils.

While the preferred embodiment of the invention has been illustrated and described, it will be appreciated that various changes can be made therein without departing from the spirit and scope of the invention.

Claims

1. A set of crystallization solutions comprising a crystallization solution set selected from the group of crystallization solution sets consisting of:SolutionCompound BufferPrecipitantSalt(a) Crystallization Solution Set 1:1100.000 mM HEPES/NaOH pH:10.000% v/v200.000 mM7.5isopropanolsodiumchloride2100.000 mM Na3 citrate/citric acid20.000% w/vpH: 5.5PEG-30003100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-8000ZnAc24100.000 mM Na3 citrate/citric acid2000.000pH: 5.5mM (NH4)2sulfate5100.000 mM Tris base/HCl pH: 7.20.000% w/vPEG-2000MME6100.000 mM MES/NaOH pH: 6.20.000% v/v200.000 mM1,4-butane-Li2 sulfatediol7100.000 mM imidazole/HCl pH: 8.20.000% w/v200.000 mMPEG-1000CaAc28100.000 mM Na2 H phosphate/K2500.000H2 phosphate pH: 6.2mM sodiumchloride9100.000 mM acetic acid/NaAc pH:30.000% w/v200.000 mM4.5PEG-8000Li2 sulfate10100.000 mM Tris base/HCl pH:10.000% v/v8.5isopropanol11100.000 mM Tris base/HCl pH:30.000% v/v200.000 mM8.5PEG-400MgCl212100.000 mM imidazole/HCl pH: 8.2500.000mM sodiumchloride13100.000 mM MES/NaOH pH: 6.10.000% v/v200.000 mMisopropanolCaAc214100.000 mM Tris base/HCl pH: 7.15.000% v/vEtOH15100.000 mM acetic acid/NaAc pH:30.000% v/v200.000 mM4.5PEG-400CaAc216100.000 mM acetic acid/NaAc pH:20.000% w/v200.000 mM4.5PEG-1000ZnAc217100.000 mM acetic acid/NaAc pH:10.000% w/v200.000 mM4.5PEG-3000ZnAc218100.000 mM Na2 H phosphate/K10.000% w/v200.000 mMH2 phosphate pH: 6.2PEG-8000sodiumchloride19100.000 mM Tris base/HCl pH:1000.0008.5mM (NH4)2H phosphate20100.000 mM Na cacodylate/HCl10.000% v/v200.000 mMpH: 6.5isopropanolZnAc221100.000 mM Na cacodylate/HCl30.000% v/v200.000 mMpH: 6.5PEG-400Li2 sulfate22100.000 mM Na3 citrate/citric acid15.000% v/v200.000 mMpH: 5.5EtOHLi2 sulfate23100.000 mM HEPES/NaOH pH:1260.0007.5mM (NH4)2sulfate24100.000 mM Tris base/HCl pH: 7.2500.000200.000 mMmM sodiumMgCl2chloride25100.000 mM MES/NaOH pH: 6.15.000% v/v200.000 mMEtOHZnAc226100.000 mM imidazole/HCl pH: 8.10.000% v/visopropanol27100.000 mM HEPES/NaOH pH:15.000% v/v200.000 mM7.5EtOHMgCl228100.000 mM Na cacodylate/HCl10.000% w/v200.000 mMpH: 6.5PEG-3000MgCl229100.000 mM MES/NaOH pH: 6.20.000% w/v200.000 mMPEG-8000CaAc230100.000 mM CHES/NaOH pH:1260.000200.000 mM9.5mM (NH4)2sodiumsulfatechloride31100.000 mM imidazole/HCl pH: 8.20.000% v/v200.000 mM1,4-butane-ZnAc2diol32100.000 mM Tris base/HCl pH: 7.1000.000200.000 mMmM Na3sodiumcitratechloride33100.000 mM HEPES/NaOH pH:30.000% v/v200.000 mM7.5PEG-400sodiumchloride34100.000 mM Tris base/HCl pH: 7.10.000% w/v200.000 mMPEG-8000MgCl235100.000 mM Na cacodylate/HCl20.000% w/v200.000 mMpH: 6.5PEG-1000MgCl236100.000 mM imidazole/HCl pH: 8.2500.000200.000 mMmM sodiumZnAc2chloride37100.000 mM Na2 H phosphate/K40.000% v/vH2 phosphate pH: 6.2EG38100.000 mM Tris base/HCl pH:30.000% v/v200.000 mM8.5PEG-200(NH4)2 Hphosphate39100.000 mM HEPES/NaOH pH:10.000% v/v50.000 mM7.5glycerolLi2 sulfate30.000% v/vPEG-60040100.000 mM HEPES/NaOH pH:40.000% v/v7.5EG5.000% w/vPEG-300041100.000 mM Tris base/HCl pH: 7.40.000% v/vEG42100.000 mM Tris base/HCl pH:50.000% v/v200.000 mM8.5EGMgCl243100.000 mM Tris base/HCl pH:5.000% w/v8.5PEG-800010.000% v/vglycerol20.000% v/vPEG-30044100.000 mM acetic acid/NaAc pH:40.000% v/v4.5PEG-40045100.000 mM Tris base/HCl pH: 7.10.000% v/v500.000 mMglycerol(NH4)230.000% v/vsulfatePEG-60046100.000 mM HEPES/NaOH pH:50.000% v/v200.000 mM7.5EGLi2 sulfate47100.000 mM acetic acid/NaAc pH:30.000% v/v100.000 mM4.5PEG-200sodiumchloride48100.000 mM CAPS/NaOH pH:30.000% v/v200.000 mM10.5PEG-200(NH4)2sulfate(b) Crystallization Solution Set 2:1100.000 mM Tris base/HCl pH: 7.10.000% v/v200.000 mMisopropanolZnAc22100.000 mM acetic acid/NaAc pH:10.000% v/v200.000 mM4.5isopropanolCaAc23100.000 mM Na3 citrate/Na310.000% v/v200.000 mMcitrate pH: 5.5isopropanolLi2 sulfate4100.000 mM Tris base/HCl pH: 7.10.000% v/v200.000 mMisopropanolCaAc25100.000 mM acetic acid/NaAc pH:10.000% v/v200.000 mM4.5isopropanolsodiumchloride6100.000 mM Na3 citrate/Na310.000% v/v200.000 mMcitrate pH: 5.5isopropanolMgCl27100.000 mM HEPES/NaOH pH:10.000% w/v200.000 mM7.5PEG-8000sodiumchloride8100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-8000ZnAc29100.000 mM Na2 H phosphate/K10.000% w/v200.000 mMH2 phosphate pH: 6.2PEG-8000Li2 sulfate10100.000 mM acetic acid/NaAc pH:10.000% w/v200.000 mM4.5PEG-8000CaAc211100.000 mM Tris base/HCl pH:10.000% w/v200.000 mM8.5PEG-8000MgCl212100.000 mM Na cacodylate/HCl10.000% w/v200.000 mMpH: 6.5PEG-8000sodiumchloride13100.000 mM Na3 citrate/citric acid10.000% w/v200.000 mMpH: 5.5PEG-8000Li2 sulfate14100.000 mM HEPES/NaOH pH:10.000% w/v200.000 mM7.5PEG-8000MgCl215100.000 mM HEPES/NaOH pH:20.000% w/v200.000 mM7.5PEG-2000NaClMME16100.000 mM MES/NaOH pH: 6.20.000% w/v200.000 mMPEG-2000ZnAc2MME17100.000 mM Na2 H phosphate/K20.000% w/vH2 phosphate pH: 6.2PEG-2000MME200.000 mMLi2 sulfate18100.000 mM acetic acid/NaAc pH:20.000% w/v200.000 mM4.5PEG-2000CaAc2MME19100.000 mM Tris base/HCl pH:20.000% w/v200.000 mM8.5PEG-2000MgCl2MME20100.000 mM cacodylic acid/Na20.000% w/vcacodylate pH: 6.5PEG-2000MME200.000 mMLi2 sulfate21100.000 mM HEPES/NaOH pH:20.000% w/v7.5PEG-2000MME200.000 mMLi2 sulfate22100.000 mM Tris base/HCl pH:20.000% v/v8.51,4-butane-diol 200.000mM Li2 sul-fate23100.000 mM cacodylic acid/Na20.000% v/v200.000 mMcacodylate pH: 6.51,4-butane-CaAc2diol24100.000 mM Na3 citrate/citric acid20.000% v/v200.000 mMpH: 5.51,4-butane-MgCl2diol(c) Crystallization Solution Set 3:1100.000 mM Tris base/HCl pH: 7.20.000% v/v200.000 mM1,4-butane-ZnAc2diol2100.000 mM Tris base/HCl pH:20.000% v/v200.000 mM8.51,4-butane-MgCl2diol3100.000 mM Na3 citrate/citric acid20.000% v/v200.000 mMpH: 5.51,4-butane-sodiumdiolchloride4100.000 mM HEPES/NaOH pH:20.000% w/v200.000 mM7.5PEG-1000sodiumchloride5100.000 mM MES/NaOH pH: 620.000% w/v200.000 mMPEG-1000ZnAc26100.000 mM Tris base/HCl pH: 7.20.000% w/v200.000 mMPEG-1000Li2 sulfate7100.000 mM HEPES/NaOH pH:20.000% w/v200.000 mM7.5PEG-1000MgCl28100.000 mM MES/NaOH pH: 6.20.000% w/v200.000 mMPEG-1000sodiumchloride9100.000 mM HEPES/NaOH pH:2500.0007.5mM sodiumchloride10100.000 mM MES/NaOH pH: 6.2500.000200.000 mMmM sodiumZnAc2chloride11100.000 mM Tris base/HCl pH:2500.000200.000 mM8.5mM sodiumLi2 sulfatechloride12100.000 mM cacodylic acid/Na2500.000200.000 mMcacodylate pH: 6.5mM sodiumCaAc2chloride13100.000 mM Na3 citrate/citric acid2500.000200.000 mMpH: 5.5mM sodiumMgCl2chloride14100.000 mM cacodylic acid/Na2500.000200.000 mMcacodylate pH: 6.5mM sodiumLi2 sulfatechloride15100.000 mM Tris base/HCl pH: 7.30.000% v/v200.000 mMPEG-400ZnAc216100.000 mM imidazole/HCl pH: 8.30.000% v/v200.000 mMPEG-400Li2 sulfate17100.000 mM Na3 citrate/citric acid30.000% v/v200.000 mMpH: 5.5PEG-400MgCl218100.000 mM Na3 citrate/citric acid30.000% v/v200.000 mMpH: 5.5PEG-400Li2 sulfate19100.000 mM imidazole/HCl pH: 8.30.000% v/v200.000 mMPEG-400ZnAc220100.000 mM Tris base/HCl pH: 7.30.000% v/v200.000 mMPEG-400NaCl21100.000 mM Na2 H phosphate/K15.000% v/v200.000 mMH2 phosphate pH: 6.2EtOHsodiumchloride22100.000 mM acetic acid/NaAc pH:15.000% v/v200.000 mM4.5EtOHZnAc223100.000 mM cacodylic acid/Na15.000% v/v200.000 mMcacodylate pH: 6.5EtOHCaAc224100.000 mM acetic acid/NaAc pH:15.000% v/v200.000 mM4.5EtOHMgCl2(d) Crystallization Solution Set 4:1100.000 mM cacodylic acid/Na15.000% v/v200.000 mMcacodylate pH: 6.5EtOHsodiumchloride2100.000 mM HEPES/HEPES pH:10.000% w/v200.000 mM7.5PEG-3000sodiumchloride3100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-3000ZnAc24100.000 mM Tris base/HCl pH:10.000% w/v200.000 mM8.5PEG-3000CaAc25100.000 mM Na3 citrate/citric acid10.000% w/v200.000 mMpH: 5.5PEG-3000MgCl26100.000 mM Tris base/HCl pH:10.000% w/v200.000 mM8.5PEG-3000Li2 sulfate7100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-3000Li2 sulfate8100.000 mM HEPES/HEPES pH:1000.000200.000 mM7.5mM (NH4)2sodiumH phosphatechloride9100.000 mM cacodylic acid/Na1000.000200.000 mMcacodylate pH: 6.5mM (NH4)2sodiumH phosphatechloride10100.000 mM Na2 H phosphate/K1260.000200.000 mMH2 phosphate pH: 6.2mM (NH4)2Li2 sulfatesulfate11100.000 mM Tris base/HCl pH: 7.1260.000200.000 mMmM (NH4)2MgCl2sulfate12100.000 mM imidazole/HCl pH: 8.1260.000200.000 mMmM (NH4)2Li2 sulfatesulfate13100.000 mM Na3 citrate/citric acid1260.000200.000 mMpH: 5.5mM (NH4)2sodiumsulfatechloride14100.000 mM HEPES/HEPES pH:20.000% w/v200.000 mM7.5PEG-8000sodiumchloride15100.000 mM Tris base/HCl pH: 7.20.000% w/v200.000 mMPEG-8000ZnAc216100.000 mM imidazole/HCl pH: 8.20.000% w/v200.000 mMPEG-8000Li2 sulfate17100.000 mM acetic acid/NaAc pH:20.000% w/v200.000 mM4.5PEG-8000MgCl218100.000 mM cacodylic acid/Na20.000% w/v200.000 mMcacodylate pH: 6.5PEG-8000sodiumchloride19100.000 mM Tris base/HCl pH: 7.20.000% w/v200.000 mMPEG-8000MgCl220100.000 mM HEPES/HEPES pH:1000.000200.000 mM7.5mM Na3sodiumcitratechloride21100.000 mM MES/NaOH pH: 6.1000.000200.000 mMmM Na3ZnAc2citrate22100.000 mM imidazole/HCl pH: 8.1000.000200.000 mMmM Na3Li2 sulfatecitrate23100.000 mM acetic acid/NaAc pH:1000.000200.000 mM4.5mM Na3MgCl2citrate24100.000 mM Tris base/HCl pH:1000.000200.000 mM8.5mM Na3Li2 sulfatecitrate(e) Crystallization Solution Set 5:1100.000 mM MES/NaOH pH: 6.1000.000200.000 mMmM Na3MgCl2citrate2100.000 mM acetic acid/NaAc pH:10.000% v/v200.000 mM4.5isopropanolLi2 sulfate3100.000 mM Na3 citrate/citric acid10.000% v/v200.000 mMpH: 5.5isopropanolsodiumchloride4100.000 mM acetic acid/NaAc pH:10.000% w/v200.000 mM4.5PEG-8000MgCl25100.000 mM Tris base/HCl pH:10.000% w/v200.000 mM8.5PEG-8000sodiumchloride6100.000 mM acetic acid/NaAc pH:20.000% w/v200.000 mM4.5PEG-2000ZnAc2MME7100.000 mM Tris base/HCl pH:20.000% w/v200.000 mM8.5PEG-2000Li2 sulfateMME8100.000 mM Tris base/HCl pH:20.000% w/v200.000 mM8.51,4-butane-sodiumdiolchloride9100.000 mM cacodylic acid/Na20.000% w/v200.000 mMcacodylate pH: 6.51,4-butane-Li2 sulfatediol10100.000 mM HEPES/NaOH pH:20.000% w/v200.000 mM7.5PEG-1000Li2 sulfate11100.000 mM MES/NaOH pH: 6.20.000% w/v200.000 mMPEG-1000MgCl212100.000 mM MES/NaOH pH: 6.2500.000200.000 mMnM sodiumLi2 sulfatechloride13100.000 mM Tris base/HCl pH:30.000% w/v200.000 mM8.5PEG-8000Li2 sulfate14100.000 mM cacodylic acid/Na30.000% w/v200.000 mMcacodylate pH: 6.5PEG-8000CaAc215100.000 mM MES/NaOH pH: 6.30.000% w/v200.000 mMPEG-400MgCl216100.000 mM Tris base/HCl pH: 7.30.000% w/v200.000 mMPEG-400Li2 sulfate17100.000 mM HEPES/NaOH pH:10.000% w/v200.000 mM7.5PEG-3000Li2 sulfate18100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-3000MgCl219100.000 mM imidazole/HCl pH: 8.1000.000200.000 mMmM Na3MgCl2citrate20100.000 mM Tris base/HCl pH:1000.000200.000 mM8.5mM Na3sodiumcitratechloride21100.000 mM Tris base/HCl pH: 7.2500.000mM NaMal22100.000 mM acetic acid/NaAc pH:2500.0004.5mM NaMal23100.000 mM Tris base/HCl pH:2500.0008.5mM NaMal24100.000 mM imidazole/HCl pH: 8.2500.000mM NaMal.

2. The set of crystallization solutions of claim 1 comprising Crystallization Solution Set 1.

3. The set of crystallization solutions of claim 2 consisting of Crystallization Solution Set 1.

4. The set of crystallization solutions of claim 1 comprising Crystallization Solution Set 2.

5. The set of crystallization solutions of claim 4 consisting of Crystallization Solution Set 2.

6. The set of crystallization solutions of claim 1 comprising Crystallization Solution Set 3.

7. The set of crystallization solutions of claim 6 consisting of Crystallization Solution Set 3.

8. The set of crystallization solutions of claim 1 comprising Crystallization Solution Set 4.

9. The set of crystallization solutions of claim 8 consisting of Crystallization Solution Set 4.

10. The set of crystallization solutions of claim 1 comprising Crystallization Solution Set 5.

11. The set of crystallization solutions of claim 10 consisting of Crystallization Solution Set 5.

12. A kit comprising at least one crystallization plate and a set of crystallization solutions comprising a set of crystallization solutions selected from the group of crystallization solution sets consisting of:SolutionCompound BufferPrecipitantSalt(a) Crystallization Solution Set 1:1100.000 mM HEPES/NaOH pH:10.000% v/v200.000 mM7.5isopropanolsodiumchloride2100.000 mM Na3 citrate/citric acid20.000% w/vpH: 5.5PEG-30003100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-8000ZnAc24100.000 mM Na3 citrate/citric acid2000.000pH: 5.5mM (NH4)2sulfate5100.000 mM Tris base/HCl pH: 7.20.000% w/vPEG-2000MME6100.000 mM MES/NaOH pH: 6.20.000% v/v200.000 mM1,4-butane-Li2 sulfatediol7100.000 mM imidazole/HCl pH: 8.20.000% w/v200.000 mMPEG-1000CaAc28100.000 mM Na2 H phosphate/K2500.000H2 phosphate pH: 6.2mM sodiumchloride9100.000 mM acetic acid/NaAc pH:30.000% w/v200.000 mM4.5PEG-8000Li2 sulfate10100.000 mM Tris base/HCl pH:10.000% v/v8.5isopropanol11100.000 mM Tris base/HCl pH:30.000% v/v200.000 mM8.5PEG-400MgCl212100.000 mM imidazole/HCl pH: 8.2500.000mM sodiumchloride13100.000 mM MES/NaOH pH: 6.10.000% v/v200.000 mMisopropanolCaAc214100.000 mM Tris base/HCl pH: 7.15.000% v/vEtOH15100.000 mM acetic acid/NaAc pH:30.000% v/v200.000 mM4.5PEG-400CaAc216100.000 mM acetic acid/NaAc pH:20.000% w/v200.000 mM4.5PEG-1000ZnAc217100.000 mM acetic acid/NaAc pH:10.000% w/v200.000 mM4.5PEG-3000ZnAc218100.000 mM Na2 H phosphate/K10.000% w/v200.000 mMH2 phosphate pH: 6.2PEG-8000sodiumchloride19100.000 mM Tris base/HCl pH:1000.0008.5mM (NH4)2H phosphate20100.000 mM Na cacodylate/HCl10.000% v/v200.000 mMpH: 6.5isopropanolZnAc221100.000 mM Na cacodylate/HCl30.000% v/v200.000 mMpH: 6.5PEG-400Li2 sulfate22100.000 mM Na3 citrate/citric acid15.000% v/v200.000 mMpH: 5.5EtOHLi2 sulfate23100.000 mM HEPES/NaOH pH:1260.0007.5mM (NH4)2sulfate24100.000 mM Tris base/HCl pH: 7.2500.000200.000 mMmM sodiumMgCl2chloride25100.000 mM MES/NaOH pH: 6.15.000% v/v200.000 mMEtOHZnAc226100.000 mM imidazole/HCl pH: 8.10.000% v/visopropanol27100.000 mM HEPES/NaOH pH:15.000% v/v200.000 mM7.5EtOHMgCl228100.000 mM Na cacodylate/HCl10.000% w/v200.000 mMpH: 6.5PEG-3000MgCl229100.000 mM MES/NaOH pH: 6.20.000% w/v200.000 mMPEG-8000CaAc230100.000 mM CHES/NaOH pH:1260.000200.000 mM9.5mM (NH4)2sodiumsulfatechloride31100.000 mM imidazole/HCl pH: 8.20.000% v/v200.000 mM1,4-butane-ZnAc2diol32100.000 mM Tris base/HCl pH: 7.1000.000200.000 mMmM Na3sodiumcitratechloride33100.000 mM HEPES/NaOH pH:30.000% v/v200.000 mM7.5PEG-400sodiumchloride34100.000 mM Tris base/HCl pH: 7.10.000% w/v200.000 mMPEG-8000MgCl235100.000 mM Na cacodylate/HCl20.000% w/v200.000 mMpH: 6.5PEG-1000MgCl236100.000 mM imidazole/HCl pH: 8.2500.000200.000 mMmM sodiumZnAc2chloride37100.000 mM Na2 H phosphate/K40.000% v/vH2 phosphate pH: 6.2EG38100.000 mM Tris base/HCl pH:30.000% v/v200.000 mM8.5PEG-200(NH4)2 Hphosphate39100.000 mM HEPES/NaOH pH:10.000% v/v50.000 mM7.5glycerolLi2 sulfate30.000% v/vPEG-60040100.000 mM HEPES/NaOH pH:40.000% v/v7.5EG5.000% w/vPEG-300041100.000 mM Tris base/HCl pH: 7.40.000% v/vEG42100.000 mM Tris base/HCl pH:50.000% v/v200.000 mM8.5EGMgCl243100.000 mM Tris base/HCl pH:5.000% w/v8.5PEG-800010.000% v/vglycerol20.000% v/vPEG-30044100.000 mM acetic acid/NaAc pH:40.000% v/v4.5PEG-40045100.000 mM Tris base/HCl pH: 7.10.000% v/v500.000 mMglycerol(NH4)230.000% v/vsulfatePEG-60046100.000 mM HEPES/NaOH pH:50.000% v/v200.000 mM7.5EGLi2 sulfate47100.000 mM acetic acid/NaAc pH:30.000% v/v100.000 mM4.5PEG-200sodiumchloride48100.000 mM CAPS/NaOH pH:30.000% v/v200.000 mM10.5PEG-200(NH4)2sulfate(b) Crystallization Solution Set 2:1100.000 mM Tris base/HCl pH: 7.10.000% v/v200.000 mMisopropanolZnAc22100.000 mM acetic acid/NaAc pH:10.000% v/v200.000 mM4.5isopropanolCaAc23100.000 mM Na3 citrate/Na310.000% v/v200.000 mMcitrate pH: 5.5isopropanolLi2 sulfate4100.000 mM Tris base/HCl pH: 7.10.000% v/v200.000 mMisopropanolCaAc25100.000 mM acetic acid/NaAc pH:10.000% v/v200.000 mM4.5isopropanolsodiumchloride6100.000 mM Na3 citrate/Na310.000% v/v200.000 mMcitrate pH: 5.5isopropanolMgCl27100.000 mM HEPES/NaOH pH:10.000% w/v200.000 mM7.5PEG-8000sodiumchloride8100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-8000ZnAc29100.000 mM Na2 H phosphate/K10.000% w/v200.000 mMH2 phosphate pH: 6.2PEG-8000Li2 sulfate10100.000 mM acetic acid/NaAc pH:10.000% w/v200.000 mM4.5PEG-8000CaAc211100.000 mM Tris base/HCl pH:10.000% w/v200.000 mM8.5PEG-8000MgCl212100.000 mM Na cacodylate/HCl10.000% w/v200.000 mMpH: 6.5PEG-8000sodiumchloride13100.000 mM Na3 citrate/citric acid10.000% w/v200.000 mMpH: 5.5PEG-8000Li2 sulfate14100.000 mM HEPES/NaOH pH:10.000% w/v200.000 mM7.5PEG-8000MgCl215100.000 mM HEPES/NaOH pH:20.000% w/v200.000 mM7.5PEG-2000NaClMME16100.000 mM MES/NaOH pH: 6.20.000% w/v200.000 mMPEG-2000ZnAc2MME17100.000 mM Na2 H phosphate/K20.000% w/vH2 phosphate pH: 6.2PEG-2000MME200.000 mMLi2 sulfate18100.000 mM acetic acid/NaAc pH:20.000% w/v200.000 mM4.5PEG-2000CaAc2MME19100.000 mM Tris base/HCl pH:20.000% w/v200.000 mM8.5PEG-2000MgCl2MME20100.000 mM cacodylic acid/Na20.000% w/vcacodylate pH: 6.5PEG-2000MME200.000 mMLi2 sulfate21100.000 mM HEPES/NaOH pH:20.000% w/v7.5PEG-2000MME200.000 mMLi2 sulfate22100.000 mM Tris base/HCl pH:20.000% v/v8.51,4-butane-diol 200.000mM Li2 sul-fate23100.000 mM cacodylic acid/Na20.000% v/v200.000 mMcacodylate pH: 6.51,4-butane-CaAc2diol24100.000 mM Na3 citrate/citric acid20.000% v/v200.000 mMpH: 5.51,4-butane-MgCl2diol(c) Crystallization Solution Set 3:1100.000 mM Tris base/HCl pH: 7.20.000% v/v200.000 mM1,4-butane-ZnAc2diol2100.000 mM Tris base/HCl pH:20.000% v/v200.000 mM8.51,4-butane-MgCl2diol3100.000 mM Na3 citrate/citric acid20.000% v/v200.000 mMpH: 5.51,4-butane-sodiumdiolchloride4100.000 mM HEPES/NaOH pH:20.000% w/v200.000 mM7.5PEG-1000sodiumchloride5100.000 mM MES/NaOH pH: 620.000% w/v200.000 mMPEG-1000ZnAc26100.000 mM Tris base/HCl pH: 7.20.000% w/v200.000 mMPEG-1000Li2 sulfate7100.000 mM HEPES/NaOH pH:20.000% w/v200.000 mM7.5PEG-1000MgCl28100.000 mM MES/NaOH pH: 6.20.000% w/v200.000 mMPEG-1000sodiumchloride9100.000 mM HEPES/NaOH pH:2500.0007.5mM sodiumchloride10100.000 mM MES/NaOH pH: 6.2500.000200.000 mMmM sodiumZnAc2chloride11100.000 mM Tris base/HCl pH:2500.000200.000 mM8.5mM sodiumLi2 sulfatechloride12100.000 mM cacodylic acid/Na2500.000200.000 mMcacodylate pH: 6.5mM sodiumCaAc2chloride13100.000 mM Na3 citrate/citric acid2500.000200.000 mMpH: 5.5mM sodiumMgCl2chloride14100.000 mM cacodylic acid/Na2500.000200.000 mMcacodylate pH: 6.5mM sodiumLi2 sulfatechloride15100.000 mM Tris base/HCl pH: 7.30.000% v/v200.000 mMPEG-400ZnAc216100.000 mM imidazole/HCl pH: 8.30.000% v/v200.000 mMPEG-400Li2 sulfate17100.000 mM Na3 citrate/citric acid30.000% v/v200.000 mMpH: 5.5PEG-400MgCl218100.000 mM Na3 citrate/citric acid30.000% v/v200.000 mMpH: 5.5PEG-400Li2 sulfate19100.000 mM imidazole/HCl pH: 8.30.000% v/v200.000 mMPEG-400ZnAc220100.000 mM Tris base/HCl pH: 7.30.000% v/v200.000 mMPEG-400NaCl21100.000 mM Na2 H phosphate/K15.000% v/v200.000 mMH2 phosphate pH: 6.2EtOHsodiumchloride22100.000 mM acetic acid/NaAc pH:15.000% v/v200.000 mM4.5EtOHZnAc223100.000 mM cacodylic acid/Na15.000% v/v200.000 mMcacodylate pH: 6.5EtOHCaAc224100.000 mM acetic acid/NaAc pH:15.000% v/v200.000 mM4.5EtOHMgCl2(d) Crystallization Solution Set 4:1100.000 mM cacodylic acid/Na15.000% v/v200.000 mMcacodylate pH: 6.5EtOHsodiumchloride2100.000 mM HEPES/HEPES pH:10.000% w/v200.000 mM7.5PEG-3000sodiumchloride3100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-3000ZnAc24100.000 mM Tris base/HCl pH:10.000% w/v200.000 mM8.5PEG-3000CaAc25100.000 mM Na3 citrate/citric acid10.000% w/v200.000 mMpH: 5.5PEG-3000MgCl26100.000 mM Tris base/HCl pH:10.000% w/v200.000 mM8.5PEG-3000Li2 sulfate7100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-3000Li2 sulfate8100.000 mM HEPES/HEPES pH:1000.000200.000 mM7.5mM (NH4)2sodiumH phosphatechloride9100.000 mM cacodylic acid/Na1000.000200.000 mMcacodylate pH: 6.5mM (NH4)2sodiumH phosphatechloride10100.000 mM Na2 H phosphate/K1260.000200.000 mMH2 phosphate pH: 6.2mM (NH4)2Li2 sulfatesulfate11100.000 mM Tris base/HCl pH: 7.1260.000200.000 mMmM (NH4)2MgCl2sulfate12100.000 mM imidazole/HCl pH: 8.1260.000200.000 mMmM (NH4)2Li2 sulfatesulfate13100.000 mM Na3 citrate/citric acid1260.000200.000 mMpH: 5.5mM (NH4)2sodiumsulfatechloride14100.000 mM HEPES/HEPES pH:20.000% w/v200.000 mM7.5PEG-8000sodiumchloride15100.000 mM Tris base/HCl pH: 7.20.000% w/v200.000 mMPEG-8000ZnAc216100.000 mM imidazole/HCl pH: 8.20.000% w/v200.000 mMPEG-8000Li2 sulfate17100.000 mM acetic acid/NaAc pH:20.000% w/v200.000 mM4.5PEG-8000MgCl218100.000 mM cacodylic acid/Na20.000% w/v200.000 mMcacodylate pH: 6.5PEG-8000sodiumchloride19100.000 mM Tris base/HCl pH: 7.20.000% w/v200.000 mMPEG-8000MgCl220100.000 mM HEPES/HEPES pH:1000.000200.000 mM7.5mM Na3sodiumcitratechloride21100.000 mM MES/NaOH pH: 6.1000.000200.000 mMmM Na3ZnAc2citrate22100.000 mM imidazole/HCl pH: 8.1000.000200.000 mMmM Na3Li2 sulfatecitrate23100.000 mM acetic acid/NaAc pH:1000.000200.000 mM4.5mM Na3MgCl2citrate24100.000 mM Tris base/HCl pH:1000.000200.000 mM8.5mM Na3Li2 sulfatecitrate(e) Crystallization Solution Set 5:1100.000 mM MES/NaOH pH: 6.1000.000200.000 mMmM Na3MgCl2citrate2100.000 mM acetic acid/NaAc pH:10.000% v/v200.000 mM4.5isopropanolLi2 sulfate3100.000 mM Na3 citrate/citric acid10.000% v/v200.000 mMpH: 5.5isopropanolsodiumchloride4100.000 mM acetic acid/NaAc pH:10.000% w/v200.000 mM4.5PEG-8000MgCl25100.000 mM Tris base/HCl pH:10.000% w/v200.000 mM8.5PEG-8000sodiumchloride6100.000 mM acetic acid/NaAc pH:20.000% w/v200.000 mM4.5PEG-2000ZnAc2MME7100.000 mM Tris base/HCl pH:20.000% w/v200.000 mM8.5PEG-2000Li2 sulfateMME8100.000 mM Tris base/HCl pH:20.000% w/v200.000 mM8.51,4-butane-sodiumdiolchloride9100.000 mM cacodylic acid/Na20.000% w/v200.000 mMcacodylate pH: 6.51,4-butane-Li2 sulfatediol10100.000 mM HEPES/NaOH pH:20.000% w/v200.000 mM7.5PEG-1000Li2 sulfate11100.000 mM MES/NaOH pH: 6.20.000% w/v200.000 mMPEG-1000MgCl212100.000 mM MES/NaOH pH: 6.2500.000200.000 mMmM sodiumLi2 sulfatechloride13100.000 mM Tris base/HCl pH:30.000% w/v200.000 mM8.5PEG-8000Li2 sulfate14100.000 mM cacodylic acid/Na30.000% w/v200.000 mMcacodylate pH: 6.5PEG-8000CaAc215100.000 mM MES/NaOH pH: 6.30.000% w/v200.000 mMPEG-400MgCl216100.000 mM Tris base/HCl pH: 7.30.000% w/v200.000 mMPEG-400Li2 sulfate17100.000 mM HEPES/NaOH pH:10.000% w/v200.000 mM7.5PEG-3000Li2 sulfate18100.000 mM MES/NaOH pH: 6.10.000% w/v200.000 mMPEG-3000MgCl219100.000 mM imidazole/HCl pH: 8.1000.000200.000 mMmM Na3MgCl2citrate20100.000 mM Tris base/HCl pH:1000.000200.000 mM8.5mM Na3sodiumcitratechloride21100.000 mM Tris base/HCl pH: 7.2500.000mM NaMal22100.000 mM acetic acid/NaAc pH:2500.0004.5mM NaMal23100.000 mM Tris base/HCl pH:2500.0008.5mM NaMal24100.000 mM imidazole/HCl pH: 8.2500.000mM NaMal.

13. The kit of claim 12 wherein the set of crystallization solutions comprises Crystallization Solution Set 1.

14. The kit of claim 12 wherein the set of crystallization solutions comprises Crystallization Solution Set 2.

15. The kit of claim 12 wherein the set of crystallization solutions comprises Crystallization Solution Set 3.

16. The kit of claim 12 wherein the set of crystallization solutions comprises Crystallization Solution Set 4.

17. The kit of claim 12 wherein the set of crystallization solutions comprises Crystallization Solution Set 5.