Claims
- 1. A polynucleotide molecule comprising a nucleotide sequence that is otherwise the same as the Streptomyces avermitilis aveC allele, the S. avermitilis AveC gene product-encoding sequence of plasmid pSE186 (ATCC 209604) or the nucleotide sequence of the aveC ORF of S. avermitilis as presented in FIG. 1 (SEQ ID NO:1), or a degenerate variant thereof, but which nucleotide sequence further comprises one or more mutations encoding an amino acid substitution at one or more amino acid residues corresponding to amino acid position 38, 48, 89, 99, 111, 136, 154, 179, 228, 238, 289, or 298 of SEQ ID NO:2, such that cells of S. avermitilis strain ATCC 53692 in which the wild-type aveC allele has been inactivated and that express the polynucleotide molecule comprising the mutated nucleotide sequence produce a class 2:1 ratio of avermectins that is different from the ratio produced by cells of S. avermitilis strain ATCC 53692 that instead express only the wild-type aveC allele.
- 2. The polynucleotide molecule of claim 1, wherein the class 2:1 avermectins are cyclohexyl B2:cyclohexyl B1 avermectins.
- 3. The polynucleotide molecule of claim 2, wherein the different class 2:1 ratio of avermectins is a reduced ratio compared to the class 2:1 ratio produced by cells of S. avermitilis strain ATCC 53692 that instead express only the wild-type aveC allele.
- 4. The polynucleotide molecule of claim 3, wherein the ratio of class 2:1 avermectins is about 0.8:1 or less.
- 5. The polynucleotide molecule of claim 3, wherein the ratio of class 2:1 avermectins is about 0.68:1 or less.
- 6. The polynucleotide molecule of claim 3, wherein the ratio of class 2:1 avermectins is about 0.53:1 or less.
- 7. The polynucleotide molecule of claim 3, wherein the ratio of class 2:1 avermectins is about 0.42:1 or less.
- 8. The polynucleotide molecule of claim 3, wherein the ratio of class 2:1 avermectins is about 0.40:1 or less.
- 9. The polynucleotide molecule of claim 1, wherein the nucleotide sequence further comprises one or more mutations encoding an amino acid substitution at one or both amino acid residues corresponding to amino acid positions 138 and 139 of SEQ ID NO:2.
- 10. The polynucleotide molecule of claim 2, wherein the amino acid substitutions are selected from one or more of the group consisting of:
(a) amino acid residue Q at position 38 replaced by P or by an amino acid that is a conservative substitution for P; (b) amino acid residue D at position 48 replaced by E or by an amino acid that is a conservative substitution for E; (c) amino acid residue A at position 89 replaced by T or by an amino acid that is a conservative substitution for T; (d) amino acid residue F at position 99 replaced by S or by an amino acid that is a conservative substitution for S; (e) amino acid residue G at position 111 replaced by V or by an amino acid that is a conservative substitution for V; (f) amino acid residue L at position 136 replaced by P or by an amino acid that is a conservative substitution for P; (g) amino acid residue K at position 154 replaced by E or by an amino acid that is a conservative substitution for E; (h) amino acid residue G at position 179 replaced by S or by an amino acid that is a conservative substitution for S; (i) amino acid residue M at position 228 replaced by T or by an amino acid that is a conservative substitution for T; (j) amino acid residue E at position 238 replaced by D or by an amino acid that is a conservative substitution for D; (k) amino acid residue P at position 289 replaced by L or by an amino acid that is a conservative substitution for L; and (l) amino acid residue Q at position 298 replaced by H or by an amino acid that is a conservative substitution for H.
- 11. The polynucleotide molecule of claim 2, wherein a combination of amino acid residues is mutated, and wherein the combination is selected from one or more of the group consisting of:
(a) amino acid residues D48 and A89; (b) amino acid residues S138, A139 and G179; (c) amino acid-residues Q38, L136 and E238; (d) amino acid residues F99, S138, A139 and G179; (e) amino acid residues A139 and M228; (f) amino acid residues G111 and P289; and (g) amino acid residues A139, K154 and Q298.
- 12. The polynucleotide molecule of claim 11, wherein the combination of amino acid substitutions is selected from one or more of the group consisting of:
(a) D48E/A89T; (b) S138T/A139T/G179S; (c) Q38P/L136P/E238D; (d) F99S/S138T/A139T/G179S; (e) A139T/M228T; (f) G111V/P289L; and (g) A139T/K154E/Q298H.
- 13. The polynucleotide molecule of claim 12, wherein the mutations in the aveC sequence encoding D48E/A89T comprise a base change from T to A at a nucleotide position corresponding to nt 317 of SEQ ID NO:1, and a base change from G to A at a nucleotide position corresponding to nt 438 of SEQ ID NO:1.
- 14. The polynucleotide molecule of claim 13, further comprising a base change from C to A at a nucleotide position corresponding to nt 353 of SEQ ID NO:1, and a base change from T to A at a nucleotide position corresponding to nt 1155 of SEQ ID NO:1.
- 15. The polynucleotide molecule of claim 12, wherein the mutations in the aveC sequence encoding S138T/A139T/G179S comprise a base change from T to A at a nucleotide position corresponding to nt 585 of SEQ ID NO:1, a base change from G to A at a nucleotide position corresponding to nt 588 of SEQ ID NO:1, and a base change from G to A at a nucleotide position corresponding to nt 708 of SEQ ID NO:1.
- 16. The polynucleotide molecule of claim 15, further comprising a base change from G to A at a nucleotide position corresponding to nt 272 of SEQ ID NO:1.
- 17. The polynucleotide molecule of claim 12, wherein the mutations in the aveC sequence encoding Q38P/L136P/E238D comprise a base change from A to C at a nucleotide position corresponding to nt 286 of SEQ ID NO;1, a base change from T to C at a nucleotide position corresponding to nt 580 of SEQ ID NO:1, and a base change from A to T at a nucleotide position corresponding to nt 886 of SEQ ID NO:1.
- 18. The polynucleotide molecule of claim 17, further comprising a base change from A to G at a nucleotide position corresponding to nt 24 of SEQ ID NO:1, a base change from T to C at a nucleotide position corresponding to nt 497 of SEQ ID NO:1, and a base change from C to T at a nucleotide position corresponding to nt 554 of SEQ ID NO:1.
- 19. The polynucleotide molecule of claim 12, wherein the mutations in the aveC sequence encoding F99S/S138T/A139T/G179S comprise a 3 base pair deletion at nucleotide positions corresponding to nts 173, 174 and 175 of SEQ ID NO:1, a base change from T to C at a nucleotide position corresponding to nt 469 of SEQ ID NO:1, a base change from T to A at a nucleotide position corresponding to nt 585 of SEQ ID NO:1, a base change from G to A at a nucleotide position corresponding to nt 588 of SEQ ID NO:1, and a base change from G to A at a nucleotide position corresponding to nt 708 of SEQ ID NO:1.
- 20. The polynucleotide molecule of claim 19, further comprising a base change from C to T at a nucleotide position corresponding to nt 833 of SEQ ID NO:1, and a base change from G to A at a nucleotide position corresponding to nt 1184 of SEQ ID NO:1.
- 21. The polynucleotide molecule of claim 12, wherein the mutations in the aveC sequence encoding A139T/M228T comprise a base change from G to A at a nucleotide position corresponding to nt 588 of SEQ ID NO:1, and a base change from T to C at a nucleotide position corresponding to nt 856 of SEQ ID NO:1.
- 22. The polynucleotide molecule of claim 12, wherein the mutations in the aveC sequence encoding G111V/P289L comprise a base change from G to T at a nucleotide position corresponding to nt 505 of SEQ ID NO:1, and a base change from C to T at a nucleotide position corresponding to nt 1039 of SEQ ID NO:1.
- 23. The polynucleotide molecule of claim 22, further comprising a base change from T to C at a nucleotide position corresponding to nt 155 of SEQ ID NO:1, a base change from C to T at a nucleotide position corresponding to nt 1202 of SEQ ID NO:1, and a base change from T to C at a nucleotide position corresponding to nt 1210 of SEQ ID NO:1.
- 24. The polynucleotide molecule of claim 12, wherein the mutations in the aveC sequence encoding A139T/K154E/Q298H comprise a base change from G to A at a nucleotide position corresponding to nt 588 of SEQ ID NO:1, a base change from A to G at a nucleotide position corresponding to nt 633 of SEQ ID NO:1, and a base change from A to T at a nucleotide position corresponding to nt 1067 of SEQ ID NO:1.
- 25. The polynucleotide molecule of claim 24, further comprising a base change from G to T at a nucleotide position corresponding to nt 377 of SEQ ID NO:1.
- 26. A recombinant vector comprising the polynucleotide molecule of claim 1.
- 27. A host cell comprising the polynucleotide molecule of claim 1 or the recombinant vector of claim 26.
- 28. The host cell of claim 27, which is a Streptomyces cell.
- 29. A method for making a novel strain of S. avermitilis, comprising mutating the aveC allele in cells of a strain of S. avermitilis, which mutation results in the substitution in the AveC gene product of a different amino acid residue at one or more amino acid positions corresponding to amino acid residues 38, 48, 89, 99, 111, 136, 138, 139, 154, 179, 228, 238, 289 or 298 of SEQ ID NO:2, such that cells of the S. avermitilis strain in which the aveC allele has been so mutated produce a class 2:1 ratio of avermectins that is different from the ratio produced by cells of the same S. avermitilis strain that instead express only the wild-type aveC allele.
- 30. The method of claim 29, wherein the class 2:1 avermectins are cyclohexyl B2:cyclohexyl B1 avermectins.
- 31. The method of claim 30, wherein the different class 2:1 ratio of avermectins is a reduced ratio.
- 32. The method of claim 31, wherein the ratio of class 2:1 avermectins produced by cells of the S. avermitilis strain in which the aveC allele has been so mutated is about 0.8:1 or less.
- 33. The method of claim 31, wherein the ratio of class 2:1 avermectins produced by cells of the S. avermitilis strain in which the aveC allele has been so mutated is about 0.68:1 or less.
- 34. The method of claim 31, wherein the ratio of class 2:1 avermectins produced by cells of the S. avermitilis strain in which the aveC allele has been so mutated is about 0.53:1 or less.
- 35. The method of claim 31, wherein the ratio of class 2:1 avermectins produced by cells of the S. avermitilis strain in which the aveC allele has been so mutated is about 0.42:1 or less.
- 36. The method of claim 31, wherein the ratio of class 2:1 avermectins produced by cells of the S. avermitilis strain in which the aveC allele has been so mutated is about 0.40:1 or less.
- 37. The method of claim 31, further comprising introducing one or more mutations into the aveC allele that encode an amino acid substitution at one or both amino acid residues corresponding to amino acid positions 138 and 139 of SEQ ID NO:2.
- 38. The method of claim 30, wherein the amino acid substitutions are selected from one or more of the group consisting of:
(a) amino acid residue Q at position 38 replaced by P or by an amino acid that is a conservative substitution for P; (b) amino acid residue D at position 48 replaced by E or by an amino acid that is a conservative substitution for E; (c) amino acid residue A at position 89 replaced by T or by an amino acid that is a conservative substitution for T; (d) amino acid residue F at position 99 replaced by S or by an amino acid that is a conservative substitution for S; (e) amino acid residue G at position 111 replaced by V or by an amino acid that is a conservative substitution for V; (f) amino acid residue L at position 136 replaced by P or by an amino acid that is a conservative substitution for P; (g) amino acid residue K at position 154 replaced by E or by an amino acid that is a conservative substitution for E; (h) amino acid residue G at position 179 replaced by S or by an amino acid that is a conservative substitution for S; (i) amino acid residue M at position 228 replaced by T or by an amino acid that is a conservative substitution for T; (j) amino acid residue E at position 238 replaced by D or by an amino acid that is a conservative substitution for D; (k) amino acid residue P at position 289 replaced by L or by an amino acid that is a conservative substitution for L; and (l) amino acid residue Q at position 298 replaced by H or by an amino acid that is a conservative substitution for H.
- 39. The method of claim 30, wherein the aveC allele is mutated to encode amino acid substitutions at a combination of amino acid positions, and wherein the combination is selected from one or more of the group consisting of:
(a) amino acid residues D48 and A89; (b) amino acid residues S138, A139 and G179; (c) amino acid residues Q38, L136 and E238; (d) amino acid residues F99, S138, A139 and G179; (e) amino acid residues A139 and M228; (f) amino acid residues G111 and P289; and (g) amino acid residues A139, K154 and Q298.
- 40. The method of claim 39, wherein the combination of amino acid substitutions is selected from one or more of the group consisting of:
(a) D48E/A89T; (b) S138T/A139T/G179S; (c) Q38P/L136P/E238D; (d) F99S/S138T/A139T/G 179S; (e) A139T/M228T; (f) G111V/P289L; and (g) A139T/K154E/Q298H.
- 41. The method of claim 40, wherein the mutations in the aveC allele encoding D48E/A89T comprise a base change from T to A at a nucleotide position in the aveC allele corresponding to nt 317 of SEQ ID NO:1, and a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 438 of SEQ ID NO:1.
- 42. The method of claim 41, further comprising introducing a base change from C to A at a nucleotide position in the aveC allele corresponding to nt 353 of SEQ ID NO:1, and a base change from T to A at a nucleotide position in the aveC allele corresponding to nt 1155 of SEQ ID NO:1.
- 43. The method of claim 40, wherein the mutations in the aveC allele encoding S138T/A139T/G179S comprise a base change from T to A at a nucleotide position in the aveC allele corresponding to nt 585 of SEQ ID NO:1, a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 588 of SEQ ID NO:1, and a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 708 of SEQ ID NO:1.
- 44. The method of claim 43, further comprising introducing a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 272 of SEQ ID NO:1.
- 45. The method of claim 40, wherein the mutations in the aveC allele encoding Q38P/L136P/E238D comprise a base change from A to C at a nucleotide position in the aveC allele corresponding to nt 286 of SEQ ID NO:1, a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 580 of SEQ ID NO:1, and a base change from A to T at a nucleotide position in the aveC allele corresponding to nt 886 of SEQ ID NO:1.
- 46. The method of claim 45, further comprising introducing a base change from A to G, at a nucleotide position in the aveC allele corresponding to nt 24 of SEQ ID NO:1, a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 497 of SEQ ID NO:1, and a base change from C to T at a nucleotide position in the aveC allele corresponding to 554 of SEQ ID NO:1.
- 47. The method of claim 40, wherein the mutations in the aveC allele encoding F99S/S138T/A139T/G179S comprise a 3 base pair deletion at nucleotide positions in the aveC allele corresponding to nts 173, 174 and 175 of SEQ ID NO:1, a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 469 of SEQ ID NO:1, a base change from T to A at a nucleotide position in the aveC allele corresponding to nt 585 of SEQ ID NO:1, a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 588 of SEQ ID NO:1, and a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 708 of SEQ ID NO:1.
- 48. The method of claim 47, further comprising introducing a base change from C to T at a nucleotide position in the aveC allele corresponding to nt 833 of SEQ ID NO:1, and a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 1184 of SEQ ID NO:1.
- 49. The method of claim 40, wherein the mutations in the aveC allele encoding A139T/M228T comprise a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 588 of SEQ ID NO:1, and a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 856 of SEQ ID NO:1.
- 50. The method of claim 40, wherein the mutations in the aveC allele encoding G111V/P289L comprise a base change from G to T at a nucleotide position in the aveC allele corresponding to nt 505 of SEQ ID NO:1, and a base change from C to T at a nucleotide position in the aveC allele corresponding to nt 1039 of SEQ ID NO:1.
- 51. The method of claim 50, further comprising introducing a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 155 of SEQ ID NO:1, a base change from C to T at a nucleotide position in the aveC allele corresponding to nt 1202 of SEQ ID NO:1, and a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 1210 of SEQ ID NO:1.
- 52. The method of claim 40, wherein the mutations in the aveC allele encoding A139T/K154E/Q298H comprise a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 588 of SEQ ID NO:1, a base change from A to G at a nucleotide position in the aveC allele corresponding to nt 633 of SEQ ID NO:1, and a base change from A to T at a nucleotide position in the aveC allele corresponding to nt 1067 of SEQ ID NO:1.
- 53. The method of claim 52, further comprising introducing a base change from G to T at a nucleotide position in the aveC allele corresponding to nt 377 of SEQ ID NO:1.
- 54. A Streptomyces avermitilis cell having a mutated aveC allele that encodes an AveC gene product having a substitution at one or more amino acid positions corresponding to amino acid residue 38, 48, 89, 99, 111, 136, 154, 179, 228, 238, 289, or 298 of SEQ ID NO:2, wherein the cell produces a class 2:1 ratio of avermectins that is different from the ratio produced by a cell of the same S. avermitilis strain but that instead expresses only the wild-type aveC allele.
- 55. The S. avermitilis cell of claim 54, wherein the class 2:1 avermectins are cyclohexyl B2:cyclohexyl B1 avermectins.
- 56. The S. avermitilis cell of claim 55 wherein the different class 2:1 ratio of avermectins is a reduced ratio.
- 57. The S. avermitilis cell of claim 56, which produces a ratio of class 2:1 avermectins of about 0.8:1 or less.
- 58. The S. avermitilis cell of claim 56, which produces a ratio of class 2:1 avermectins of about 0.68:1 or less.
- 59. The S. avermitilis cell of claim 56, which produces a ratio of class 2:1 avermectins of about 0.53:1 or less.
- 60. The S. avermitilis cell of claim 56, which produces a ratio of class 2:1 avermectins of about 0.42:1 or less.
- 61. The S. avermitilis cell of claim 56, which produces a ratio of class 2:1 avermectins of about 0.40:1 or less.
- 62. The S. avermitilis cell of claim 55 in which the aveC allele further encodes an amino acid substitution at one or both amino acid residues corresponding to amino acid positions 138 and 139 of SEQ ID NO:2.
- 63. The S. avermitilis cell of claim 55, wherein the amino acid substitutions are selected from one or more of the group consisting of:
(a) amino acid residue Q at position 38 replaced by P or by an amino acid that is a conservative substitution for P; (b) amino acid residue D at position 48 replaced by E or by an amino acid that is a conservative substitution for E; (c) amino acid residue A at position 89 replaced by T or by an amino acid that is a conservative substitution for T; (d) amino acid residue F at position 99 replaced by S or by an amino acid that is a conservative substitution for S; (e) amino acid residue G at position 111 replaced by V or by an amino acid that is a conservative substitution for V; (f) amino acid residue L at position 136 replaced by P or by an amino acid that is a conservative substitution for P; (g) amino acid residue K at position 154 replaced by E or by an amino acid that is a conservative substitution for E; (h) amino acid residue G at position 179 replaced by S or by an amino acid that is a conservative substitution for S; (i) amino acid residue M at position 228 replaced by T or by an amino acid that is a conservative substitution for T; (j) amino acid residue E at position 238 replaced by D or by an amino acid that is a conservative substitution for D; (k) amino acid residue P at position 289 replaced by L or by an amino acid that is a conservative substitution for L; and (l) amino acid residue Q at position 298 replaced by H or by an amino acid that is a conservative substitution for H.
- 64. The S. avermitilis cell of claim 55, wherein the aveC allele is mutated to encode amino acid substitutions at a combination of amino acid positions, and wherein the combination is selected from one or more of the group consisting of:
(a) amino acid residues D48 and A89; (b) amino acid residues S138, A139 and G179; (c) amino acid residues Q38, L136 and E238; (d) amino acid residues F99, S138, A139 and G179; (e) amino acid residues A139 and M228; (f) amino acid residues G111 and P289; and (g) amino acid residues A139, K154 and Q298.
- 65. The S. avermitilis cell of claim 64, wherein the combination of amino acid substitutions is selected from one or more of the group consisting of:
(a) D48E/A89T; (b) S138T/A139T/G179S; (c) Q38P/L136P/E238D; (d) F99S/S138T/A139T/G179S; (e) A139T/M228T; (f) G111V/P289L; and (g) A139T/K154E/Q298H.
- 66. The S. avermitilis cell of claim 65, wherein the mutations in the aveC allele encoding D48E/A89T comprise a base change from T to A at a nucleotide position in the aveC allele corresponding to nt 317 of SEQ ID NO:1, and a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 438 of SEQ ID NO:1.
- 67. The S. avermitilis cell of claim 66, wherein the mutations in the aveC allele encoding D48E/A89T further comprise a base change from C to A at a nucleotide position in the aveC allele corresponding to nt 353 of SEQ ID NO:1, and a base change from T to A at a nucleotide position in the aveC allele corresponding to nt 1155 of SEQ ID NO:1.
- 68. The S. avermitilis cell of claim 65, wherein the mutations in the aveC allele encoding S138T/A139T/G179S comprise a base change from T to A at a nucleotide position in the aveC allele corresponding to nt 585 of SEQ ID NO:1, a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 588 of SEQ ID NO:1, and a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 708 of SEQ ID NO:1.
- 69. The S. avermitilis cell of claim 68, wherein the mutations in the aveC allele encoding S138T/A139T/G179S further comprise a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 272 of SEQ ID NO:1.
- 70. The S. avermitilis cell of claim 65, wherein the mutations in the aveC allele encoding Q38P/L136P/E238D comprise a base change from A to C at a nucleotide position in the aveC allele corresponding to nt 286 of SEQ ID NO:1, a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 580 of SEQ ID NO:1, and a base change from A to T at a nucleotide position in the aveC allele corresponding to nt 886 of SEQ ID NO:1.
- 71. The S. avermitilis cell of claim 70, wherein the mutations in the aveC allele encoding Q38P/L136P/E238D further comprise a base change from A to G at a nucleotide position in the aveC allele corresponding to nt 24 of SEQ ID NO:1, a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 497 of SEQ ID NO:1, and a base change from C to T at a nucleotide position in the aveC allele corresponding to 554 of SEQ ID NO:1.
- 72. The S. avermitilis cell of claim 65, wherein the mutations in the aveC allele encoding F99S/S138T/A139T/G179S comprise a 3 base pair deletion at nucleotide positions in the aveC allele corresponding to nts 173, 174 and 175 of SEQ ID NO:1, a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 469 of SEQ ID NO:1, a base change from T to A at a nucleotide position in the aveC allele corresponding to nt 585 of SEQ ID NO:1, a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 588 of SEQ ID NO:1, and a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 708 of SEQ ID NO:1.
- 73. The S. avermitilis cell of claim 72, wherein the mutations in the aveC allele encoding F99S/S138T/A139T/G179S further comprise a base change from C to T at a nucleotide position in the aveC allele corresponding to nt 833 of SEQ ID NO:1, and a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 1184 of SEQ ID NO:1.
- 74. The S. avermitilis cell of claim 65, wherein the mutations in the aveC allele encoding A139T/M228T comprise a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 588 of SEQ ID NO:1, and a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 856 of SEQ ID NO:1.
- 75. The S. avermitilis cell of claim 65, wherein the mutations in the aveC allele encoding G111V/P289L comprise a base change from G to T at a nucleotide position in the aveC allele corresponding to nt 505 of SEQ ID NO:1, and a base change from C to T at a nucleotide position in the aveC allele corresponding to nt 1039 of SEQ ID NO:1.
- 76. The S. avermitilis cell of claim 75, wherein the mutations in the aveC allele encoding G111V/P289L further comprise a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 155 of SEQ ID NO:1, a base change from C to T at a nucleotide position in the aveC allele corresponding to nt 1202 of SEQ ID NO:1, and a base change from T to C at a nucleotide position in the aveC allele corresponding to nt 1210 of SEQ ID NO:1.
- 77. The S. avermitilis cell of claim 65, wherein the mutations in the aveC allele encoding A139T/K154E/Q298H comprise a base change from G to A at a nucleotide position in the aveC allele corresponding to nt 588 of SEQ ID NO:1, a base change from A to G at a nucleotide position in the aveC allele corresponding to nt 633 of SEQ ID NO:1, and a base change from A to T at a nucleotide position in the aveC allele corresponding to nt 1067 of SEQ ID NO:1.
- 78. The S. avermitilis cell of claim 77, wherein the mutations in the aveC allele encoding A139T/K154E/Q298H further comprise a base change from G to T at a nucleotide position in the aveC allele corresponding to nt 377 of SEQ ID NO:1.
- 79. A process for producing avermectins, comprising culturing the cells of claim 55 in culture media under conditions that permit or induce the production of avermectins therefrom, and recovering said avermectins from the culture.
- 80. A composition of cyclohexyl B2:cyclohexyl B1 avermectins produced by cells of Streptomyces avermitilis, comprising the cyclohexyl B2:cyclohexyl B1 avermectins in a ratio of about 0.68:1 or less in a culture medium in which the cells have been cultured.
- 81. A composition of cyclohexyl B2:cyclohexyl B1 avermectins produced by cells of a strain of Streptomyces avermitilis that express a mutated aveC allele which encodes a gene product that results in the reduction of the class 2:1 ratio of cyclohexyl B2:cyclohexyl B1 avermectins produced by the cells compared to cells of the same strain of S. avermitilis that do not express the mutated aveC allele but instead express only the wild-type aveC allele, which composition comprises the cyclohexyl B2:cyclohexyl B1 avermectins in a ratio of about 0.68:1 or less in the culture medium in which the cells have been cultured.
Parent Case Info
[0001] This application claims priority from U.S. provisional application Serial No. 60/148,645, filed Aug. 12, 1999, which is incorporated herein by reference in its entirety.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60148645 |
Aug 1999 |
US |
Divisions (1)
|
Number |
Date |
Country |
Parent |
09637040 |
Aug 2000 |
US |
Child |
10412444 |
Jun 2003 |
US |