RU99123057A

RU99123057A - METHODS AND MATERIALS FOR THE CREATION AND APPLICATION OF TRANSGENIC ORGANISMS TO DESTRATE DICAMBU

Info

Publication number: RU99123057A
Application number: RU99123057/13A
Authority: RU
Inventors: Дональд П. Викс; Ксиао-Зуо ВАНГ; Патриция Л. ХЕРМАН
Original assignee: Дональд П. Викс; Ксиао-Зуо ВАНГ; Патриция Л. ХЕРМАН
Priority date: 1997-04-04
Filing date: 1998-04-03
Publication date: 2001-08-27

Claims

1. An isolated DNA molecule comprising a DNA sequence encoding a dicamba-depleting oxygenase.

2. The DNA molecule according to claim 1, comprising a DNA sequence encoding a dicamba-depleting oxygenase having the amino acid sequence of SEQ ID NO 4.

3. The DNA molecule according to claim 2, comprising the nucleotide sequence of SEQ ID NO 3.

4. A DNA construct comprising a DNA sequence encoding a dicamba-degrading oxygenase functionally linked to expression control sequences.

5. The DNA construct according to claim 4, comprising a DNA sequence encoding a dicamba destructive oxygenase having the amino acid sequence of SEQ ID NO 4.

6. The DNA construct of claim 5, comprising the nucleotide sequence of SEQ ID NO 3.

7. The DNA construct according to claim 4, which is a vector.

8. Isolated and at least partially purified dicamba-destructive oxygenase.

9. Dicamba-depleting oxygenase according to claim 8, having the amino acid sequence according to SEQ ID NO 4.

10. An isolated DNA molecule comprising a DNA sequence encoding a dicamba-degrading ferredoxin.

11. The DNA molecule of claim 10, comprising a DNA sequence encoding a dicamba-degrading ferredoxin having the amino acid sequence of SEQ ID NO 6.

12. The DNA molecule according to claim 11, comprising the nucleotide sequence of SEQ ID NO 5.

13. A DNA construct comprising a DNA sequence encoding a dicamba-degrading ferredoxin operably linked to expression control sequences.

14. The DNA construct of claim 13, comprising a DNA sequence encoding a dicamba-degrading ferredoxin having the amino acid sequence of SEQ ID NO 6.

15. The DNA construct of claim 14, comprising the nucleotide sequence of SEQ ID NO 5.

16. The DNA construct of claim 13, which is a vector.

17. Isolated and at least partially purified dicamba-degrading ferredoxin.

18. Dicamba-degrading ferredoxin according to claim 18, having the amino acid sequence of SEQ ID NO 6.

19. Isolated and at least partially purified dicamba-destructive reductase.

20. Isolated and at least partially purified dicamba-destructive O-demethylase.

21. A transgenic host cell carrying DNA encoding a dicamba-degrading oxygenase functionally linked to expression control sequences.

22. The transgenic host cell according to item 21, wherein the DNA encodes a dicamba-degrading oxygenase having the amino acid sequence of SEQ ID NO 4.

23. The transgenic host cell according to item 22, wherein the DNA includes a nucleotide sequence according to SEQ ID NO 3.

24. The transgenic host cell according to item 21, which is a plant cell.

25. The transgenic host cell according to item 21, which is a microorganism.

26. A transgenic host cell comprising DNA encoding a dicamba-degrading ferredoxin, operably linked to expression control sequences.

27. The transgenic host cell according to claim 26, wherein the DNA encodes a dicamba-degrading ferredoxin having the amino acid sequence of SEQ ID NO 6.

28. The transgenic host cell according to item 27, wherein the DNA includes a nucleotide sequence according to SEQ ID NO 5.

29. The transgenic host cell according to claim 26, which is a plant cell.

30. The transgenic host cell according to claim 26, which is a microorganism.

31. The transgenic host cell according to claim 21, additionally carrying DNA encoding a dicamba-degrading ferredoxin, operably linked to expression control sequences.

32. The transgenic host cell of claim 31, wherein the DNA encodes a dicamba-degrading ferredoxin having the amino acid sequence of SEQ ID NO 6.

33. The transgenic host cell according to p, characterized in that the DNA includes a nucleotide sequence according to SEQ ID NO 5.

34. The transgenic host cell according to p, which is a plant cell.

35. The transgenic host cell according to p, which is a microorganism.

36. A transgenic plant or part of a plant containing one or more cells carrying DNA encoding a dicamba destructive oxygenase, operably linked to expression control sequences.

37. The transgenic plant or part of the plant according to clause 36, wherein the DNA encodes a dicamba-depleting oxygenase having the amino acid sequence of SEQ ID NO 4.

38. A transgenic plant or part of a plant according to clause 37, wherein the DNA includes a nucleotide sequence according to SEQ ID NO 3.

39. The transgenic plant or part of a plant according to clause 36, wherein the plant is a broadleaf plant that is tolerant of dicamba, as a consequence of the expression of dicamba-depleting oxygenase, and part of the plant is part of a broadleaf plant that is tolerant of dicamba due to the expression of dicamba destructive oxygenase.

40. The transgenic plant or part of the plant according to clause 36, wherein one or more cells additionally carry DNA encoding a dicamba-destroying ferredoxin, functionally attached to the expression control sequences.

41. A transgenic plant or part of a plant according to claim 4 O, wherein the DNA encodes a dicamba-degrading ferredoxin having the amino acid sequence of SEQ ID NO 6.

42. A transgenic plant or part of a plant according to paragraph 41, wherein the DNA comprises a nucleotide sequence according to SEQ ID NO 5.

43. The transgenic plant or part of the plant according to claim 4 O, characterized in that the plant is a broadleaf plant that is tolerant of dicamba due to the expression of dicamba-depleting oxygenases and ferredoxin, and part of the plant is part of a broadleaf plant that is tolerant of dicamba due to the expression of dicamba destructive oxygenases and ferredoxin.

44. A method of controlling weeds in a transgenic plantation according to any one of claims 36-43, comprising applying to the plantation an amount of dicamba effective in controlling weeds in the plantation.

45. A method of purifying a material containing dicamba, comprising applying an amount of a transgenic microorganism according to any one of claims 25-35 to a material, in an amount effective to destroy at least a portion of the dicamba contained in this material.

46. A method of purifying a material containing dicamba, comprising applying an amount of dicamba-destructive O-demethylase or a combination of dicamba-destructive oxygenase, dicamba-destructive ferredoxin and dicamba-destructive reductase to a material in an amount effective to destroy at least a portion of dicamba contained in this material.

47. A method for selecting transformed plant cells, comprising obtaining a plant cell population transforming at least a portion of the plant cells in a plant cell population with a DNA construct according to any one of claims 4-16; and growing the resulting plant cell population in a culture medium containing dicamba at a concentration selected so that the transformed plant cells will grow and the non-transformed plant cells will not grow.

48. A method for selecting transformed plants, comprising obtaining a population of plants in which the presence of a DNA construct according to any one of claims is assumed. 4-16; and applying the amount of dicamba to the plants selected so that the transformed plants will grow and the growth of non-transformed plants will be suppressed.

49. A method for selecting or screening transformed host cells, whole organisms and parts of organisms, comprising obtaining a population of host cells, whole organisms or parts of organisms in which the presence of a DNA construct according to any one of claims 4-16 is assumed; providing contact of host cells, whole organisms or parts of organisms with dicamba; and assessing the presence or level of fluorescence due to 3,6-dichlorosalicylic acid, while 3,6-dichlorosalicylic acid is formed in transformed host cells, whole organisms or parts of organisms as a result of the destruction of dicamba.