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Method of modifying gene and obtained recombinant gene and encoded protin

A technology of recombinant gene and gene shuffling, applied in the direction of plant gene improvement, genetic engineering, recombinant DNA technology, etc., to achieve high activity effect

Inactive Publication Date: 2010-01-06
SHENYANG INST OF APPL ECOLOGY CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, when sequences with less than 70% homology are shuffled by this method, the products tend to be heavily inclined to form repolymerized strands of the parent strands
Although thereafter some recombination methods relying on sequence homology (Ostermeier, M., Shim, J.H. & Benkovic, S.J.A combinatorial approach to hybridenzymes independent of DNAhomology. Nat. Biotechnol. 1999, 17, 1205-1209.; Zhao, H. , Giver, L., Shao, Z. & Arnold, F.H. Molecular evolution by staggered extension process (StEP) in vitro recombination. Nat. Biotechnol. 1998, 16, 258-261.; Jon, E. et al. Synthetic shuffling expands functional protein diversity by allowing amino acids to reconstruct independently. Nat. Biotechnol. 2002, 20, 1251-1255.) was proposed, but they could not fundamentally solve this problem

Method used

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  • Method of modifying gene and obtained recombinant gene and encoded protin
  • Method of modifying gene and obtained recombinant gene and encoded protin
  • Method of modifying gene and obtained recombinant gene and encoded protin

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] A gene metk encoding adenosylmethionine synthetase (2.5.1.6) derived from Escherichia coli JM109 strain has the base sequence in SEQ ID No: 1 in the sequence table.

[0034] SEQ ID No: 1:

[0035] ATGGCAAAACACCTTTTTACGTCCGAGTCCGTCTCTGAAGGGCATCCTGACAA

[0036] AATTGCTGACCAAATTTCTGATGCCGTTTTAGACGCGATCCTCGAACAGGATC

[0037] CGAAAGCACGCGTTGCTTGCGAAACCTACGTAAAAACCGGCATGGTTTTAGTT

[0038] GGCGGCGAAATCACCACCAGCGCCTGGGTAGACATCGAAGAGATCACCCGTAA

[0039] CACCGTTCGCGAAATTGGCTATGTGCATTCCGACATGGGCTTTGACGCTAACT

[0040] CCTGTGCGGTTCTGAGCGCTATCGGCAAACAGTCTCCTGACATCAACCAGGGC

[0041] GTTGACCGTGCCGATCCGCTGGAACAGGGCGCGGGTGACCAGGGTCTGATGTT

[0042] TGGCTACGCAACTAATGAAACCGACGTGCTGATGCCAGCACCTATCACCTATG

[0043] CACACCGTCTGGTACAGCGTCAGGCTGAAGTGCGTAAAAACGGCACTCTGCCG

[0044] TGGCTGCGCCCGGACGCGAAAAGCCAGGTGACTTTTCAGTATGACGACGGCAA

[0045] AATCGTTGGTATCGATGCTGTCGTGCTTTCCACTCAGCACTCTGAAGAGATCG

[0046] ACCAGAAATCGCTGCAAGAAGCGGTAATGGAAGAGATCATCAAGCCAATTCTG

[0047] CCCGCTGAATGGCTGACTTCT...

Embodiment 2

[0077] A gene sam2 encoding adenosylmethionine synthetase (2.5.1.6) derived from Saccharomyces cerevisiae INVScI strain has the base sequence of SEQ ID No: 2 in the sequence table.

[0078] SEQ ID No: 2:

[0079] ATGTCCAAGAGCAAAACTTTTCTTATTTACCTCTGAATCCGTCGGTGAAGGTCA

[0080] CCCAGACAAGATTTGTGACCAAGTTTCTGATGCTATTTTGGACGCTTGTTTAG

[0081] AACAAGATCCATTCTCCAAGGTTGCCTGTGAAACAGCTGCCAAAACTGGTATG

[0082] ATTATGGTTTTCGGTGAAATTACCACCAAAGCTAGACTTGACTACCAACAAAT

[0083] AGTAAGAGATACCATCAAGAAGATTGGTTATGACGATTCTGCCAAGGGTTTCG

[0084] ACTACAAGACATGTAATGTTTTAGTAGCTATCGAACAACAATCTCCAGATATC

[0085] GCTCAAGGTCTGCACTATGAAAAGAGCTTAGAAGACTTAGGTGCTGGTGACCA

[0086] AGGTATAATGTTTGGTTACGCTACAGACGAAACTCCAGAAGGGTTACCATTGA

[0087]CCATTCTTTTGGCTCACAAATTGAACATGGCTATGGCAGATGCTAGAAGAGAT

[0088] GGTTCTCTCCCATGGTTGAGACCAGACACAAAGACTCAAGTCACTGTCGAATA

[0089] CGAAGACGACAATGGTAGATGGGTTCCAAAGAGGATAGATACCGTTGTTATTT

[0090] CTGCTCAACATGCTGATGAAATTTCCACCGCTGACTTGAGAACTCAACTTCAA

[0091] AAAGATATTGTT...

Embodiment 3

[0119] The metk and sam2 are shuffled by a new gene shuffling method to obtain a hybrid gene encoding a recombinase with high thermostability, which has the base sequence of SEQ ID No: 3 in the sequence table.

[0120] SEQ ID No: 3:

[0121] ATGTCCAAGAGCAAAACTTTTCTTATTTACCTCTGAATCCGTCGGTGAAGGTCA

[0122] CCCAGACAAGATTTGTGACCAAGTTTCTGATGCTATTTTGGACGCTTGTTTAG

[0123] AACAAGATCCATTCTCCAAGGTTGCCTGTGAAACAGCTGCCAAAACTGGTATG

[0124] ATTATGGTTTTCGGTGAAATTACCACCAAAGCTAGACTTGACTACCAACAAAT

[0125] AGTAAGAGATACCATCAAGAAGATTGGTTATGACGATTCTGCCAAGGGTTTCG

[0126] ACTACAAGACATGTAATGTTTTAGTAGCTATCGAACAACAATCTCCAGATATC

[0127] GCTCAAGGTCTGCACTATGAAAAGAGCTTAGAAGACTTAGGTGCTGGTGACCA

[0128] AGGTATAATGTTTGGTTACGCTACAAACGAAACTCCAGAAGGGTTACCATTGA

[0129] CCATTCTTTTGGCTCACAAATTGAACATGGCTATGGCAGATGCTAGAAGAGAT

[0130] GGTTCTCTCCCATGGTTGAGACCAGACACAAAGACTCAAGTCACTGTCGAATA

[0131] CGAAGACGACAATGGTAGATGGGTTCCAAAGAGGATAGATACCGTTGTTATTT

[0132] CTGCTCAACATGCTGATGAAATTTCCACCGCTGACTTGAGAACTCA...

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Abstract

This invention relates to a method for gene directed evolution, specifically, a method for gene recombination and application. The method comprises the steps of: dividing the reaction into two groups, performing recombination, mixing the two reactants, and performing a series of PCR reactions to realize gene recombination. The sequencing results show that the method is better than previous gene recombination methods, and is especially suitable for recombination of genes with low sequence identity. The effectivity of the method is testified by using adenosylmethionine synthetase genes from Escherichia coli and yeast as the starting genes, and can obtain high activity recombined enzyme.

Description

technical field [0001] The invention relates to a gene-guided evolution method, specifically a gene shuffling method and its application, and is a method especially suitable for inter-gene shuffling with low homology. Background technique [0002] Guided evolution is artificially creating special evolutionary conditions in the laboratory, simulating natural evolutionary mechanisms (such as mutations, recombination), and directional selection of protein molecules with desired properties without knowing the spatial structure and function of proteins. At present, this mechanism has been widely used in protein medicine, agriculture, chemical industry, bioengineering and other fields (Patten, P.A., Howard, R.J. & Stemmer, W.P.C. Applications of DNA shuffling to pharmaceuticals and vaccines.Curr Opin Biotechnol.1997,8 : 724-733) is especially applied to improve the activity of enzyme (Crameri, A., Raillard, S-A., Bermudez, E.&Stemmer, W.P.C.DNAshuffling of a family of genes from d...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C12N15/62C12N15/63C12N15/52C12N15/31C12N15/81
Inventor 吴文芳安迎锋吕安国
Owner SHENYANG INST OF APPL ECOLOGY CHINESE ACAD OF SCI
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