Carbonyl reductase, gene and mutant and application thereof to asymmetrical reduced carbonyl compound
A technology for carbonyl compounds and amino acids, applied in the field of bioengineering, can solve the problems of low product concentration, low optical purity, low enzyme catalytic activity, etc.
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Embodiment 1
[0084] Example 1 Cloning of carbonyl reductase gene
[0085] According to the gene sequence (NCBI accession number: CAG58832) predicted to be Candida glabrata carbonyl reductase included in Genbank, the PCR primers were designed as follows:
[0086] CgKR1f: 5'- CATATG GCTTCTGATAACAGCAAC-3';
[0087] CgKR1r: 5'- GGATCC TTAATTAGAGTTCTTCTCGGC-3'.
[0088] Among them, the underlined part of the upstream primer is the Nde Ⅰ restriction site, and the underlined part of the downstream primer is the BamH Ⅰ restriction site.
[0089] The genomic DNA of Candida glabrata CGMCC 2.234 was used as a template for PCR amplification. PCR system: 10 μl of 2×Taq PCR MasterMix, 1 μl of upstream primer and downstream primer (0.3 μmol / L), 1 μl of DNA template (0.1 μg) and ddH 2 O 7 μl. PCR amplification steps are: (1) 95°C, pre-denaturation for 3min; (2) 94°C, denaturation for 1min; (3) 55°C for 30s; (4) 72°C extension for 1min; steps (2) to (4) repeated 30 times; (5) Continue extending at...
Embodiment 2
[0090] Example 2 Site-directed mutation of CgKR1 gene
[0091] Base mutation was performed on the full-length gene sequence of carbonyl reductase (SEQ ID No.1) of Candida glabrata CGMCC 2.234 obtained in Example 1.
[0092] Design PCR primers as follows:
[0093] Mutation V85I:
[0094] Upstream primer: 5'-CAAGGTTATCTTACACACCGCCTCTCC-3'
[0095] Downstream primer: 5'-CGGTGTGTAAGATAACCTTGATATCCTTGCCATG-3'
[0096] Mutation F92L:
[0097] Upstream primer: 5'-CCGCCTTCCACTGCACTTCAAACACCACTGACATT-3'
[0098] Downstream primer: 5'-GTGCAGTGGAGAGGCGGTGTGTAAG-3'
[0099] Mutation F94V:
[0100] Upstream primer: 5'-CACACCGCCTCTCCATTCCACGTTAACACCACTGA
[0101] CATTGAA-3'
[0102] Downstream primer: 5'-TGGAGAGGCGGTGTG-3'
[0103] Mutation I99Y:
[0104] Upstream primer: 5'-CCACTGACTATGAAAAGGATCTATTGATCCC-3'
[0105] Downstream primer: 5'-GATCCTTTTCATAGTCAGTGGTGTTGAAGTGG-3'
[0106] Mutation G174A:
[0107] Upstream primer: 5'-CCAATCAGAGCTTACTGTGGTTCAAAGAAGTTTG-3'
[0108] Do...
Embodiment 3
[0123] Example 3 Construction of recombinant expression vector (plasmid) and preparation of recombinant expression transformant
[0124] Digest the carbonyl reductase gene DNA fragment obtained in Example 1 or 2 at 37°C with restriction endonucleases NdeI and BamHI for 12 hours, purify by agarose gel electrophoresis, and recover using an agarose gel DNA recovery kit target fragment. Under the action of T4 DNA ligase, the target fragment was ligated with the plasmid pET28a that was also digested with NdeI and BamHI at 4°C overnight to obtain the recombinant expression plasmid pET28a-CgKR1 and its mutants. The plasmid construction map is as follows: Figure 5 shown.
[0125] Transform the above-mentioned recombinant expression plasmid into Escherichia coli (E.coli) DH5α competent cells, the transformation conditions are 45°C, heat shock for 90 seconds, and positive recombinants are screened on the resistance plate containing kanamycin , pick a single clone, colony PCR verifica...
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