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A kind of amylosucrase mutant that improves turanose production

A technology of amylosucrase and mutants, applied in the field of genetic engineering and enzyme engineering, can solve the problems of reducing the concentration of sucrose and affecting the final yield of turanose, etc., and achieve the effect of improving the conversion rate

Active Publication Date: 2022-03-15
JIANGNAN UNIV RUGAO FOOD BIOTECH RES INST +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Therefore, in the preparation process of turanose, although the polymerization reaction catalyzed by amylosucrase will be inhibited by high concentration of sucrose to a certain extent, the concentration of sucrose will decrease when the reaction reaches a certain level, and the occurrence of polymerization will still affect the content of turanose. Final Yield of Disaccharides

Method used

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  • A kind of amylosucrase mutant that improves turanose production
  • A kind of amylosucrase mutant that improves turanose production
  • A kind of amylosucrase mutant that improves turanose production

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] Embodiment 1: Construction of recombinant bacteria

[0039] According to the amino acid sequence of amylosucrase dgas on NCBI (PDB ID: 3UER), the dgas gene encoding amylosucrase was synthesized by chemical synthesis. The plasmid used to construct recombinant E. coli was pET24a(+) with T7 promoter. The pET24a(+) plasmid and dgas gene were double-digested with Nde I and Hind III, respectively, and the digested products were recovered by tapping the rubber, then ligated with T4 ligase, and the ligated products were transformed into E.coli JM109 competent cells to obtain recombinant cells. The recombinant cells were cultured at 37°C for 8 hours, and the transformants were picked and cultured with shaking in LB liquid medium (containing 30 mg / L kanamycin), the plasmid was extracted, and the expression plasmid dgas / pET24a(+) was obtained after enzyme digestion verification.

[0040] Transform the plasmid dgas / pET24a(+) into E.coli BL21(DE3) host bacteria, spread on LB plates...

Embodiment 2

[0041] Embodiment 2: the preparation of amylosucrase mutant

[0042] According to the dgas gene sequence of the amylosucrase synthesized by the chemical synthesis method in Example 1, the primers for introducing the D447V mutation were designed and synthesized, the site-directed mutation was carried out to the amylosucrase dgas gene, the DNA sequence after the mutation was determined, and the original code 447 was identified The codon for Asp at bit 1 becomes the codon encoding Val. The expression vector carrying the mutated gene encoding amylosucrase is introduced into Bacillus subtilis, Escherichia coli or Bacillus pumilus for expression to obtain the single mutant amylosucrase.

[0043]Site-directed mutation of the single mutation D447V; rapid PCR technology was used to use the expression vector dgas / pET24a(+) carrying the wild-type amylosucrase gene as a template. The primers for introducing the D447V mutation are:

[0044] The nucleotide sequence is the forward primer o...

Embodiment 3

[0052] Example 3: Fermentation of amylosucrase mutants

[0053] Pick the recombinant strain E.coli J BL21(DE3) / dgas / pET24a(+)-D447V and grow it in LB liquid medium (containing 30μg / mL kanamycin) for 8-10h. Received into TB medium (containing 30 μg / mL kanamycin), cultured OD in a shaker at 37°C 600 After reaching 0.2, add 0.4mM isopropyl β-D-1-thiogalactopyranoside (IPTG) for induction, ferment at 25°C for 24h, centrifuge the fermentation broth at 4°C, 8000rpm for 10min and discard clear, collect the bacteria to 30OD, and reconstitute with pH 7.4 PBS buffer, then perform high-pressure homogenization to break the wall, centrifuge at 8000rpm for 10min, and collect the supernatant to obtain the mutant crude enzyme solution.

[0054] Using the same method, the broken enzyme solution obtained by fermenting the recombinant strain E.coli J BL21(DE3) / dgas / pET24a(+) in Example 1 was used as the wild enzyme crude enzyme solution.

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Abstract

The invention discloses an amylosucrase mutant capable of improving the yield of turanose, and belongs to the fields of genetic engineering and enzyme engineering. The amylosucrase mutant D447V is obtained by mutating the 447th aspartic acid of the amylosucrase derived from Deinococcus Geothermalis to valine. The amylosucrase mutant D447V was applied to the production of turanose. Under the reaction conditions of pH 7.0 and 35°C, the yield of turanose was 57.01 g / L, which was 1.8 times that of the wild enzyme. Therefore, the amylosucrase mutant of the present invention can be applied in the preparation of turanose to improve the conversion rate of turanose.

Description

technical field [0001] The invention relates to an amylosucrase mutant capable of improving the yield of turanose, belonging to the fields of genetic engineering and enzyme engineering. Background technique [0002] Turanose is a reducing disaccharide naturally present in honey. It is formed by connecting a molecule of glucose and a molecule of fructose with α-1,3 glycosidic bonds. It is an isomer of sucrose, and its sweetness is that of sucrose. half. Turarose has the characteristics of easy crystallization, high solubility, slow hydrolysis rate, and will not be fermented by cariogenic microorganisms. It is suitable for people with obesity, hyperlipidemia, high blood pressure, and diabetes. It has broad application prospects in the food industry and has the potential to replace sucrose as a new type of functional sweetener. In addition, turanose can also be widely used in medicine, cosmetics and other fields, and is a high value-added product. [0003] There are currentl...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C12N9/10C12N15/70C12P19/12
CPCC12N9/1051C12N15/70C12P19/12C12Y204/01004
Inventor 吴敬吴丹宿玲恰赵雅琪
Owner JIANGNAN UNIV RUGAO FOOD BIOTECH RES INST