7dwa Citations

Functional and structural investigation of a novel β-mannanase BaMan113A from Bacillus sp. N16-5.

Liu W, Ma C, Liu W, Zheng Y, Chen CC, Liang A, Luo X, Li Z, Ma W, Song Y, Guo RT, Zhang T
Int J Biol Macromol 182 899-909 (2021)
Related entries: 7dv7, 7dvj, 7dvz, 7dw8

Cited: 7 times
EuropePMC logo PMID: 33865894

Abstract

Mannan is an important renewable resource whose backbone can be hydrolyzed by β-mannanases to generate manno-oligosaccharides of various sizes. Only a few glycoside hydrolase (GH) 113 family β-mannanases have been functionally and structurally characterize. Here, we report the function and structure of a novel GH113 β-mannanase from Bacillus sp. N16-5 (BaMan113A). BaMan113A exhibits a substrate preference toward manno-oligosaccharides and releases mannose and mannobiose as main hydrolytic products. The crystal structure of BaMan113A suggest that the enzyme shows a semi-enclosed substrate-binding cleft and the amino acids surrounding the +2 subsite form a steric barrier to terminate the substrate-binding tunnel. Based on these structural features, we conducted mutagenesis to engineer BaMan113A to remove the steric hindrance of the substrate-binding tunnel. We found that F101E and N236Y variants exhibit increased specific activity toward mannans comparing to the wild-type enzyme. Meanwhile, the product profiles of these two variants toward polysaccharides changed from mannose to a series of manno-oligosaccharides. The crystal structure of variant N236Y was also determined to illustrate the molecular basis underlying the mutation. In conclusion, we report the functional and structural features of a novel GH113 β-mannanase, and successfully improved its endo-acting activity by using structure-based engineering.

Reviews citing this publication (4)

  1. Stachybotrys chartarum-A Hidden Treasure: Secondary Metabolites, Bioactivities, and Biotechnological Relevance. Ibrahim SRM, Choudhry H, Asseri AH, Elfaky MA, Mohamed SGA, Mohamed GA. J Fungi (Basel) 8 504 (2022)
  2. Enzymatic Conversion of Mannan-Rich Plant Waste Biomass into Prebiotic Mannooligosaccharides. Hlalukana N, Magengelele M, Malgas S, Pletschke BI. Foods 10 2010 (2021)
  3. Recent advances in biotransformation, extraction and green production of D-mannose. Wang P, Zheng Y, Li Y, Shen J, Dan M, Wang D. Curr Res Food Sci 5 49-56 (2022)
  4. Towards an understanding of the enzymatic degradation of complex plant mannan structures. Mafa MS, Malgas S. World J Microbiol Biotechnol 39 302 (2023)

Articles citing this publication (3)

  1. A novel neutral thermophilic β-mannanase from Malbranchea cinnamomea for controllable production of partially hydrolyzed konjac powder. Li YX, Wang NN, Yan QJ, Hua XH, Liu Y, Jiang ZQ. Appl Microbiol Biotechnol 106 1919-1932 (2022)
  2. High NaCl concentrations induce the resistance to thermal denaturation of an extremely halotolerant (salt-activated) β-mannanase from Bacillus velezensis H1. Djelid H, Flahaut S, Oudjama Y, Wauven CV, Kacem Chaouche N. World J Microbiol Biotechnol 39 304 (2023)
  3. Identification and Characterization of a Novel Mannanase from Klebsiella grimontii. Chen C, Li K, Li T, Li J, Liu Q, Yin H. Bioengineering (Basel) 10 1230 (2023)


Related citations provided by authors (1)

  1. Functional and structural investigation of a Novel beta-Mannanase BaMan113B from Bacillus sp. N16-5. Liu WT, Liu WD, Zheng YY To be published -

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