许平

教授|上海交通大学

论文

  1. Structural and computational studies of the maleate isomerase fromPseudomonas putida S16 reveal a breathing motion wrapping the substrate inside..Chen D, Tang H, Lv Y, Zhang Z, Shen K, Lin K, Zhao YL, Wu G,Xu P.Mol Microbiol..
  2. Characterization of twoStreptomyces enzymes that convert ferulic acid to vanillin..Yang W, Tang H, Ni J, Wu Q, Hua D, Tao F Xu P.PLoS ONE.
  3. Carotenoids play a positive role in the degradation of heterocycles by Sphingobium yanoikuyae..Liu X, Gai Z, Tao F, Tang H, Xu P.PLoS ONE.
  4. Genomic analysis ofPseudomonas putida: genes in a genome island are crucial for nicotine degradation..Tang H, Yao Y, Wang L, Yu H, Ren Y, Wu G, Xu P.Sci Rep.
  5. A novel NADH-dependent and FAD-containing hydroxylase is crucial for nicotine degradation byPseudomonas putida..Tang H, Yao Y, Zhang D, Meng X, Wang L, Yu H, Ma L, Xu P.J Biol Chem.
  6. Biotechnological routes based on lactic acid production from biomass.Gao C, Ma C, Xu P.Biotechnol Adv.
  7. Recent advances in biotechnological production of 2-phenylethanol..Hua D, Xu P.Biotechnol Adv.
  8. One-pot bio-synthesis: N-acetyl-d-neuraminic acid production by a powerful engineered whole-cell catalyst..Tao F, Zhang Y, Ma C, Xu P.Sci Rep.
  9. Immobilization of lipases onto magnetic Fe3O4 nanoparticles for application in biodiesel production..Wang X, Dou P, Zhao P, Zhao C, Ding Y, Xu P.ChemSusChem.
  10. New metabolites in dibenzofuran cometabolic degradation by a biphenyl-cultivated Pseudomonas putida strain B6-2.Li Q, Wang X, Yin G, Gai Z, Tang H, Ma C, Deng Z, Xu P.Environ Sci Technol.
  11. Pulp mill wastewater sediment reveals novel methanogenic and cellulolytic populations..Yang C, Wang W, Du M, Li C, Ma C, Xu P.Water Res.
  12. Rationally re-designed mutation of NAD-independent l-lactate dehydrogenase: high optical resolution of racemic mandelic acid by the engineered Escherichia coli..Jiang T, Gao C, Dou P, Ma C, Kong J, Xu P.Microb Cell Fact.
  13. The genes coding for the conversion of carbazole to catechol are flanked by IS6100 elements in Sphingomonas sp. strain XLDN2-5.Gai Z, Wang X, Liu X, Tai C, Tang H, He X, Wu G, Deng Z, Xu P.PLoS ONE.
  14. Chemoenzymatic synthesis of N-acetyl-d-neuraminic acid from N-acetyl- d-glucosamine using the spore surface displayed N-acetyl- d-neuraminic acid aldolase..Gao C, Xu X, Zhang X, Che B, Ma C, Qiu J, Tao F, Xu P.Appl Environ Microbiol.
  15. Novel nicotine oxidoreductase-encoding gene involved in nicotine degradation by Pseudomonas putida strain S16..Tang H, Wang L, Meng X, Ma L, Wang S, He X, Wu G, Xu P.Appl Environ Microbiol.
  16. A novel gene, encoding 6-hydroxy-3-succinoylpyridine hydroxylase, involved in nicotine degradation by Pseudomonas putida strain S16..Tang H, Wang S, Ma L, Meng X, Deng Z, Zhang D, Ma C, Xu P.Appl Environ Microbiol.
  17. Efficient whole-cell biocatalytic synthesis of N-acetyl-d-neuraminic acid..Xu P, Qiu J, Zhang Y, Chen J, Wang P, Yang B, Song J, Xi R, Deng Z, Ma C.Adv Synth Catal.
  18. Microbial transformation of propenylbenzenes for natural flavour production..Xu P, Hua D, Ma C.Trends Biotechnol.
  19. Acetoin metabolism in bacteria..Xiao Z, Xu P.Crit Rev Microbiol.
  20. Microbial degradation of sulfur, nitrogen and oxygen heterocycles..Xu P, Yu B, Li FL, Cai XF, Ma CQ.Trends Microbiol.

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