1.Chen D, Tang H, Lv Y, Zhang Z, Shen K, Lin K, Zhao YL, Wu G*,Xu P*.Structural and computational studies of the maleate isomerase fromPseudomonas putidaS16 reveal a breathing motion wrapping the substrate inside.Mol Microbiol.2013, 87(6):1237-1244.
2.Yang W, Tang H, Ni J, Wu Q, Hua D, Tao FXu P*.Characterization of twoStreptomycesenzymes that convert ferulic acid to vanillin.PLoS ONE. 2013, 8(6):e67339.
3.Liu X,Gai Z,Tao F,Tang H,Xu P*.Carotenoids play a positive role in the degradation of heterocycles bySphingobium yanoikuyae.PLoS ONE2012, 7(6):e39522.
4.Tang H, Yao Y, Wang L, Yu H, Ren Y, Wu G,Xu P*.Genomic analysis ofPseudomonas putida: genes in a genome island are crucial for nicotine degradation.Sci Rep.2012, 2:377.
5.Tang H, Yao Y, Zhang D, Meng X, Wang L, Yu H, Ma L,Xu P*. A novel NADH-dependent and FAD-containing hydroxylase is crucial for nicotine degradation byPseudomonas putida.J Biol Chem.2011,286(45):39179-39187.
6.Gao C, Ma C,Xu P*.Biotechnological routes based on lactic acid production from biomass.Biotechnol Adv.2011, 29(6):930-939.
7.Hua D,Xu P*.Recent advances in biotechnological production of 2-phenylethanol.Biotechnol Adv.2011, 29(6):654-660.
8.Tao F, Zhang Y, Ma C,Xu P*. One-pot bio-synthesis:N-acetyl-d-neuraminic acid production by a powerful engineered whole-cell catalyst.Sci Rep.2011, 1:142.
9.Wang X, Dou P, Zhao P, Zhao C, Ding Y,Xu P*. Immobilization of lipases onto magnetic Fe3O4nanoparticles for application in biodiesel production.ChemSusChem,2009, 2(10):947-950.
10.Li Q, Wang X, Yin G, Gai Z, Tang H, Ma C, Deng Z,Xu P*. New metabolites in dibenzofuran cometabolic degradation by a biphenyl-cultivatedPseudomonas putidastrain B6-2.Environ Sci Technol.2009, 43(22):8635-8642.
11.Yang C, Wang W, Du M, Li C, Ma C,Xu P*. Pulp mill wastewater sediment reveals novel methanogenic and cellulolytic populations.Water Res.2013, 47(2):683-692.
12.Jiang T, Gao C, Dou P, Ma C, Kong J,Xu P*. Rationally re-designed mutation of NAD-independentl-lactate dehydrogenase: high optical resolution of racemic mandelic acid by the engineeredEscherichia coli.Microb Cell Fact.2012, 11:151.
13.Gai Z,Wang X,Liu X,Tai C,Tang H,He X,Wu G,Deng Z,Xu P*.The genes coding for the conversion of carbazole to catechol are flanked by IS6100 elements inSphingomonassp. strain XLDN2-5.PLoS ONE.2010,5(4): e10018.
14.Gao C,Xu X,Zhang X,Che B,Ma C,Qiu J,Tao F,Xu P*.Chemoenzymatic synthesis ofN-acetyl-d-neuraminic acid fromN-acetyl-d-glucosamine using the spore surface displayedN-acetyl-d-neuraminic acid aldolase.Appl Environ Microbiol.2011,77(19):7080-7083.
15.Tang H,Wang L,Meng X,Ma L,Wang S,He X,Wu G,Xu P*.Novel nicotine oxidoreductase-encoding gene involved in nicotine degradation byPseudomonas putidastrain S16.Appl Environ Microbiol.2009, 75(3):772-778.
16.Tang H,Wang S,Ma L,Meng X,Deng Z,Zhang D,Ma C,Xu P*. A novel gene, encoding 6-hydroxy-3-succinoylpyridine hydroxylase, involved in nicotine degradation byPseudomonas putidastrain S16.Appl Environ Microbiol.2008, 74(5):1567-1574.
17.Xu P*, Qiu J, Zhang Y, Chen J, Wang P, Yang B, Song J, Xi R, Deng Z, Ma C.Efficient whole-cell biocatalytic synthesis of N-acetyl-d-neuraminic acid.Adv Synth Catal.2007, 349(10): 1614-1618.
18.Xu P*,Hua D,Ma C.Microbial transformation of propenylbenzenes for natural flavour production.Trends Biotechnol.2007, 25(12):571-576
19.Xiao Z,Xu P*.Acetoin metabolism in bacteria.CritRev Microbiol.2007, 33(2):127-140.
20.Xu P*,Yu B,Li FL,Cai XF,Ma CQ.Microbial degradation of sulfur, nitrogen and oxygen heterocycles.Trends Microbiol.2006, 14(9):398-405.