[1] Jaeger KE, DljkstraI BW, Reetz MT. Bacterial biocatalysts:molecular biology, three-dimensional structures and biotechnological applications of lipases[J] . Annu Rev Microbiol, 1999, 53:315-351.
[2] Hasan F, Shah AA, Hameed A. Industrial applications of microbial lipases[J] . Enzyme Microb Technol, 2006, 39(2):235-251.
[3] van Pouderoyen G, Eggert T, Jaeger KE, et al. The crystal structure of Bacillus subtilis lipase:a minimal α/β hydrolase fold enzyme[J] . J Mol Biol, 2001, 309(1):215-226.
[4] Reetz MT, Carballeira JD. Iterative saturation mutagenesis(ISM)for rapid directed evolution of functional enzymes[J] . Nat Protoc, 2007, 2(4):891-903.
[5] Zhang XZ, Zhang Y. Simple, fast and high-efficiency transformation system for directed evolution of cellulase in Bacillus subtilis[J] . Microb Biotechnol, 2011, 4(1):98-105.
[6] Vojcic L, Despotovic D, Martinez R, et al. An efficient transformation method for Bacillus subtilis DB104[J] . Appl Microbiol Biotechnol, 2012, 94(2):487-493.
[7] Becker S, Schmoldt HU, Adams TM, et al. Ultra-high-throughput screening based on cell-surface display and fluorescence-activated cell sorting for the identification of novel biocatalysts[J] . Curr Opin Biotechnol, 2004, 15(4):323-329.
[8] Yang G, Withers SG. Ultrahigh-throughput FACS-based screening for directed enzyme evolution[J] . Chembiochem, 2009, 10(17):2704-2715.
[9] Baek JH, Han MJ, Lee SH, et al. Enhanced display of lipase on the Escherichia coli cell surface, based on transcriptome analysis[J] . Appl Environ Microbiol, 2010, 76(3):971-973.
[10] Lee SH, Choi JI, Park SJ, et al. Display of bacterial lipase on the Escherichia coli cell surface by using FadL as an anchoring motif and use of the enzyme in enantioselective biocatalysis[J] . Appl Environ Microbiol, 2004, 70(9):5074-5080.
[11] Narita J, Okano K, Tateno T, et al. Display of active enzymes on the cell surface of Escherichia coli using PgsA anchor protein and their application to bioconversion[J] . Appl Microbiol Biotechnol, 2006, 70(5):564-572.
[12] Kranen E, Detzel C, Weber T, et al. Autodisplay for the co-expression of lipase and foldase on the surface of E. coli:washing with designer bugs[J] . Microb Cell Fact, 2014, 13:19.
[13] Rutherford N, Mourez M. Surface display of proteins by Gram-negative bacterial autotransporters[J] . Microb Cell Fact, 2006, 5:22.
[14] Yang TH, Kwon MA, Song JK, et al. Functional display of Pseudomonas and Burkholderia lipases using a translocator domain of EstA autotransporter on the cell surface of Escherichia coli[J] . J Biotechno, 2010, 146(3):126-129.
[15] Veiga E, de Lorenzo V, Fernández LA. Probing secretion and translocation of a beta-autotransporter using a reporter single-chain Fv as a cognate passenger domain[J] . Mol Microbiol, 1999, 33(6):1232-1243.
[16] Hiol A, Jonzo MD, Rugani N, et al. Purification and characterization of an extracellular lipase from a thermophilic Rhizopus oryzae strain isolated from palm fruit[J] . Enzyme Microb Technol, 2000, 26(5-6):421-430.
[17] Kordel M, Hofmann B, Schomburg D, et al. Extracellular lipase of Pseudomonas sp. strain ATCC 21808:purification, characterization, crystallization, and preliminary X-ray diffraction data[J] . J Bacteriol, 1991, 173(15):4836-4841.
[18] Becker S, Theile S, Heppeler N, et al. A generic system for the Escherichia coli cell-surface display of lipolytic enzymes[J] . FEBS Lett, 2005, 579(5):1177-1182.
[19] Wilhelm S, Tommassen J, Jaeger KE. A novel lipolytic enzyme located in the outer membrane of Pseudomonas aeruginosa[J] . J Bacteriol, 1999, 181(22):6977-6986.
[20] van den Berg B. Crystal structure of a full-length autotransporter [J] . J Mol Biol, 2010, 396(3):627-633.
[21] Yang TH, Pan JG, Seo YS, et al. Use of Pseudomonas putida EstA as an anchoring motif for display of a periplasmic enzyme on the surface of Escherichia coli[J] . Appl Environ Microbio, 2004, 70(12):6968-6976.
[22] Nicolay T, Lemoine L, Lievens E, et al. Probing the applicability of autotransporter based surface display with the EstA autotransporter of Pseudomonas stutzeri A15[J] . Microb Cell Fact, 2012, 11:158. |