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基因组学与生物技术

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Jiyinzuxue Yu Shengwu Jishu (Online), 2012, Vol.1, No.8, 45

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Arino S., Marchal R., and Vandecasteele J.P., 1998,

Involvement of a rhamnolipid-producing strain of

Pseudomonas aeruginosa

in the degradation of polycyclic

aromatic hydrocarbons by a bacterial community, J. Appl.

Microbiol., 84(5): 769-776 PMid: 10528035

Chen Y.X., Liu H., Zhu L.C., and Jin Y.F., 2004, Cloning and

characterization of a chromosome-encoded catechol 2,

3-dioxygenase gene from

Pseudomonas aeruginosa

ZD

4-3, Microbiol.,73(6): 802-809 PMid: 19126194 PMCid:

2667167

Das K., and Mukherjee A.K., 2007, Crude petroleum-oil

biodegradation efficiency of Bacillus subtilis and

Pseud-

omonas aeruginosa

strains isolated from a petroleum-oil

contaminated soil from North-East India, Bioresour. Tech-

nol., 98(7): 1339-1345http://dx.doi.org/ 10.1016/j.biortech.

2006.05.032 PMid:16828284

Dinu L.D., Matei P.S., Jurcoane S., and Stoica I., 2011,

Biodegradation of karathane using adapted

Pseudomonas

aeruginosa

in scale up process, Rom. Biotech. Lett., 16(2):

6048-6054

Dusane H.D., Zinjarde S.S., Venugopalan V.P., Mclean R.J.C.,

Weber M.M., and Rahman P.K.S.M., 2010, Quorum

sensing: Implications on rhamnolipid biosurfactant produ-

ction, Biotechnol. Genet. Eng. Rev., 27: 159-184 PMid:

21415897

Fu H.Y., Chai T., and Jin L., 2009, Biodegradation of

rhamnolipid in the liquid culture media and composting

matrix, Xiamen Ligong Xueyuan Xuebao (Journal of

Xiamen University of Technology), 17(2): 52-56 (

傅海燕

,

柴天

,

金磊

, 2009, RL

在液态培养条件及堆肥介质中的

生物降解研究

,

厦门理工学院学报

, 17(2): 52-56)

Harayama S., Rekik M., Wasserfallen A., and Bairoch A., 1987,

Evolutionary relationships between catabolic pathways for

aromatics: Conservation of gene order and nucleotide

sequences of catechol oxidation genes of pWW0 and

NAH7 plasmids, Mol. Gen. Genet., 210(2): 241-247

http://dx.doi.org/10.1007/BF00325689 PMid:3481421

Hatamian-Zarmi A., Shojaosadati S.A., Vasheghani-Farahani E.,

Hosseinkhani S., and Emamzadeh A., 2009, Extensive

biodegradation of highly chlorinated biphenyl and aroclor

1242 by

Pseudomonas aeruginosa

TMU56 isolated from

contaminated soils, Int. Biodter. Biodegr., 63(6): 788-794

PMid: 16410924

Hickey W.J., and Focht D.D., 1990, Degradation of mono-, di-,

and trihalogenated benzoic acids by

Pseudomonas

aeruginosa

JB2, Appl. Environ. Microbiol., 56(12): 3842-

3850 PMid:18853023

Hickey W.J., Sabat G., Yuroff A.S., Arment A.R., and Pérez-

Lesher J., 2001, Cloning nucleotide sequencing and

functional analysis of a novel mobile cluster of

biodegradation genes from

Pseudomonas aeruginosa

Strain JB2, Appl. Environ. Microbiol., 67(10): 4603-4609

http://dx.doi.org/10.1128/AEM.67.10.4603-4609.2001 PMid:

11571162 PMCid:93209

Holden P.A., LaMontagne M.G., Bruce A.K., Miller W.G., and

Lindow S.E., 2002, Assessing the role of

Pseudomonas

aeruginosa

surface-active gene expression in hexadecane

biodegradation in sand, Appl. Environ. Microbiol., 68(5):

2509-2518 http://dx.doi.org/10.1128/AEM.68.5.2509-2518.

2002 PMid:11976128 PMCid:127520

Itoh S., and Suzuki T., 1972, Effect of rhamnolipids on growth

of

Pseudomonas aeruginosa

mutant deficient in n-paraffin

utilizing ability, Agric. Biol. Chem., 36: 2233-2235 http://

dx.doi.org/10.1271/bbb1961.36.2233

Liang S.K., Su R.G., Wang X.L., Zhou A.H., and Wang W.D.,

2006, Biosurfactant-enhanced mechanisms during uptake

of alkane, Yingyong Yu Huanjingshengwu Xuebao

(Chinese Journal of Applied & Environmental Biology),

12(4): 566-569 (

梁生康

,

苏荣国

,

王修林

,

周爱华

,

汪

卫东

, 2006,

生物表面活性剂对铜绿假单胞菌摄取烷烃

的强化机制

,

应用与环境生物学报

, 12(4): 566-569)

Liu H., Wu J.Y., and Chen Y.X., 2004, Biodegradation

mechanism of aromatic compounds by

Comamonas

testosteroni

ZD4-1 and

Pseudomonas aeruginosa

ZD4-3,

Weishengwu Xuebao (Acta Microbiologica Sinica), (1):

107-110 (

刘和

,

吴坚阳

,

陈英旭

, 2004,

丛毛睾丸酮单

胞菌

ZD4-1

和铜绿假单胞菌

ZD4-3

降解芳香烃化合物

的机理

,

微生物学报

, (1): 107-110) http://dx.doi.org/10.

1016/j.wear.2003.12.012

Li X.J., Yao R.S., Wang H., and Cheng S.S., 2010, The study

on biodegradation of 4-chlorophemol by

Pseudomonas

aeruginosa

TBPY, Huanjing Huaxue (Environmental

Chemistry), 29(5): 914-918 (

李晓菊

,

姚日生

,

王淮

,

程

莎莎

, 2010,

铜绿假单胞菌

(TBPY)

降解对氯苯酚的特性

,

环境化学

, 29(5): 914-918)

Li Z.G., 2011, Mutation breeding of Bacillus Studies on the

degradation of phenanthrene and naphthalene by

Pseudo-

monas aeruginosa

PAO1, Thesis for M.S., North- west Uni-

versity, Supervisor: Shen L.X., pp.42-46 (

李兆格

, 2011,

芽

胞杆菌诱变育种铜绿假单胞菌

PAO1

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