中文
Earlier issues
Announcement
More
Progress in Chemistry 2009, Vol. 21 Issue (6): 1118-1123 Previous Articles   Next Articles

• Review •

Molecular Behavior of Microbial Lipopeptides at the Air/Water Interface

Song Changsheng1,2;  |Ye Ruqiang1;  |Mu Bozhong1   

  1. (1. Institute of Applied Chemistry, East China University of Science and Technology, Shanghai 200237, China;2. Taicang Entry &ndash|Exit Inspection and Quarantine, Jiangsu 215400, China)
  • Received: Revised: Online: Published:
  • Contact: Mu Bozhong E-mail:bzmu@ecust.edu.cn
PDF ( 1334 ) Cited
Export

EndNote

Ris

BibTeX

The microbial lipopeptides, which is an important kind of biosurfactants, possesses powerful surface activities and peculiar biological properties. The primary structure of the lipopeptides is mainly composed of a hydrophilic peptide moiety and a hydrophobic alkyl chain. Because of its chemical composition and amphiphilic behavior, the lipopeptides can be exploited in many fields such as pharmaceutics, food and cosmetic industries, environmental remediation and oil recovery. The surfactin, primarily renowned for its exceptional surface activities as well as biological properties, is one of the most active microbial lipopeptides. Surface-active and biological properties mainly occur at interfaces and are governed by the conformational state of molecules at hydrophobic/hydrophilic interfaces. This paper reviews the recent progress in molecular behavior of microbial lipopeptides represented by surfactin at the air/water interface.

Contents
1 Introduction
2 Molecular behavior of microbial lipopeptide at the air/water interface
2.1 Insoluble monolayer studies
2.2 Mixed monolayer studies
2.3 Adsorbed layer studies at the air/water interface
3 Conclusions and perspectives

Key words: microbial lipopeptides, surfactin, air/water interface, molecular behavior

CLC Number: 

[ 1 ]  Deleu M, Razafindralambo H , Popineau Y, et al . Colloids Surf . A ,1999 , 152 : 3 —10
[ 2 ]  Cameotra S S , Makkar R S. Curr. Opin. Microbiol . , 2004 , 7 :262 —266
[ 3 ]  Yoneda T, Tsuzuki T, Ogata E , et al . J . Cosmet . Sci . , 2001 , 52 :153 —154
[ 4 ]  Singh P , Cameotra S S. Trends Biotechnol . , 2004 , 22 : 142 —146
[ 5 ]  Mulligan C N , Yong R N , Gibbs B F. Eng. Geol . , 2001 , 60 :371 —380
[ 6 ]  Schaller K D , Fox S L , Bruhn D F , et al . Appl . Biochem.Biotechnol . , 2004 , 115 : 827 —836
[ 7 ]  Banat I M, Makkar R S , Cameotra S S. Appl . Microbiol .Biotechnol . , 2000 , 53 : 495 —508
[ 8 ]  刘向阳(Liu X Y) , 杨世忠(Yang S Z) , 牟伯中(Mu B Z) . 生物技术通报(Biotechnology Bulletin) , 2005 , 4 : 18 —26
[ 9 ]  Arima K, Kakinuma A , Tamura G. Biochem. Biophys. Res.Commun. , 1968 , 31 : 488 —494
[10 ]  Peypoux F , Guinand M, Michel G, et al . Biochemistry , 1978 , 17 :3992 —3996
[11 ]  Vanittanakom N , Loeffler W, Koch U , et al . J . Antibiot . , 1986 ,39 : 888 —901
[12 ]  Yakimov MM, Abraham W R , Meyer H , et al . Biochim. Biophys.Acta , 1998 , 1438 : 273 —280
[13 ]  Rosenberg E , Ron E Z. Appl . Microbiol . Biotechnol . , 1999 , 52 :154 —162
[14 ]  Peypoux F , Bonmatin J M, Wallach J . Appl . Microbiol .Biotechnol . , 1999 , 51 : 553 —563
[15 ]  Ishigami Y, Osman M, Nakahara H , et al . Colloids Surf . B , 1995 ,4 : 341 —348
[16 ]  Kameda Y, Oira S , Matsui K, et al . Chem. Pharm. Bull . , 1974 ,22 : 938 —944
[17 ]  Bernheimer A W, Avigad L S. J . Gen. Microbiol . , 1970 , 61 :361 —369
[18 ]  Vollenbroich D , Pauli G, Ozel M, et al . Appl . Environ.Microbiol . , 1997 , 63 : 44 —49
[19 ]  Kracht M, Rokos H , Ozel M, et al . J . Antibiot . , 1999 , 52 : 613 —619
[20 ]  Sheppard J D , Jumarie C , Cooper D G, et al . Biochim. Biophys.Acta , 1991 , 1064 : 13 —23
[21 ]  Heerklotz H , Seelig J . Eur. Biophys. J . , 2007 , 36 : 305 —314
[22 ]  Eeman M, Berquand A , Dufrene Y F , et al . Langmuir , 2006 , 22 :11337 —11345
[23 ]  Infante M R , Moses V. Int . J . Peptide Protein Res. , 1994 , 43 :173 —179
[24 ]  Maget-Dana R. Biochim. Biophys. Acta , 1999 , 1462 : 109 —140
[25 ]  Maget-Dana R , Ptak M. J . Colloid Interface Sci . , 1992 , 153 :285 —291
[26 ]  Gallet X, Deleu M, Razafindralambo H , et al . Langmuir , 1999 ,15 : 2409 —2413
[27 ]  Song C S , Ye R Q , Mu B Z. Colloids Surf . A , 2007 , 302 : 82 —87
[28 ]  郭浩(Guo H) , 戴树玺(Dai S X) , 孙乘风(Sun C F) 等. 物理化学学报(Acta Phys. Chim. Sin. ) , 2006 , 22 : 1061 —1064
[29 ]  Youm S G, Paeng K, Choi Y W, et al . Langmuir , 2005 , 21 :5647 —5650
[30 ]  Alonso C , Alig T, Yoon J , et al . Biophys. J . , 2004 , 87 : 4188 —4202
[31 ]  Islam M N , Kato T. J . Chem. Phys. , 2004 , 121 : 10217 —10222
[32 ]  Wang L , Jacobi S , Sun J , et al . J . Colloid Interface Sci . , 2005 ,285 : 814 —820
[33 ]  Maget-Dana R , Ptak M. Biophys. J . , 1995 , 68 : 1937 —1943
[34 ]  Grau A , Gomez-Fernandez J C , Peypoux F , et al . Biochim.Biophys. Acta , 1999 , 1418 : 307 —319
[35 ]  Deleu M, Bouffioux O , Razafindralambo H , et al . Langmuir , 2003 ,19 : 3377 —3385
[36 ]  Liu X H , Huang WM, Wang E K. J . Electroanal . Chem. , 2005 ,577 : 349 —354
[37 ]  Brasseur R , Braun N , Kirat K E , et al . Langmuir , 2007 , 23 :9769 —9772
[38 ]  杨福愉(Yang F Y) . 生物膜(Biomembranes) . 北京: 科学出版社(Beijing : Science Press) , 2005
[39 ]  Maget2Dana R , Ptak M. Thin Solid Films , 1992 , 210P211 : 730 —732
[40 ]  Deleu M, Paquot M, Jacques P , et al . Biophys. J . , 1999 , 77 :2304 —2310
[41 ]  Dufrene Y F , Lee G U. Biochim. Biophys. Acta , 2000 , 1509 :14 —41
[42 ]  Deleu M, Nott K, Brasseur R , et al . Biochim. Biophys. Acta ,2001 , 1513 : 55 —62
[43 ]  Bouffioux O , Berquand A , Eeman M, et al . Biochim. Biophys.Acta , 2007 , 1768 : 1758 —1768
[44 ]  Razafindralambo H , Popineau Y, Deleu M, et al . Langmuir , 1997 ,13 : 6026 —6031
[45 ]  Eeman M, Deleu M, Paquot M, et al . Langmuir , 2005 , 21 :2505 —2511
[46 ]  Grau A , Ortiz A , Godos A , et al . Arch. Biochem. Biophys. ,2000 , 377 : 315 —323
[47 ]  Harnois I , Maget-Dana R , Ptak M. J . Colloid Interface Sci . , 1988 ,123 : 85 —91
[48 ]  Song C S , Ye R Q , Mu B Z. Colloids Surf . A , 2008 , 330 : 49 —54
[49 ]  Bonmatin J M, Laprevote O , Peypoux F. Comb. Chem. High Throughput Screening , 2003 , 6 : 541 —556
[50 ]  陈晓东(Chen X D) , 姜思光(Jiang S G) , 刘鸣华(Liu M H) . 化学进展(Prog. Chem. ) , 2003 , 15 : 367 —373
[1] Ganghua Deng, Hongfei Wang, Yuan Guo . Nonlinear Optical Spectroscopy Studies on Water and Electrolyte Aqueous Solution Interfaces - Specific Ion Effect at Air/Electrolyte Aqueous Solution Interfaces [J]. Progress in Chemistry, 0, (): 0-0.
[2] Liu Yuan, Ding Liping, Cao Yuan, Fang Yu. Research Progress in Fluorescent Sensor Arrays [J]. Progress in Chemistry, 0, (): 0-0.
[3] Li Hui, Zhao Yunhui, Yuan Xiaoyan. Anti-Icing Coatings: From Surface Chemistry to Functional Surfaces [J]. Progress in Chemistry, 2012, 24(11): 2087-2096.
[4] Deng Ganghua, Wang Hongfei, Guo Yuan. Nonlinear Optical Spectroscopy Studies on Water and Electrolyte Aqueous Solution Interfaces——Specific Ion Effect at Air/ Electrolyte Aqueous Solution Interfaces [J]. Progress in Chemistry, 2012, (10): 1865-1879.
[5] Liu Yuan, Ding Liping*, Cao Yuan, Fang Yu. Fluorescent Sensor Arrays [J]. Progress in Chemistry, 2012, (10): 1915-1927.
[6] Li Dayong, Wang Weijie, Zhao Xuezeng. Nanobubbles on the Immersed Substrates [J]. Progress in Chemistry, 2012, 24(08): 1447-1455.
[7] Si Fangfang, Zhang Liang, Zhao Ning, Chen Li, Xu Jian. Superhydrophilic Surfaces: Progress in Preparation Method and Application [J]. Progress in Chemistry, 2011, 23(9): 1831-1840.
[8] Yan Chao, Li Mei, Lu Qinghua. Progress in Liquid Marbles [J]. Progress in Chemistry, 2011, 23(4): 649-656.
[9] . Application of ATR-FTIR spectroscopy in the study of adsorption on environmental micro-interfaces [J]. Progress in Chemistry, 2010, 22(06): 1185-1194.
[10] Ke Qingping Li Guanglu Hao Tiange He Tao Li Xuemei. Superhydrophobicity: Theoretical Models and Mechanism [J]. Progress in Chemistry, 2010, 22(0203): 284-290.
[11] Liu Xiangmei He Junhui. Progress in Antifogging Technology —— from Surface Engineering to Functional Surfaces [J]. Progress in Chemistry, 2010, 22(0203): 270-276.
[12] Huang Chunyu1,Lu Nan1**,Chi Lifeng1, 2**. Surface Patterning Approaches Based on Langmuir-Blodgett Technique [J]. Progress in Chemistry, 2007, 19(06): 852-859.
[13] Zhang Xuehua,Hu Jun*5. Nanobubbles at the Solid/Water Interface [J]. Progress in Chemistry, 2004, 16(05): 673-.
[14] Lv Qing,Gong Haofei,Liu Minghua. Progress in Bolaamphiphile [J]. Progress in Chemistry, 2001, 13(03): 161-.
[15] Xin Houwen,Hou Zhonghuai. The Theoretical Study of Nonlinear Problems in Surface Chemical Reaction Systems [J]. Progress in Chemistry, 2000, 12(01): 1-.