藤壶分布范围极广,其通过分泌粘性极强的胶粘物,牢固附着在水下物体表面,可对船舶、码头、海水管线、养殖设施和近海结构物产生严重危害.研究藤壶胶粘物对开发新型污损生物防除技术和研制水下特种粘合剂具有重要的指导作用.综述了藤壶胶的结构、特性及固化交联作用机制,以期为相关研究提供借鉴和参考.
参考文献
| [1] | Matias J R;Rabenhorst J;Mary A et al.Marine biofouling testing of experimental marine paints:Technical considerations on methods,site selection and dynamic tests[J].Poseidon,2003,10:1. |
| [2] | Naldrett M J .The importance of sulphur cross-links and hydrophobic interactions in the polymerization of barnacle cement[J].Journal of the Marine Biological Association of the United Kingdom,1993,73(03):689. |
| [3] | 王春忠,严涛,张建明,曹文浩.污损生物附着对杂交鲍生长与存活的影响[J].热带海洋学报,2012(04):124-128. |
| [4] | 严涛,胡煜峰,王建军,曹文浩,郑成兴,林岳光.海水管道系统大型污损生物特点与防除对策[J].工业安全与环保,2013(03):43-45. |
| [5] | Abbott A .Bioadhesives:Potential for exploitation[J].Science Progress,1990,74:131. |
| [6] | 刘姗姗,严涛.海洋污损生物防除的现状及展望[J].海洋学研究,2006(04):53-60. |
| [7] | 曹文浩,严涛,刘永宏,程志强.海洋生物防污作用机制及应用前景[J].生态学杂志,2009(01):146-151. |
| [8] | 方芳,严涛.南海污损生物研究的现状及展望[J].热带海洋学报,2004(01):76-85. |
| [9] | Kamino K .Molecular design of barnacle cement in comparison with those of mussel and tubeworm[J].Journal of the Adhesion,2010,86:96. |
| [10] | 严文侠;董钰;尹芬 .网纹藤壶初生胶与次生胶比较[J].热带海洋,1983,8(02):231. |
| [11] | 严文侠;庞景梁;陈兴乾.网纹藤壶的附着[A].北京:科学出版社,1983:65. |
| [12] | Saroyan J R;Linder E;Dooley C A et al.Barnacle cementkey to second generation antifouling coatings[J].Industrial and Engineering Chemistry:Product Research and Development,1970,9:122. |
| [13] | Barlow D E;Dickinson G H;Orihuela B et al.In situ ATR-FTIR characterization of primary cement interfaces of the barnacle Balanus amphitrite[J].BIOFOULING,2009,25:359. |
| [14] | Ramana S;Kumara R .Interfacial morphology and nanomechanics of cement of the barnacle,Amphi-balanus reticulatus on metallic and non-metallic substrate[J].BIOFOULING,2011,27:569. |
| [15] | Cheung P J;Ruggieri G D;Nigrelli R F .A new method for obtaining barnacle cement in the liquid state for polymerization studies[J].Marine Biology,1977,43:157. |
| [16] | 李刚;刘承松 .网纹藤壶初生胶化学和物理性质的研究[J].海洋与湖沼,1978,9(02):224. |
| [17] | 严文侠;唐延林.网纹藤壶和高峰藤壶次生胶生化成份[A].北京:科学出版社,1981:145. |
| [18] | 严涛;方正信;张穗.藤壶胶组分的分离制备[J].热带海洋,1996(08):61. |
| [19] | Kamino K .Absence of cross-linking via trans-glutaminase in barnacle cement and redefinition of the cement[J].BIOFOULING,2010,26(07):755. |
| [20] | Barlow, D.E.;Dickinson, G.H.;Orihuela, B.;Kulp, J.L.;Rittschof, D.;Wahl, K.J. .Characterization of the adhesive plaque of the barnacle Balanus amphitrite: Amyloid-like nanofibrils are a major component[J].Langmuir: The ACS Journal of Surfaces and Colloids,2010(9):6549-6556. |
| [21] | Kamino K .Underwater adhesive of marine organisms as the vital link between biological science and material science.[J].Marine biotechnology,2008(2):111-121. |
| [22] | Power A M;Klepal W;Zheden V.Mechanisms of adhesion in adult barnacles[A].New York:Springer Vienna,2010:153. |
| [23] | Kamino K.Barnacle underwater adhesive[M].New Hampshire:Science Publishers,2006:145. |
| [24] | Kamino K;Inoue K;Maruyama T;Takamatsu N;Harayama S;Shizuri Y .Barnacle cement proteins. Importance of disulfide bonds in their insolubility.[J].The Journal of biological chemistry,2000(35):27360-27365. |
| [25] | Kamino, Kei;Nakano, Masahiro;Kanai, Satoru .Significance of the conformation of building blocks in curing of barnacle underwater adhesive[J].The FEBS journal,2012(10):1750-1760. |
| [26] | Youhei Urushida;Masahiro Nakano;Satoru Matsuda;Naoko Inoue;Satoru Kanai;Naho Kitamura;Takashi Nishino;Kei Kamino .Identification and functional characterization of a novel barnacle cement protein[J].The FEBS journal,2007(16):4336-4346. |
| [27] | Kamino K .Novel barnacle underwater adhesive protein is a charged amino acid-rich protein constituted by a Cys-rich repetitive sequence.[J].The Biochemical Journal,2001(Pt.2):503-507. |
| [28] | Aldred N;Clare S A .The adhesive strategies of cyprids and development of barnacle-resistant marine coatings[J].BIOFOULING,2008,24(05):351. |
| [29] | Wiegemann M .Adhesion in blue mussels (Mytilus edulis) and barnacles (Genus balanus):Mechanisms and technical adaptations[J].Aquatic Sciences,2005,67(02):166. |
| [30] | Mori Y;Urushida Y;Nakano M;Uchiyama S;Kamino K .Calcite-specific coupling protein in barnacle underwater cement[J].The FEBS journal,2007(24):6436-6446. |
| [31] | Suzuki R;Mori Y;Kamino K et al.NMR assignment of the barnacle cement protein Mrcp-20k[J].Journal of Biomolecular NMR,2005,32(03):257. |
| [32] | Chen Z F;Matsumura K;Wang H et al.Toward an understanding of the molecular mechanisms of barnacle larval settlement:A comparative transcriptomic approach[J].Plos One,2011,6(07):1. |
| [33] | 严文侠;董钮;方正信 等.藤壶胶交联键初步探讨[J].热带海洋,1985,4(04):1. |
| [34] | Reddy, G.;Straub, J.E.;Thirumalai, D. .Dry amyloid fibril assembly in a yeast prion peptide is mediated by long-lived structures containing water wires[J].Proceedings of the National Academy of Sciences of the United States of America,2010(50):21459-21464. |
| [35] | Wiegemann M;Watermann B .Peculiarities of barnacle adhesive cured on non-stick surfaces[J].J Adhes SCi Techn,2003,17:1957. |
| [36] | Sullan R M A;Gunari N;Tanur A E et al.Nanoscale structures and mechanics of barnacle cement[J].BIOFOULING,2009,25:263. |
| [37] | Stewart RJ;Weaver JC;Morse DE;Waite JH .The tube cement of Phragmatopoma californica: a solid foam[J].The Journal of Experimental Biology,2004(26):4727-4734. |
| [38] | Sun Y;Guo S;Walker G C et al.Surface elastic modulus of barnacle adhesive and release characteristics from silicone surfaces[J].BIOFOULING,2004,20(06):279. |
| [39] | Sangeetha, R.;Kumar, R.;Doble, M.;Venkatesan, R. .Barnacle cement: An etchant for stainless steel 316L?[J].Colloids and Surfaces, B. Biointerfaces,2010(2):524-530. |
| [40] | Kamino K;Odo S;Maruyama T .CEMENT PROTEINS OF THE ACORN BARNACLE, MEGABALANUS ROSA[J].The Biological Bulletin,1996(3):403-409. |
| [41] | Sangeetha, R.;Kumar, R.;Venkatesan, R.;Doble, M.;Vedaprakash, L.;Kruparatnamb, Lakshmi;K.c, Dineshramb .Understanding the structure of the adhesive plaque of Amphibalanus reticulatus[J].Materials science & engineering, C. Biomimetic and supramolecular systems,2010(1):112-119. |
| [42] | Huang SY;Hadfield MG .Composition and density of bacterial biofilms determine larval settlement of the polychaete Hydroides elegans[J].Marine ecology progress series,2003(0):161-172. |
| [43] | 宋永香;王志政 .海洋生物及其黏附机理--藤壶、帽贝、海葵、管栖蠕虫[J].中国胶黏剂,2003,12(04):60. |
| [44] | Walker G .A study of the cement apparatus of the cypris larva of the barnacle Balanus balanoides[J].Marine Biology,1971,9:205. |
| [45] | Saroyan J R;Lindner E;Dooley C A .Repair and reattachment in the balanidae as related to their cementing mechanism[J].The Biological Bulletin,1970,139(02):333. |
| [46] | Lindner E.The attachment of macrofouling invertebrates[A].Annapolis:Naval Institute Press,1984:183. |
| [47] | Okano K.;Satuito CG.;Fusetani N.;Shimizu K. .VISUALIZATION OF CEMENT EXOCYTOSIS IN THE CYPRIS CEMENT GLAND OF THE BARNACLE MEGABALANUS ROSA[J].The Journal of Experimental Biology,1996(10):2131-2137. |
| [48] | Khandeparker L;Anil A C .Underwater adhesion:The barnacle way[J].Int J Adhes,2007,27(02):165. |
| [49] | Waite J H;Anderson N H;Jewhurst S et al.Mussel adhesion:Finding the tricks worth mimicking[J].Journal of the Adhesion,2005,81:297. |
| [50] | 严文侠;潘苏华 .变性剂对藤壶胶的溶解作用[J].海洋与湖沼,1981,12(02):125. |
| [51] | Dickinson, Gary H.;Vega, Irving E.;Wahl, Kathryn J.;Orihuela, Beatriz;Beyley, Veronica;Rodriguez, Eva N.;Everett, Richard K.;Bonaventura, Joseph;Rittschof, Daniel .Barnacle cement: a polymerization model based on evolutionary concepts[J].The Journal of Experimental Biology,2009(21):3499-3510. |
| [52] | 段东霞.污损生物附着机理及酶在生物防污中的应用[J].海洋科学,2011(07):107-112. |
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