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Received February 25, 2014
Accepted May 8, 2014
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Surface forces apparatus and its applications for nanomechanics of underwater adhesives
1POSTECH Ocean Science and Technology Institute, Pohang University of Science and Technology (POSTECH), Pohang 790-784, Korea 2School of Environmental Science and Engineering, Pohang University of Science and Technology (POSTECH), Pohang 790-784, Korea 3Integrative Biosciences and Biotechnology, Pohang University of Science and Technology (POSTECH), Pohang 790-784, Korea 4School of Interdisciplinary Bioscience and Bioengineering, Pohang University of Science and Technology (POSTECH), Pohang 790-784, Korea 5School of Environmental Science and Engineering, Integrative Biosciences and Biotechnology, School of Interdisciplinary Bioscience and Bioengineering, Pohang University of Science and Technology (POSTECH), Pohang 790-784, Korea
dshwang@postech.ac.kr
Korean Journal of Chemical Engineering, August 2014, 31(8), 1306-1315(10), 10.1007/s11814-014-0136-x
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Abstract
Successful adhesion on wet surfaces is one of the most important challenges in biomedical engineering. Marine fouling organisms exhibit effective adhesion for wet substrates, and the measurement of adhesion forces in wet conditions is the first step toward mimicking the smart strategies of the marine organisms. Surface forces apparatus (SFA) is one of the most powerful nanomechanical tools used to directly measure time- and distance-dependent interactions_x000D_
between biological macromolecules or biological surfaces in an aqueous medium at the molecular level. Recently, SFA has been adapted to probe the biomechanical nature of the underwater adhesive in marine organisms. This review describes some strategies of the marine fouling organisms for successful underwater adhesion determined using SFA.
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References
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White SR, Sottos NR, Geubelle PH, Moore JS, Kessler MR, Sriram SR, Brown EN, Viswanathan S, Nature, 409(6822), 794 (2001)
Kim JY, Yoon JH, Kim DH, Kim SB, Korean J. Chem. Eng., 29(4), 503 (2012)
Chu CC, Von Fraunhofer JA, Greisler HP, Wound closure biomaterials and devices, CRC Press (1996)
Spotnitz WD, Burks S, Transfusion, 48, 1502 (2008)
Amsler CD, Algal chemical ecology, Springer, Heidelberg (2008)
Kavanagh CJ, Schultz MP, Swain GW, Stein J, Truby K, Wood CD, Biofouling, 17, 155 (2001)
Sun Y, Guo S, Walker GC, Kavanagh CJ, Swain GW, Biofouling, 20, 279 (2004)
Hwang DS, Masic A, Prajatelistia E, Iordachescu M, Herbert Waite J, Acta Biomater., 9, 8110 (2013)
Thomas LA, Hermans CO, Biol. Bull., 169, 675 (1985)
Joll L, Mar. Biol., 36, 327 (1976)
Callow JA, Smith AM, Biological Adhesives, Springer, Berlin (2006)
Waite JH, Integr. Comp. Biol., 42, 1172 (2002)
Zeng H, Polymer Adhesion, Friction, and Lubrication, Wiley, New Jersey (2012)
Yang YJ, Choi YS, Jung D, Cha HJ, Korean J. Chem. Eng., 28(8), 1744 (2011)
Zeng H, Hwang DS, Israelachvili JN, Waite JH, Proc. Natl. Acad. Sci., 107, 12850 (2010)
Burzio LA, Waite JH, Biochemistry, 39, 11147 (2000)
Taylor SW, Chase DB, Emptage MH, Nelson MJ, Waite JH, Inorg. Chem., 35(26), 7572 (1996)
Waite JH, Comp. Biochem. Phys. B, 97, 19 (1990)
Dougherty DA, Science, 271(5246), 163 (1996)
Mecozzi S, West AP, Dougherty DA, Proc. Natl. Acad. Sci., 93, 10566 (1996)
Gallivan JP, Dougherty DA, J. Am. Chem. Soc., 122(5), 870 (2000)
Lu Q, Danner E, Waite JH, Israelachvili JN, Zeng H, Hwang DS, J. R. Soc. Interface, 10, 20120759 (2013)
Hwang DS, Zeng H, Lu Q, Israelachvili J, Waite JH, Soft Matter, 8, 5640 (2012)
Lu Q, Hwang DS, Liu Y, Zeng H, Biomaterials, 33, 1903 (2012)
Hwang DS, Waite JH, Tirrell M, Biomaterials, 31, 1080 (2010)
Waite JH, Andersen NH, Jewhurst S, Sun CJ, J. Adhes., 81(3-4), 297 (2005)
Srivastava A, Waite JH, Stucky GD, Mikhailovsky A, Macromolecules, 42(6), 2168 (2009)
Zhao H, Sun C, Stewart RJ, Waite JH, J. Biol. Chem., 280, 42938 (2005)
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Hugel T, Seitz M, Macromol. Rapid Commun., 22(13), 989 (2001)
Engel A, Muller DJ, Nat. Struct. Mol. Biol., 7, 715 (2000)
Benz M, Gutsmann T, Chen N, Tadmor R, Israelachvili J, Biophys. J., 86, 870 (2004)
Min Y, Akbulut M, Sangoro JR, Kremer F, Prud’homme RK, Israelachvili J, J. Phys. Chem., 113, 16445 (2009)
Israelachvili J, Pashley R, Nature, 300, 341 (1982)
Bhushan B, Israelachvili JN, Landman U, Nature, 374(6523), 607 (1995)
Anderson TH, Yu J, Estrada A, Hammer MU, Waite JH, Israelachvili JN, Adv. Funct. Mater., 20(23), 4196 (2010)
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Yu J, Wei W, Danner E, Israelachvili JN, Waite JH, Adv. Mater., 23(20), 2362 (2011)
Yu J, Wei W, Menyo MS, Masic A, Waite JH, Israelachvili JN, Biomacromolecules, 14(4), 1072 (2013)
Lee BP, Chao CY, Nunalee FN, Motan E, Shull KR, Messersmith PB, Macromolecules, 39(5), 1740 (2006)
Guvendiren M, Messersmith PB, Shull KR, Biomacromolecules, 9, 122 (2007)
Lee H, Scherer NF, Messersmith PB, Proc. Natl. Acad. Sci., 103, 12999 (2006)
Ryou MH, Kim J, Lee I, Kim S, Jeong YK, Hong S, Choi JW, Adv. Mater., 25, 1570 (2013)
Hwang DS, Yoo HJ, Jun JH, Moon WK, Cha HJ, Appl. Environ. Microbiol., 70, 3352 (2004)
Hwang DS, Gim Y, Cha HJ, Biotechnol. Prog., 21(3), 965 (2005)
Hwang DS, Gim Y, Yoo HJ, Cha HJ, Biomaterials, 28, 3560 (2007)
Maeda N, Chen N, Tirrell M, Israelachvili JN, Science, 297, 379 (2002)
Creton C, MRS Bull., 28, 434 (2003)
Hwang DS, Zeng H, Masic A, Harrington MJ, Israelachvili JN, Waite JH, J. Biol. Chem., 285, 25850 (2010)
Yu J, Wei W, Danner E, Ashley RK, Israelachvili JN, Waite JH, Nat. Chem. Biol., 7, 588 (2011)
Danner EW, Kan Y, Hammer MU, Israelachvili JN, Waite JH, Biochemistry, 51, 6511 (2012)
Holten-Andersen N, Fantner GE, Hohlbauch S, Waite JH, Zok FW, Nat. Mater., 6(9), 669 (2007)
Lu Q, Oh DX, Lee Y, Jho Y, Hwang DS, Zeng H, Angew. Chem. Int. Ed., 125, 4036 (2013)
Wheeler SE, Houk KN, J. Am. Chem. Soc., 131(9), 3126 (2009)
Priftis D, Farina R, Tirrell M, Langmuir, 28(23), 8721 (2012)
Hwang DS, Zeng H, Srivastava A, Krogstad DV, Tirrell M, Israelachvili JN, Waite JH, Soft Matter, 6, 3232 (2010)
