Programmable Bio-surfaces for Biomedical Applications

被引:2
|
作者
Shiba, Kiyotaka
机构
[1] Division of Protein Engineering, The Cancer Institute of Japanese Foundation for Cancer Research, Ariake, Koto, Tokyo
来源
PEPTIDES AND PEPTIDE-BASED BIOMATERIALS AND THEIR BIOMEDICAL APPLICATIONS | 2017年 / 1030卷
基金
日本学术振兴会;
关键词
Peptide aptamer; In vitro evolution; Artificial peptide; Motif programing; Material surface; Diagnostic; Exosome; SELF-ASSEMBLED MONOLAYERS; IN-VITRO SELECTION; POLYCAPROLACTONE ELECTROSPUN MESH; MATERIAL-BINDING PEPTIDES; COMBINATORIAL TECHNOLOGIES; MOLECULAR BIOMIMETICS; SYNTHETIC SURFACES; GENETIC SELECTION; ORGANIC-SYNTHESIS; CARBON NANOHORNS;
D O I
10.1007/978-3-319-66095-0_1
中图分类号
Q [生物科学];
学科分类号
07 ; 0710 ; 09 ;
摘要
A peptide can be used as a functional building block to construct artificial systems when it has sufficient transplantability and functional independence in terms of its assigned function. Recent advances in in vitro evolution systems have been increasing the list of peptides that specifically bind to certain targets, such as proteins and cells. By properly displaying these peptides on solid surfaces, we can endow the inorganic materials with various biological functions, which will contribute to the development of diagnosis and therapeutic medical devices. Here, the methods for the peptide--based surface functionalization are reviewed by focusing on sources of peptides as well as methods of immobilization.
引用
收藏
页码:1 / 20
页数:20
相关论文
共 50 条
  • [41] Engineering and Characterization of Polymer Surfaces for Biomedical Applications
    Mathieu, Han Joerg
    Chevolot, Yann
    Ruiz-Taylor, Laurence
    Leonard, Didier
    RADIATION EFFECTS ON POLYMERS FOR BIOLOGICAL USE, 2003, 162 : 1 - 34
  • [42] Improving polymeric surfaces for biomedical applications: a review
    P. Ferreira
    P. Alves
    P. Coimbra
    M. H. Gil
    Journal of Coatings Technology and Research, 2015, 12 : 463 - 475
  • [43] Dual Responsive Nanostructured Surfaces for Biomedical Applications
    Martins, Gabriela V.
    Mano, Joao F.
    Alves, Natalia M.
    LANGMUIR, 2011, 27 (13) : 8415 - 8423
  • [44] Improving polymeric surfaces for biomedical applications: a review
    Ferreira, P.
    Alves, P.
    Coimbra, P.
    Gil, M. H.
    JOURNAL OF COATINGS TECHNOLOGY AND RESEARCH, 2015, 12 (03): : 463 - 475
  • [45] Tunable Vancomycin Releasing Surfaces for Biomedical Applications
    Shukla, Anita
    Avadhany, Sareena N.
    Fang, Jean C.
    Hammond, Paula T.
    SMALL, 2010, 6 (21) : 2392 - 2404
  • [46] Surfaces engineering of polymeric films for biomedical applications
    Rossini, P
    Colpo, P
    Ceccone, G
    Jandt, KD
    Rossi, F
    MATERIALS SCIENCE & ENGINEERING C-BIOMIMETIC AND SUPRAMOLECULAR SYSTEMS, 2003, 23 (03): : 353 - 358
  • [47] Nature Inspired Structured Surfaces for Biomedical Applications
    Webb, H. K.
    Hasan, J.
    Truong, V. K.
    Crawford, R. J.
    Ivanova, E. P.
    CURRENT MEDICINAL CHEMISTRY, 2011, 18 (22) : 3367 - 3375
  • [48] Antibacterial material surfaces/interfaces for biomedical applications
    Wang, Yumei
    Wang, Feng
    Zhang, Hui
    Yu, Bing
    Cong, Hailin
    Shen, Youqing
    APPLIED MATERIALS TODAY, 2021, 25
  • [49] Electrochemical micromachining of titanium surfaces for biomedical applications
    Lu, X
    Leng, Y
    JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2005, 169 (02) : 173 - 178
  • [50] A review of engineered zirconia surfaces in biomedical applications
    Yin, Ling
    Nakanishi, Yoshitaka
    Alao, Abdur-Rasheed
    Song, Xiao-Fei
    Abduo, Jaafar
    Zhang, Yu
    3RD CIRP CONFERENCE ON BIOMANUFACTURING, 2017, 65 : 284 - 290
12345