Literature DB >> 19408924

Functionalized carbon nanotubes specifically bind to alpha-chymotrypsin's catalytic site and regulate its enzymatic function.

Bin Zhang1, Yuehan Xing, Zhenwei Li, Hongyu Zhou, Qingxin Mu, Bing Yan.   

Abstract

Although carbon nanotubes (CNTs) have been shown to nonspecifically bind proteins through charge complementary, pi-pi stacking or hydrophobic interactions, they have not been shown to bind to a specific site on proteins. By generating surface molecular diversity, we created functionalized CNTs that recognize and bind to the catalytic site of alpha-chymotrypsin and inhibit its enzymatic activity competitively.

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Year:  2009        PMID: 19408924      PMCID: PMC2814308          DOI: 10.1021/nl900437n

Source DB:  PubMed          Journal:  Nano Lett        ISSN: 1530-6984            Impact factor:   11.189


  16 in total

1.  Selection of peptides with semiconductor binding specificity for directed nanocrystal assembly.

Authors:  S R Whaley; D S English; E L Hu; P F Barbara; A M Belcher
Journal:  Nature       Date:  2000-06-08       Impact factor: 49.962

2.  Peptide and protein recognition by designed molecules.

Authors:  M W Peczuh; A D Hamilton
Journal:  Chem Rev       Date:  2000-07-12       Impact factor: 60.622

3.  Tunable inhibition and denaturation of alpha-chymotrypsin with amino acid-functionalized gold nanoparticles.

Authors:  Chang-Cheng You; Mrinmoy De; Gang Han; Vincent M Rotello
Journal:  J Am Chem Soc       Date:  2005-09-21       Impact factor: 15.419

4.  Direct measurements of interactions between polypeptides and carbon nanotubes.

Authors:  Xiaojun Li; Wei Chen; Qiwen Zhan; Liming Dai; Laura Sowards; Mark Pender; Rajesh R Naik
Journal:  J Phys Chem B       Date:  2006-06-29       Impact factor: 2.991

5.  Understanding the nanoparticle-protein corona using methods to quantify exchange rates and affinities of proteins for nanoparticles.

Authors:  Tommy Cedervall; Iseult Lynch; Stina Lindman; Tord Berggård; Eva Thulin; Hanna Nilsson; Kenneth A Dawson; Sara Linse
Journal:  Proc Natl Acad Sci U S A       Date:  2007-01-31       Impact factor: 11.205

6.  Direct imaging of single-walled carbon nanotubes in cells.

Authors:  Alexandra E Porter; Mhairi Gass; Karin Muller; Jeremy N Skepper; Paul A Midgley; Mark Welland
Journal:  Nat Nanotechnol       Date:  2007-10-28       Impact factor: 39.213

Review 7.  Matrix metalloproteinase disruption of the extracellular matrix and cardiac dysfunction.

Authors:  Jeanine D'Armiento
Journal:  Trends Cardiovasc Med       Date:  2002-04       Impact factor: 6.677

8.  Caspase activity is required for commitment to Fas-mediated apoptosis.

Authors:  V L Longthorne; G T Williams
Journal:  EMBO J       Date:  1997-07-01       Impact factor: 11.598

9.  Structure of alpha-chymotrypsin refined at 1.68 A resolution.

Authors:  H Tsukada; D M Blow
Journal:  J Mol Biol       Date:  1985-08-20       Impact factor: 5.469

Review 10.  Unfolding of ribonuclease A on silica nanoparticle surfaces.

Authors:  Wen Shang; Joseph H Nuffer; Jonathan S Dordick; Richard W Siegel
Journal:  Nano Lett       Date:  2007-06-09       Impact factor: 11.189
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  21 in total

1.  Binding of blood proteins to carbon nanotubes reduces cytotoxicity.

Authors:  Cuicui Ge; Jiangfeng Du; Lina Zhao; Liming Wang; Ying Liu; Denghua Li; Yanlian Yang; Ruhong Zhou; Yuliang Zhao; Zhifang Chai; Chunying Chen
Journal:  Proc Natl Acad Sci U S A       Date:  2011-10-03       Impact factor: 11.205

2.  Biocompatibility of polymer grafted core/shell iron/carbon nanoparticles.

Authors:  Qingxin Mu; Lei Yang; James C Davis; Raviraj Vankayala; Kuo Chu Hwang; Jincai Zhao; Bing Yan
Journal:  Biomaterials       Date:  2010-04-07       Impact factor: 12.479

3.  Electrochemical nanoparticle-enzyme sensors for screening bacterial contamination in drinking water.

Authors:  Juhong Chen; Ziwen Jiang; Jonathan D Ackerman; Mahdieh Yazdani; Singyuk Hou; Sam R Nugen; Vincent M Rotello
Journal:  Analyst       Date:  2015-08-07       Impact factor: 4.616

4.  Experimental modulation and computational model of nano-hydrophobicity.

Authors:  Shuhuan Li; Shumei Zhai; Yin Liu; Hongyu Zhou; Jinmei Wu; Qing Jiao; Bin Zhang; Hao Zhu; Bing Yan
Journal:  Biomaterials       Date:  2015-02-28       Impact factor: 12.479

Review 5.  Chemical basis of interactions between engineered nanoparticles and biological systems.

Authors:  Qingxin Mu; Guibin Jiang; Lingxin Chen; Hongyu Zhou; Denis Fourches; Alexander Tropsha; Bing Yan
Journal:  Chem Rev       Date:  2014-06-13       Impact factor: 60.622

Review 6.  Toward a systematic exploration of nano-bio interactions.

Authors:  Xue Bai; Fang Liu; Yin Liu; Cong Li; Shenqing Wang; Hongyu Zhou; Wenyi Wang; Hao Zhu; David A Winkler; Bing Yan
Journal:  Toxicol Appl Pharmacol       Date:  2017-03-24       Impact factor: 4.219

7.  Predicting Nano-Bio Interactions by Integrating Nanoparticle Libraries and Quantitative Nanostructure Activity Relationship Modeling.

Authors:  Wenyi Wang; Alexander Sedykh; Hainan Sun; Linlin Zhao; Daniel P Russo; Hongyu Zhou; Bing Yan; Hao Zhu
Journal:  ACS Nano       Date:  2017-11-22       Impact factor: 15.881

8.  Decreased Uptake and Enhanced Mitochondrial Protection Underlie Reduced Toxicity of Nanoceria in Human Monocyte-Derived Macrophages.

Authors:  Salik Hussain; Pretti P Kodavanti; Jamie D Marshburg; Agnes Janoshazi; Stella M Marinakos; Margaret George; Annette Rice; Mark R Wiesner; Stavros Garantziotis
Journal:  J Biomed Nanotechnol       Date:  2016-12       Impact factor: 4.099

9.  Chemically exfoliated MoS2 as near-infrared photothermal agents.

Authors:  Stanley S Chou; Bryan Kaehr; Jaemyung Kim; Brian M Foley; Mrinmoy De; Patrick E Hopkins; Jiaxing Huang; C Jeffrey Brinker; Vinayak P Dravid
Journal:  Angew Chem Int Ed Engl       Date:  2013-03-07       Impact factor: 15.336

Review 10.  Regulation of enzyme activity through interactions with nanoparticles.

Authors:  Zhaochun Wu; Bin Zhang; Bing Yan
Journal:  Int J Mol Sci       Date:  2009-11-20       Impact factor: 6.208
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