Identification of binding epitope of a monoclonal antibody (Z12) against human TNF-α using computer modeling and deletion mutant technique 被引量：2

Identification of binding epitope of a monoclonal antibody (Z12) against human TNF-α using computer modeling and deletion mutant technique

原文传递

导出

摘要 The genes of the heavy and light chain variable region (VH, VL) of Z12 antibody against hTNF-a were cloned, and according to the translated sequence of amino acids, the spa-tial structures of VH and VL domains were modeled by using homology-based modeling method, followed by constructing the whole three-dimensional structure of Fv fragment. The complex model of Fv interacting with hTNF-a was gained with computer-guided molecular docking method, based on which, it was predicted that the epitope recognized by Z12 was from 141 to 146 of hTNF-a. hTNF-a molecule was divided into two fragments of N-terminal region from 1 to 91 and C-terminal region from 92 to 157 with prokaryotic expression. The measured results suggested that the antigenic epitope recognized by Z12 antibody was located in the C-terminal region 92-157 of hTNF-a, proving the predicted result reliable preliminarily. Further experimental results showed that after hTNF- 141-146 residues were deleted, Z12 antibody almost lost the ability to recognize the mutant, suggesting that the amino acid residues from 141 to 146 of hTNF-a were specially recognized by Z12 antibody. The genes of the heavy and light chain variable region (VH, VL) of Z12 antibody against hTNF-a were cloned, and according to the translated sequence of amino acids, the spa-tial structures of VH and VL domains were modeled by using homology-based modeling method, followed by constructing the whole three-dimensional structure of Fv fragment. The complex model of Fv interacting with hTNF-a was gained with computer-guided molecular docking method, based on which, it was predicted that the epitope recognized by Z12 was from 141 to 146 of hTNF-a. hTNF-a molecule was divided into two fragments of N-terminal region from 1 to 91 and C-terminal region from 92 to 157 with prokaryotic expression. The measured results suggested that the antigenic epitope recognized by Z12 antibody was located in the C-terminal region 92-157 of hTNF-a, proving the predicted result reliable preliminarily. Further experimental results showed that after hTNF- 141-146 residues were deleted, Z12 antibody almost lost the ability to recognize the mutant, suggesting that the amino acid residues from 141 to 146 of hTNF-a were specially recognized by Z12 antibody.

作者 ZHANG Wei FENG Jiannan SHEN Beifen

机构地区 Beijing Basic Medical Institute

出处《Science China(Life Sciences)》 SCIE CAS 2004年第3期279-286,共8页 中国科学（生命科学英文版）

关键词 HUMAN tumor NECROSIS factor-α Fv antigenic epitope homology-based modeling deletion. human tumor necrosis factor-α, Fv, antigenic epitope, homology-based modeling, deletion.

分类号 N [自然科学总论]

引文网络
相关文献

参考文献10

1Ming , WJ,Bersani L,and Mantovani A.Tumor necrosis factor is chemotactic for monocytes and polymorphonuclear leukocytes[].J Immunol.1987
2Maini RN,Elliott MJ,Brennan FM, et al.Beneficial effects of tumour necrosis factor-alpha (TNF-alpha) blockade in rheumatoid arthritis (RA)[].Clinical and Experimental Immunology.1995
3Sandborn WJ,Hanauer SB.Anti tumor necrosis factor therapy for inflammatory bowel disease: a review of agents, pharmacology, clinical results, and safety[].Inflammatory Bowel Diseases.1999
4Vogel M,Miescher S,Kuhn S,et al.Mimicry of human IgE epitopes by anti-idiotypic antibodies[].Journal of Molecular Biology.2000
5Kollias,G,Douni,E,Kassiotis, G. etal.Ont hero le oftum ornecros isfact ora ndrecepto rs inmode ls ofmultiorg anfailur e,rheumato idarthriti s,multip lescleros isa ndinflammato rybow eldisease[].Immunological Reviews.1999
6MacCallum,R.M,Martin,A.C,Thornto n,J.M.CH1 doma inshasb ee nr evisedtobe cons ist entwiththethree-d imensionalalignments[].Journal of Molecular Biology.1996
7WangZhuozhi,WangY an,LiZhengfue tal.Clon in go fFabgeneof ananti-TNF -amonocl ona lan tibodyandi tsexpr essionfromE.coli[].ChinJMicrobiolImmunol.1993
8Sambrook,J,Fritsch,E.F,Maniatis,T,translatedbyJinDongyan,L iMengfeng.Mole cularCloning:ALaboratoryMan ual[]..1992
9ZhangWei,Sh enBeifen,LiY a netal.Apply in ganewPC Rmethod toquicklyp reparehu manTNF-adeletionmutants[].Chi-neseJourn alofBiochemistryandMolecularBiology.2002
10WangH uaichun.EssentialsofSequenceAnalysis[]..1994

同被引文献8

1XIONGQing,WANGYuan-Qiang,LIZhi-Liang.Eukaryotic Promoter Recognition Using Back propagation Neural Network[J].Chinese Journal of Biomedical Engineering(English Edition),2004,13(2):87-92. 被引量：1
2MEIHu,SUNLili,ZHOUYuan,XIONGQing,LIhiliang.Identification of encoding proteins related to SARS-CoV[J].Chinese Science Bulletin,2004,49(19):2037-2040. 被引量：2
3ZHOU Peng1,2, ZHOU Yuan2,3, WU Shirong1,2, LI Bo1,2, TIAN Feifei1,2 & LI Zhiliang1,2 1. College of Chemistry and Chemical Engineering, Chongqing Univer- sity, Chongqing 400044, China,2. Key Laboratory of Biomedical Engineering of Ministry of Education and Chongqing Municipality, Chongqing 400044, China,3. College of Bioengineering, Chongqing University, Chongqing 400044, China.A NEW DESCRIPA NEW DESCRIPTOR OF AMINO ACIDS BASED ON THE THREEDIMENSIONAL VECTOR OF ATOMIC INTERACTION FIELD[J].Chinese Science Bulletin,2006,51(5):524-529. 被引量：5
4ZHOU Peng,TIAN Feifei,ZHANG Mengjun,LI Zhiliang.Applying generalized hydrophobicity scale of amino acids to quantitative prediction of human leukocyte antigen-A~*0201-restricted cytotoxic T lymphocyte epitope[J].Chinese Science Bulletin,2006,51(12):1439-1443. 被引量：2
5周鹏,田菲菲,王娇娜,李志良.分子电性作用矢量法定量预测单质子化肽段离子迁移谱碰撞截面[J].分析化学,2006,34(6):778-782. 被引量：10
6LIANG Guizhao,YANG Shanbin,ZHOU Yuan,ZHOU Peng,LI Zhiliang.Using scores of amino acid topological descriptors for quantitative sequence-mobility modeling of peptides based on support vector machine[J].Chinese Science Bulletin,2006,51(22):2700-2705. 被引量：4
7曹炜,刘亮,来鲁华,唐有祺.Molecular recognition: monomer of the yeast transcriptional activator GCN4 recognizes its dimer DNA binding target sites specifically[J].Science China Chemistry,2000,43(5):466-476. 被引量：1
8刘树深,刘堰,李志良,蔡绍皙.一个新的分子电性距离矢量(MEDV)[J].化学学报,2000,58(11):1353-1357. 被引量：94

引证文献2

1LI ZhiLiang1,2, WU ShiRong1,2, CHEN ZeCong1,2, YE Nancy1,2, YANG ShengXi1,2, LIAO ChunYang1,2, ZHANG MengJun1,2,3, YANG Li1,2, MEI Hu1,2,4, YANG Yan1,2, ZHAO Na1,2, ZHOU Yuan1,2, ZHOU Ping1,2, XIONG Qing1,2, XU Hong1,2, LIU ShuShen1,2, LING ZiHua1,2, CHEN Gang1,2,4 & LI GenRong1,2 1 College of Chemistry and Chemical Engineering/Key Laboratory for Chemobiomedical Science and Engineering under Chongqing Municipality, College of Life Science and Biological Engineering/Key Laboratory for Biomechanics and Tissue Engineering under Ministry of Education, Chongqing University, Chongqing 400044, China,2 State Key Laboratory for Chemobiosensors and Chemobiometrics under MOST at Hunan University, Changsha 410012, China,3 Department of Medical Analysis/PLA Center of Bioinformatics Immunology, Surgeon Third University, Chongqing 400031, China,4 Technology Centre for Life Sciences, Singapore Polytechnic, 500 Dover Road, Singapore 139651, Singapore.Structural parameterization and functional prediction of antigenic polypeptome sequences with biological activity through quantitative sequence-activity models (QSAM) by molecular electronegativity edge-distance vector (VMED)[J].Science China(Life Sciences),2007,50(5):706-716. 被引量：1
2常宏,吕明,乔春霞,李新颖,耿晶,周婷婷,林周,沈倍奋,冯健男.基于TNF功能表位设计新型人源单链抗体[J].中国医药生物技术,2014,9(4):241-249.

二级引证文献1

1LI ZhiLiang,TIAN FeiFei,WU ShiRong,YANG ShanBin,YANG ShengXi,ZHOU Yuan,ZHANG QiaoXia,QIN RenHui,MEI Hu,CHEN Gang,LI GenRong.Integration of genetic virtual screening patterns and latent multivariate modeling techniques for QSAR optimization based on combinations and/or interactions between peptides and proteins[J].Science China Chemistry,2008,51(5):487-496.

1汪新凡,杨小娟.基于FV-OWA算子的不确定多属性决策方法[J].系统工程与电子技术,2009,31(2):380-383. 被引量：5
2柯屾,威中田,杨子义,施明,王建安,姚志建,沈倍奋.Biopanning of HGV epitope from a phage displayed library[J].Progress in Natural Science:Materials International,2000,10(6):48-52.
3卢珊,董钟云,张友会.MODULATION OF MACROPHAGE-MEDIATED CYTOTOXIC ACTIVITY——EFFECT OF FUSARIN C ON Mφ-CF PRODUCTION AND TNF-α mRNA EXPRESSION[J].Chinese Science Bulletin,1990,35(22):1915-1920.
4WANG Hanqian,ZHANG Xueyong,WANG Hongmei,PANG Binshuang.Production of a monoclonal antibody specific for high molecular weight glutenin subunits (HMW-GS) in wheat and its antigenic determinant[J].Science China(Life Sciences),2005,48(1):89-96. 被引量：1
5於勤,王静英,敖世洲.THE UPSTREAM REGULATORY SEQUENCE OF YEAST ACID PHOSPHATASE GENE PHO5[J].Progress in Natural Science:Materials International,1991,1(3):225-230.
6胡传淦.THE BOUNDEDNESS OF INTEGRAL OPERATORS OF A CLASS[J].四川师范大学学报（自然科学版）,1991,14(1):21-22.
7CHEN Xueguang,LU Ke,FEI Qi,Surya B.Yadav.Modeling and Solving Material Resources Allocation and Distribution with OR-Based and AI-Guided Method[J].Systems Science and Systems Engineering,1998,8(1):37-45.
8Wenbo Cheng,Wei Yan,Peng Miao.TNF-αresponsive DNA star trigon formation from four hairpin probes and the analytical application[J].Science China Chemistry,2017,60(3):405-409. 被引量：1
9徐永华,吴涤梵,彭素芬,张美兰,周霞娣,任兆瑞,黄淑帧,曾溢滔.A NOVEL β-THALASSEMIA MUTATION——DELETION OF 4bp (-AAAC)DOWNSTREAM FROM THE CAP SITE[J].Chinese Science Bulletin,1991,36(21):1846-1848.
10党进英.如何培养学生的口语交际能力[J].软件（教学）,2014(7):106-106.

Science China(Life Sciences)

2004年第3期

浏览历史

内容加载中请稍等...

Identification of binding epitope of a monoclonal antibody (Z12) against human TNF-α using computer modeling and deletion mutant technique 被引量：2

参考文献10

同被引文献8

引证文献2

二级引证文献1

相关作者

相关机构

相关主题

浏览历史