Committee
Zengyi Chang
E-mail : changzy@pku.edu.cn
Job title :
Professor
Office Address : Jinguang Life Science Building,Peking University, No.5 Yiheyuan Road, Haidian District,Beijing, P.R.China
EDUCATION EXPERIENCE
1992 Ph.D., Biochemistry, Baylor College of Medicine, Houston, Texas, USA. Ph.D. Thesis: “Probing the Roles of the Highly Conserved Amino Acids in the Catalytic Activity of Adenosine Deaminase”, Advisor: Dr. Rodney, E. Kellems.
1984 B.S., Biology, East China Normal University, Shanghai, China.
1985 Graduate Student, Shanghai Institute of Biochemistry, Chinese Academy of Sciences, Shanghai, China.
1984-1985, English Training, Guangzhou English Learning Center (GELC), Sun Yat-Sen University, Guangzhou, China.
WORK EXPERIENCE
2007-2013 Vice Dean, School of Life Sciences, Peking University, Beijing, China.
2003-Present Professor, Department of Biochemistry and Molecular Biology, College of Life Sciences, Peking University, Beijing, P. R. China 100871.
Jun.-Sept., 2002 Visiting Professor, Harvard Medical School, Boston, USA.
1998-8/2003 Professor, Department of Biological Sciences and Biotechnology, Tsinghua University, Beijing, P. R. China.
1996-1998 Associate Professor, Department of Biological Sciences and Biotechnology, Tsinghua University, Beijing, P. R. China.
RESEARCH DESCRIPTION
2007-2013 Vice Dean, School of Life Sciences, Peking University, Beijing, China.
2003-Present Professor, Department of Biochemistry and Molecular Biology, College of Life Sciences, Peking University, Beijing, P. R. China 100871.
Jun.-Sept., 2002 Visiting Professor, Harvard Medical School, Boston, USA.
1998-8/2003 Professor, Department of Biological Sciences and Biotechnology, Tsinghua University, Beijing, P. R. China.
1996-1998 Associate Professor, Department of Biological Sciences and Biotechnology, Tsinghua University, Beijing, P. R. China.
SELECTED PUBLICATIONS
103*. Fenghui Guan, Jiayu Yu, Jie Yu, Yang Liu, Ying Li, Xin-hua Feng, Kerwyn Casey Huang, Zengyi Chang*, Sheng Ye* (2018). Lateral interactions between protofilaments of the bacterial tubulin homolog FtsZ are essential for cell division. eLife, in press.
102*. Jin, F. and Chang, Z. (2017).Discovery of a Shortened Version Of SecA (SecAN) that conceivably functions As a Protein-Conducting Channe. BioRxiv, preprint. doi: https://doi.org/10.1101/121335. (online March 28, 2017)
101*. Yu, J.Y., Liu, Y. and Chang, Z. (2017). An Organelle-like Structure Correlated with the Quiescent State of Bacterial Cells. BioRxiv (preprint),bioRxiv 107466; doi: https://doi.org/10.1101/107466 (online, Feb. 10, 2017)
100*. Chang, Z., Wang, C. C. and Li, L. (2016). China is catching up in life Science Research. IUBMB Life, 68(11):844-845. (Editorial for the China Special Issue).
99*. Chang, Z. (2016).The Function of the DegP (HtrA) Protein: Protease vs. Chaperone. IUBMB Life, 68(11):904-907, DOI 10.1002/iub.1561 (invited review for the China Special Issue).
98*. Wang, Y., Wang, R., Jin, F., Liu, Y., Yu, J.Y., Fu, XM. and Chang, Z. (2016). A Supercomplex Spanning the Inner and Outer Membranes Mediates the Biogenesis of β-barrel Outer Membrane Proteins in Bacteria. J. Biol. Chem. 291(32):16720-16729. doi: 10.1074/jbc.M115.710715.
97*. Chang Z (2016). The discovery of Qinghaosu (artemisinin) as an effective anti-malaria drug: A unique China Story. Science China Life Sciences,59:81-88. doi.10.1007/s11427-015-4988-z.
中文版:昌增益。 青蒿素作为有效抗疟药物的发现: 一个不同寻常的中国故事.中国科学:生命科学,2doi.10.1360/N052015-00358.
96*. Liu, JF, Fu, XM, and Chang Z. (2016). A reciprocating motiong-driven rotation mechanism for the ATP synthase, Science China Life Sciences, 59:44-48. doi: 10.1007/s11427-015-4955-0. online published.
中文版:刘佳峰,付新苗,昌增益。ATP合酶旋转催化的一种新机制。《中国科学:生命科学》,46(3):269-273。
95*. Liu, JF, Fu, XM and Chang Z. (2015). Hypoionic shock treatment enables aminoglycosides antibiotics to eradicate bacterial persisters. Scientific Reports, 5:14247, DOI:10:1038/srep14247.
94. 昌增益,王志珍,美国学术不端行为监管体系的建设及其对中国的启示,《科技导报》,2015,,33(15):12-13.
93* Chang, Z. Biogenesis of Secretory Proteins. In: Ralph A Bradshaw and Philip D Stahl (Editor-in-Chief),Encyclopedia of Cell Biology, Vol 1, Waltham, MA: Academic Press, 2016, pp. 535-544.
92*. Chang, Z. What Do Small Heat Shock Proteins Do for Bacterial Cells. In: The Big Book on Small Heat Shock Proteins(ed. R.M. Tanguay and L.E. Hightower). Springer, 2015, pp.511-525.
91*. Xinmiao Fu, Yan Tang, Bryan C. Dickinson, Christopher J. Chang and Zengyi Chang (2015). An oxidative fluctuation hypothesis of aging generated by imaging H2O2 levels in live C. elegans with altered lifespans. Biochemical and Biophysical Research Communications. 458(4):896-900. doi: 10.1016/j.bbrc.2015.02.055
90*. Zhang, K., Ezemaduka, A. N., Wang, Z., Hu, H., Shi, X., Liu, C., Lu, X., Fu, X., Chang, Z. & Yin C. C. (2015). A Novel Mechanism for Small Heat Shock Proteins to Function as Molecular Chaperones, Scientific Reports, 5 : 8811 | DOI: 0.1038/srep08811.
89. 昌增益,从分子水平认识生命现象-回顾与展望,《北大讲座》精华集(科学),北京大学出版社,2015年1月,8-21页。
88. X. Shi, L. Yan, H. Zhang, K. Sun, Z. Chang, X. Fu, (2014). Differential degradation for small heat shock proteins IbpA and IbpB is synchronized in Escherichia coli: implications for their functional cooperation in substrate refolding. Biochemical and Biophysical Research Communications, 452:402-407.doi: http://dx.doi.org/ 10.1016/j.bbrc.2014.08.084.
87*、CHANG ZengYi, GU LiangCai. (2014). Is the mission to identify all the human proteins achievable?-Commenting on the human proteome draft maps. SCIENCE CHINA Life Sciences, 2014, 57(10): 1039-1040.
86*. Li, S., Wang, R., Li, D., Ma, J., Li, H., He, X., Chang, Z., & Weng, Y., (2014). Thermal-triggerd Proteinquake Leads to Disassembly of DegP Hexamer as an Imperative Activation Step. Sci. Rep., 4:4834. (co-corresponding author)..
85*. Ezemaduka, A. N., Yu, J. Y., Shi, X. D., Zhang, K. M., Yin, C. C., Fu, X. M. and Chang, Z. (2014). A small heat shock protein enables Escherichia coli to grow at a lethal temperature of 50ºC conceivably by maintaining cell envelope integrity, Journal of Bacteriology, 196:2004-2011.
84*. Ge, X.,Wang, R., Ma, J., Liu, Y., Ezemaduka, A. N., Chen, P. R., Fu, X. and Chang, Z., (2014) DegP primarily functions as a protease for the biogenesis of β-barrel outer membrane proteins in the Gram-negative bacterium Escherichia coli, FEBS J., 281, 1226-1240.
83*. Xi Ge, Zhi-Xin Lyu, Yang Liu, Rui Wang, Xin Sheng Zhao, Xinmiao Fu, Zengyi Chang ( 2014) Identification of FkpA as a key quality control factor for the biogenesis of outer membrane proteins under heat shock conditions, Journal of Bacteriology, 196: 672-680.
82*. Fu, X., Shi, X., Yan, L., Zhang, H. and Chang, Z., (2013) In vivo substrate diversity and preference of small heat shock protein IbpB as revealed by using a genetically incorporated photo-crosslinker, J Biol Chem, , 288:31646-31654.
81*. Fu, X.,M, Shi, X.D., Yin, L. X., Liu, J. F., Joo, K. H., Lee, J. Y., and Chang, Z. (2013) Small heat shock protein IbpB acts as a robust chaperone in living cells by hierarchically activating its multi-type substrate-binding residues, J. Biol. Chem., 288(17):11897-11906.
80. 昌增益,认识生命活动的直接执行者:神奇的蛋白质分子,《科学名家讲座》第十二辑,57-85页,中国言实出版社,2013年11月。
79*. Hong, W., Wu, Y. E., Fu, X. and Chang, Z. (2012), Chaperone-dependent mechanisms for acid resistance in enteric bacteria, Trends in Microbiology, 20:328-335 (invited review)
78*. Zhang, M., Lin, S. Song, X. Liu, J. Fu, Y. Ge, X. Fu, X. Chang, Z. Chen, P. R. (2011) A genetically incorporated crosslinker reveals chaperone cooperation in acid resistance, Nat. Chem. Biol., 7:671-677. (co-corresponding author and cover article for the October issue)
77*. Dickinson, B. C., Tang, Y. Chang, Z. and Chang, C. J. (2011) Development of a Nuclear-Localized Fluorescent Probe for Hydrogen Peroxide and Applications to the Study of Sirtuin-Mediated Oxidative Stress Responses in vivo, Chem. Biol. , 18:943-948 (co-corresponding author)
76*. Wu, S. Ge, X. Lv Z., Zhi Z., Chang, Z. and Zhao, X. S, (2011) Interaction between Bacterial Outer Membrane Proteins and Periplasmic Quality Control Factors: A Kinetic Partitioning Mechanism , Biochem. J., 438:505-511. (co-corresponding author)
75*. Zengyi Chang and Neil Isaacs, (2011) The 2011 Joint Sino-UK Protein Symposium, Biochemical Society Transaction, 39:1311-1312 , The introduction of a special issue Edited by Zengyi Chang and Neil Isaacs. (corresponding author)
74*. Xiaodong Shi, Zhao Wang, Linxuan Yan,Anastasia N. Ezemaduka, Guizhen Fan, Rui Wang, Xin-Miao Fu, Chang-Cheng Yin, Zengyi Chang , (2011) small heat shock protein AgsA forms dynamic fibrils, FEBS Letters, 585:3396-3402.
73*. Chang, Z. (2011) Science China Life Sciences in 2010: a New name marking a new start , Progress in Biochemistry and Biophysics , 38: 804~809
72*. Feng, Y. J., Zhang, M., Hu, M., X., Zheng, J., Jiao, W. W., and Chang ,Z. (2009). Disassembly intermediates of RbsD pro tein remain oligomeric despite the loss of an intact secondary structure. Sci China Ser C-Life Sci, 52(11): 997-1002. (cover article)
71. Chang, Z (2009) “Posttranslational modulation on the Biological Activities of Molecular Chaperones”, Sci. China. Ser. C- Lif Sci.,52:515-520. (invited review)
*70. Chang, Z. (2009) “The CUSBEA Program: Twenty Years Later”, IUBMB Life, 61(6): 555-565.(feature article)
*69. Wang,Y. Ezemaduka, A. N., Tang, Y. and Chang, Z. , (2009) Understanding the Mechanism of the Dormant Dauer Formation of C. elegans: From Genetics to Biochemistry , IUBMB Life , 61(6):607-612. (Invited critical review)
*68. Jiang J, Zhang X, Chen Y, Wu Y, Zhou ZH, Chang Z, Sui SF.(2008) “Activation of DegP chaperone-protease via formation of large cage-like oligomers upon binding to substrate proteins” Proc Natl Acad Sci U S A, 105(33):11939-11944.
*67. Wu, Y., Hong, W., Zhang, L., and Chang, Z. (2008) “Conserved Amphiphilic Feature Is Essential for Periplasmic Chaperone HdeA to Support Acid Resistance in Enteric Bacteria”, Biochem. J.,412:389-397.
*66. Liu, C., Mao, K., Zhang, M., Sun, Z., Hong, W., Li, C., Peng, B., and Chang, Z. (2008) “The SH3-Like Domain Switches Its Interaction Partners to Modulate the Repression Activity of Mycobacterial Iron-Dependent TranscrIption Regulator (IdeR) in Response to Metal Ion Fluctuations”, J. Biol. Chem., 283(4):2439-2453.
*65. Jiao, W., Hong, W., Li, P., Sun, S., Ma, J., Qian, M., Hu, M., and Chang, Z. (2008) “The Dramatically Increased Chaperone Activity of Small Heat Shock Protein IbpB is Retained for an Extended Period of Time after the Stress Condition is Removed”, Biochem. J., 410(1):63-70.
*64、张萌,昌增益 “认识真核生物细胞内使基因转录的蛋白质分子机器-2006年诺贝尔化学奖评述” 《2007科学发展报告》,科学出版社,2007年3月。
*63、马静, 葛熙、昌增益 “蛋白质功能研究:历史、现状和将来”,生命科学, 2007, 19(3):294-300。
*62、秦焱,王慧,昌增益 “线虫中的小分子热休克蛋白HSP12.1具有分子伴侣活性”生物化学与生物物理进展,2007, 34(6):620-624。
*61、Fu, X., and Chang, Z*. (2006) “Identification of bis-ANS binding sites in Mycobacterium tuberculosis small heat shock protein Hsp16.3: Evidences for a two-step substrate-binding mechanism” Biochem. Biophys. Res. Commun., 349:169-171.
*60、Feng, Y., Jiao, W., Fu, X., and Chang, Z. (2006) “Stepwise Disassembly and Apparent Non-stepwise Reassembly for the Oligomeric RbsD Protein “, Protein Science, 15(6):1441-1448.
*59、Zhang, X., Zheng, Y., and Chang, Z. (2006) “Peptide Induced Conformational Changes of E. coli DegP (HtrA) Protease”, Progress in Biochemistry and Biophysics, 33(2):183-189.
58、Fedurkina, N.V., Belousova, L.V., Mitskevich, L.G., Zhou, H.-M., Chang, Z., and Kurganov, B.I. (2006) “The change in the kinetic regime of protein aggregation with temperature increase: Thermal aggregation of rabbit muscle creatine kinase”, Biochemistry-Moscow, 71(3):325-331.
*57、Fu, X. and Chang ,Z. (2006) “Phylogenetic and biochemical studies reveal a potential evolutionary origin of animal small heat shock proteins from bacterial class A” J. Mol. Evol., 62:257-266.)
*56、Chen, X., Fu, X., Ma, Y., and Chang, Z. (2005) “Chaperone-like activity of Mycobacterium tuberculosis Hsp16.3 does not require its intact (native) structures”, Biochemistry-Moscow,70(8):913-919.
*55、Jiao, W., Li, P., Zhang, J., Zhang, H., Chang, Z. (2005) “Small Heat Shock Proteins Function in the Insoluble Protein Complex”, Biochem Biophys Res Commun,335(1):227-231.
*54、Hong, W., Jiao, W., Hu, J., Zhang, J., Liu, C., Fu, X., Shen, D., Xia, B., and Chang, Z. (2005) “Periplasmic Protein HdeA Exhibits Chaperone-like Activity Exclusively within Stomach pH Range by Transforming into Disordered Conformation”, J. Biol. Chem., 280(29):27029-27034.
*53、Fu, X. and Chang , Z (2005) “Identification of a highly conserved Pro-Gly in non-animal small heat shock proteins and characterization of its structural and functional roles in Mycobacterium tuberculosis Hsp16.3” Biochemistry-Moscow, 69(5):678-685.
*52、Fu, X., Zhang, H., Zhang, X., Cao, Y., Jiao, W., Liu, C., Song, Y., Abulimiti, A., and Chang, Z. (2005) “A dual role for the N-terminal region of Mycobacterium tuberculosis Hsp16.3 in self-oligomerization and binding denaturing substrate proteins” J. Biol. Chem., 280 (8) :6337-6348.
*51、Zhang, H. Fu, X. Jiao, W., Zhang, X., Liu, C., and Chang, Z. (2005) “The association of small heat shock protein Hsp16.3 with the plasma membrane of Mycobacterium tuberculosis: dissociation of oligomers is a prerequisite” Biochem Biophys Res Commun, 330:1055-1061.
*50、Jiao,W., Qian, M., Li, P., Zhao, L., and Chang, Z. (2005) “The essential role of the flexible termini in the temperature-responsiveness of the oligomeric state and chaperone-like activity for the polydisperse small heat shock protein IbpB from Escherichia coli” J. Mol. Biol., 347(4):871-884.
*49、Fu, X., Zhang, X., and Chang, Z. (2005) “4`-dianilino-1,1`-binaphthyl-5,5`-sulfonate (bis-ANS), a novel molecule having chaperone-like activity”, Biochem Biophys Res Commun,329:1087-1093.
*48、Zhang, X.,Fu, X., Zhang, H., Liu, C. Jiao, W., and Chang, Z. (2005) “Chaperone-like Activity of β-Casein”, Interna. J. Biochem. Cell Biol., 37:1232-1240.
47、叶子坚,刘冲,陈效友,昌增益 “分枝杆菌中表达重组蛋白的新载体pMSL的构建”, 江西农业大学学报,2005年第27卷5期,753-758。
*46、昌增益,焦旺旺 “细胞内一种耗能蛋白质降解途径的发现:2004年诺贝尔化学奖工作介绍”,生物物理学报,2004年,第20卷第6期,第421-425页。
*45、陈效友,李传友,马王与,刘冲,王敬慧,张雪峰,昌增益 “卡介苗菌MDP1基因敲除技术的研究” 中国结核和呼吸杂志,2004年,第27卷第3期,第183-187页。
*44、Liu, C. He., Y. and Chang Z. (2004) Truncated hemoglobin of Mycobacterium tuberculosis: The oligomeric state change and the interaction with membrane components” Biochem Biophys Res Commun. 316:1163-1172.
*43、Liu Y., Fu, X., Shen, J., Zhang, H., Hong, W., and Chang, Z. (2004) “Periplasmic proteins of Escherichia coli are highly resistant to aggregation: A reappraisal for roles of molecular chaperones in periplasm” Biochem Biophys Res Commun. 316(3):795-801.
*42、Fu, X. and Chang, Z. (2004) “Temperature-dependent subunit exchange and chaperone-like activities of Hsp16.3, a small heat shock protein from Mycobacterium tuberculosis” Biochem Biophys Res Commun. 316:291-299.
*41、Zhang, X. and Chang Z. (2004) “Temperature-dependent protease activity and structural properties of human HtrA2 protease” Biochemistry-Moscow, 69(6):687-692.
*40、Fu, X., Jiao, W., Abulimiti, A. and Chang, Z. (2004) “Inter-subunit cross-linking suppressed the dynamic oligomeric dissociation of Mycobacterium tuberculosis Hsp16.3 and reduced its chaperone activity” Biochemistry-Moscow, 69(5):552-557.
*39、Fu X, Li W, Mao Q, Chang Z. (2003) “Disulfide bonds convert small heat shock protein Hsp16.3 from a chaperone to a non-chaperone: implications for the evolution of cysteine in molecular chaperones” Biochem Biophys Res Commun. 308(3):627-635.
*38、Fu, X. Liu, C., Liu, Y., Feng, X., Gu, L., Chen, X., and Chang, Z.(2003)“Small Heat Shock Protein Hsp16.3 Modulates Its Chaperone Activity by Adjusting the Rate of Oligomeric Dissociation”. Biochem Biophys Res Commun. 310(2):412-420.
*37、Abulimiti, A., Fu, X., Gu., L., Feng, X., and Chang, Z. (2003) ` Mycobacterium tuberculosis Hsp16.3 Nonamers are Assembled and Re-assembled via Trimer and Hexamer Intermediates ` J. Mol. Biol. 326(4):1013-1023.
*36、Abulimiti, A., Qiu, X., Chen, J., Liu, Y., and Chang, Z. (2003) “Reversible methionine sulfoxidation of Mycobacterium tuberculosis small heat shock protein Hsp16.3 and its possible role in scavenging oxidants” Biochem. Biophys. Res. Commun., 305(1):87-93.
*35、Abulimiti, A. and Chang, Z. (2003) `Alpha-crystallin promotes the assembly of trimeric form of the Mycobacterium tuberculosis Hsp16.3 in cell free system` Biochemistry (Moscow), 68(3):269-274.
34、Chen Y, Lu YJ, Wang HW, Quan S, Chang Z, Sui SF. (2003) “Two-dimensional crystallization of a small heat shock protein HSP16.3 on lipid layer” Biochem Biophys Res Commun. 310(2):360-6.
*33、Gu, L., Abulimiti, A., Li, W., and Chang, Z. (2002) `Monodisperse Hsp16.3 nonamer exhibits dynamic dissociation and reassociation, with the nonamer dissociation prerequisit for chaperone-like activity` J. Mol. Biol. 319(2):517-526.
*32、Feng, X., Huang, S. Fu, X., Abulimiti, A. and Chang, Z. (2002) `The reassembling process of the nonameric Mycobacterium tuberculosis small heat shock protein Hsp16.3 occurs via a stepwise mechanism` Biochem. J., 363:329-334
*31、毛启龙,冯修光,昌增益“结核杆菌小分子热休克蛋白Hsp16.3的高效自发再折叠和再组装”生物化学与生物物理进展,2002年,29(1):87-90。1
*30、黄素芳,古良才,毛启龙,昌增益“Leu122对 Hsp16.3组装过程中亚基相互作用的影响” 中国生物化学与分子生物学报,2002年,18(1):99-104。
29、Xiu, Z., Chang, Z., Zeng, A. (2002) `Nonlinear Dynamics of Regulations of Bacterial trp operon: Model Analysis of Integrated Effects of Repression, Feedback Inhibition, and Attenuation` Biochnol. Prog. 18:686-693.
28、Pan, G. J., Chang, Z.Y., Scholer, H.R., and Pei, D. Q. (2002) “Stem cell pluripotency and transcrIption factor Oct4” Cell Research 12(5-6):321-329.
*27、Mao, Q., Ke, D., Feng, X. and Chang, Z. (2001) “Preheat Treatment for Mycobacterium tuberculosis Hsp16.3: Correlation Between a Structural Phase Change at 60oC and a Dramatic Increase in Chaperone-like Activity” Biochem. Biophys. Res. Commun., 284:942-947.
*26、Mao, Q., Chang, Z. (2001) “Site-directed Mutation on the only Universally Conserved Residue Leu122 of Small Heat Shock Protein Hsp16.3” Biochem. Biophys. Res. Commun., 289(5):1257-1261.
*25、Mao, Q., Ke, D., Chang, Z. (2001) “Electrostatic interaction plays an essential role for Mycotacterium tuberculosis Hsp16.3 to interact with substrate proteins” Biochemistry (Moscow), 66(8):904-908.
*24、Mao, Q., Ke, D., and Chang, Z. (2001) `Heat treatment of small heat shock proteins alpha-crystallin and Hsp16.3: Structure changes vs. Chaperone like activity` Tsinghua Science and Technology, 6(5):406-409.
23、Chen, Y., An, J., Ding, Y., Dai, H., Mao, Q., Feng, L., Liu, B., Chang, Y., Chen, F., He, H., Tang, H., Chang, Z., and Rao, ZH (2001) “Preliminary X-ray crystallographic studies of the Mycobacterium tuberculosis Hsp16.3 molecular chaperone” Protein and Peptide letters, 8(6):499-502.
*22、Dai, H., Mao, Q., Yang, H., and Chang, Z. (2000) “Probing the Roles of the Only Universally Conserved Leucine Residue in the Oligomerization and Chaperone-like Activity of Mycobacterium tuberculosis Small Heat Shock Protein Hsp16.3”, J. Protein Chem., 19(4):319-326.
21、Wang, L., Duan, M., Zhang, Y. Lin S., and Chang, Z. (2000)“Translocation of P53-regulated laminin receptors in pro-apoptotic microcircustance of human vasculogenesis inhibition”, Cell Biology International, 24(10):745-748
20、修志龙,昌增益,苏志国“20世纪生物技术回顾与21世纪展望”,自然杂志,2000,22(219):233-240。
19、张代佳,刘传斌,修志龙,昌增益“微波技术在植物细胞内有效成分提取中的应用”,中草药,2000, 31(9):5-6。
18、Yang, H., Huang, S., Dai, H., Gong, Y., Zheng, C., and Chang, Z. (1999), “The Mycobacterium tuberculosis small heat shock protein HSP16.3 Exposes Hydrophobic Surfaces at Mild Conditions: Conformational Flexibility and Molecular Chaperone Activity”, Protein Science, 8(1):174-179.
*13、杨红梅,毛启龙,薛涛,昌增益,“结核杆菌小分子热休克蛋白Hsp16.3一高度保守亮氨酸的定点突变研究”,清华大学学报(自然科学版),1999年36(6):42-45。
*12、昌增益,戴红政,毛启龙,余冰滨 (1999)“克隆的概念,意义与进展”生物学通报,34(11):3-6。
11、7、Chang, Z., Wilson, D.K., Kellems, R.E., and Quiocho, F.A. (1997) “Cysteine not Required for the Catalytic Activity of Adenosine Deaminase” Tsinghua Science and Technology (published in English), 2(1):441-446.
6、Chang, Z., Primm, T.P., Jakana, J., Lee, I.H., Chiu, W., Gilb ert, H.F., and Quiocho, F.A. (1996) “Mycobacterium tuberculosis 16-kDa Antigen (HSP16.3) Functions as an Oligomeric Structure in Vitro to Suppress Thermal Aggregation” J. Biol. Chem., 271(12):7218-7223
5、Sideraki, V., Mohamedali, K.A.,Wilson, D.K., Chang, Z., Kellems, R.E., Quiocho, F.A., and Rudolph, F.B. (1996) “Probing the Functional Role of Two Conserved Active Site Aspartates in Mouse Adenosine Deaminase” Biochemistry, 35(4):7862-7872.
4、Chang, Z., Choudhary, A. Lathigra, R. and Quiocho, F.A. (1994) “The Immunodominant 38-kDa Lipoprotein Antigen of Mycobacterium tuberculosis Is a Phosphate-binding Protein” J. Biol. Chem., 269(3):1956-1958.
3、Chouhary, A., Vyas, M. N. Vyas, N. K. Chang, Z. and Quiocho, F.A. (1994) “Crystallization and Preliminary X-ray Crystallographic Analysis of the 38-kDa Immunodominant Antigen of Mycobacterium tuberculosis”Protein Science, 3(12):2450-2451.
2、Sharff, A. J., Wilson, D. K., Chang, Z. and Quiocho, F. A. (1992) “Refined 2.5 A Structure of Murine Adenosine Deaminase at pH 6.0” J. Mol. Biol., 226(4):917-921.
1、Chang, Z., Nygaard, P., Chinault, A. C., and Kellems, R. (1991)“Deduced Amino Acid Sequence of Escherichia coli Adenosine Deaminase Reveals Evolutionarily Conserved Amino Acid Residues: Implications for Catalytic Function” Biochemistry, 30(8):2273-2280.
LABORATORY INTRODUCTION
We explore proteins in living cells, concerning biogenesis, assembly, quality control, regulation and action mechanism of proteins.
