Enzim Notlar

Notlar


* Smith AD (Ed) et al (1997)) Oxford Dictionary of Biochemistry and Molecular Biology Oxford University Press ISBN 0-19-854768-4
* Garrett RH, Grisham CM (1999) Biochemistry, Second Edition Saunders College Publishing 426-427 ISBN 0-03-022318-0
* Bairoch A (2000) "The ENZYME database in 2000" Nucleic Acids Res 28: 304-305 doi:101093/nar/281304 PMID 10592255 http://wwwexpasyorg/NAR/enz00pdf
* Lilley D (2005) "Structure, folding and mechanisms of ribozymes" Curr Opin Struct Biol 15 (3): 313-23 doi:101016/jsbi200505002 PMID 15919196
* Cech T (2000) "Structural biology The ribosome is a ribozyme" Science 289 (5481): 878-9 doi:101126/science2895481878 PMID 10960319
* de Reaumur, RAF (1752) "Observations sur la digestion des oiseaux" Histoire de l'academie royale des sciences 1752: 266, 461
* Williams, H S (1904) A History of Science: in Five Volumes Volume IV: Modern Development of the Chemical and Biological Sciences Harper and Brothers (New York) Accessed 4 April 2007
* Dubos J (1951) "Louis Pasteur: Free Lance of Science, Gollancz Quoted in Manchester K L (1995) Louis Pasteur (1822-1895)-chance and the prepared mind" Trends Biotechnol 13 (12): 511-515 doi:101016/S0167-7799(00)89014-9 PMID 8595136
* Nobel Laureate Biography of Eduard Buchner at http://nobelprizeorg Accessed 4 April 2007
* Text of Eduard Buchner's 1907 Nobel lecture at http://nobelprizeorg Accessed 4 April 2007
* 1946 Nobel prize for Chemistry laureates at http://nobelprizeorg Accessed 4 April 2007
* Blake CC, Koenig DF, Mair GA, North AC, Phillips DC, Sarma VR (1965) "Structure of hen egg-white lysozyme A three-dimensional Fourier synthesis at 2 Angstrom resolution" Nature 22 (206): 757-761 doi:101038/206757a0 PMID 5891407
* Chen LH, Kenyon GL, Curtin F, Harayama S, Bembenek ME, Hajipour G, Whitman CP (1992) "4-Oxalocrotonate tautomerase, an enzyme composed of 62 amino acid residues per monomer" J Biol Chem 267 (25): 17716-21 PMID 1339435
* Smith S (1994) "The animal fatty acid synthase: one gene, one polypeptide, seven enzymes" Faseb J 8 (15): 1248-59 PMID 8001737 http://wwwfasebjorg/cgi/reprint/8/15/1248
* Anfinsen CB (1973) "Principles that Govern the Folding of Protein Chains" Science 181: 223-230 doi:101126/science1814096223 PMID 4124164
* The Catalytic Site Atlas at The European Bioinformatics Institute Accessed 4 April 2007
* Jaeger KE, Eggert T (2004) "Enantioselective biocatalysis optimized by directed evolution" Curr Opin Biotechnol 15(4): 305-313 doi:101016/jcopbio200406007 PMID 15358000
* Shevelev IV, Hubscher U (2002) "The 3' 5' exonucleases" Nat Rev Mol Cell Biol 3 (5): 364-376 doi:101038/nrm804 PMID 11988770
* Berg J, Tymoczko J and Stryer L (2002) Biochemistry W H Freeman and Company ISBN 0-7167-4955-6
* Zenkin N, Yuzenkova Y, Severinov K (2006) "Transcript-assisted transcriptional proofreading" Science 313: 518-520 doi:101126/science1127422 PMID 16873663
* Ibba M, Soll D (2000) "Aminoacyl-tRNA synthesis" Annu Rev Biochem 69: 617-650 doi:101146/annurevbiochem691617 PMID 10966471
* Rodnina MV, Wintermeyer W (2001) "Fidelity of aminoacyl-tRNA selection on the ribosome: kinetic and structural mechanisms" Annu Rev Biochem 70: 415-435 doi:101146/annurevbiochem701415 PMID 11395413
* Şablon:Cite web kullanımında hata: Parametreler url ve başlık tanımlanmalı
* Fischer E (1894) "Einfluss der Configuration auf die Wirkung der Enzyme" Ber Dt Chem Ges 27: 2985-2993 doi:101002/cber18940270364 http://gallicabnffr/ark:/12148/bpt6k90736r/f364chemindefer
* Koshland D E (1958) "Application of a Theory of Enzyme Specificity to Protein Synthesis" Proc Natl Acad Sci 44 (2): 98-104 doi:101073/pnas44298 PMID 16590179
* Vasella A, Davies GJ, Bohm M (2002) "Glycosidase mechanisms" Curr Opin Chem Biol 6 (5): 619-629 doi:101016/S1367-5931(02)00380-0 PMID 12413546
* başlık ISBN 0-470-00379-0
* Fersht, A (1985) Enzyme Structure and Mechanism (2nd ed) p50-52 W H Freeman & co, New York ISBN 0-7167-1615-1
* Jencks WP "Catalysis in Chemistry and Enzymology" 1987, Dover, New York
* Villa J, Strajbl M, Glennon TM, Sham YY, Chu ZT, Warshel A (2000) "How important are entropic contributions to enzyme catalysis?" Proc Natl Acad Sci USA 97 (22): 11899-904 doi:101073/pnas972211899 PMID 11050223
* Warshel A, Sharma PK, Kato M, Xiang Y, Liu H, Olsson MH (2006) "Electrostatic basis for enzyme catalysis" Chem Rev 106 (8): 3210-35 doi:101021/cr0503106 PMID 16895325
* Eisenmesser EZ, Bosco DA, Akke M, Kern D Enzyme dynamics during catalysis Science 2002 February 22;295(5559):1520-3 PMID: 11859194
* Agarwal PK Role of protein dynamics in reaction rate enhancement by enzymes J Am Chem Soc 2005 November 2;127(43):15248-56 PMID: 16248667
* Eisenmesser EZ, Millet O, Labeikovsky W, Korzhnev DM, Wolf-Watz M, Bosco DA, Skalicky JJ, Kay LE, Kern D Intrinsic dynamics of an enzyme underlies catalysis Nature 2005 November 3;438(7064):117-21 PMID: 16267559
* Yang LW, Bahar I (5 June 2005) "Coupling between catalytic site and collective dynamics: A requirement for mechanochemical activity of enzymes" Structure 13: 893-904 doi:101016/jstr200503015 PMID 15939021 http://wwwstructureorg/content/article/abstract?uid=PIIS096921260500167X
* Agarwal PK, Billeter SR, Rajagopalan PT, Benkovic SJ, Hammes-Schiffer S (5 March 2002) "Network of coupled promoting motions in enzyme catalysis" Proc Natl Acad Sci U S A 99: 2794-9 doi:101073/pnas052005999 PMID 11867722
* Agarwal PK, Geist A, Gorin A Protein dynamics and enzymatic catalysis: investigating the peptidyl-prolyl cis-trans isomerization activity of cyclophilin A Biochemistry 2004 August 24;43(33):10605-18 PMID: 15311922
* Tousignant A, Pelletier JN (Aug 2004) "Protein motions promote catalysis" Chem Biol 11 (8): 1037-42 doi:101016/jchembiol200406007 PMID 15324804 http://wwwsciencedirectcom/science?_ob=ArticleURL&_udi=B6VRP-4D4JYMC-6&_coverDate=08%2F31%2F2004&_alid=46596291 6&_rdoc= 1&_fmt=&_orig=search&_qd=1&_cdi=62 40&_sort=d&view= c&_acct=C000050221&_version=1&_urlVers ion=0&_useri d=10&md5=613585a6164baa38b4f6536d8da9170a
* Olsson MHM, Parson WW and Warshel A "Dynamical Contributions to Enzyme Catalysis: Critical Tests of A Popular Hypothesis" Chem Rev, 2006 105: 1737-1756
* Şablon:Cite web kullanımında hata: Parametreler url ve başlık tanımlanmalı
* Şablon:Cite web kullanımında hata: Parametreler url ve başlık tanımlanmalı
* Fisher Z, Hernandez Prada JA, Tu C, Duda D, Yoshioka C, An H, Govindasamy L, Silverman DN and McKenna R (2005) "Structural and kinetic characterization of active-site histidine as a proton shuttle in catalysis by human carbonic anhydrase II" Biochemistry 44(4): 1097-115 doi:101021/bi0480279 PMID 15667203
* AF Wagner, KA Folkers (1975) Vitamins and coenzymes Interscience Publishers New York| ISBN 0-88275-258-8
* BRENDA The Comprehensive Enzyme Information System 4 Nisan 2007'de ulaşılmıştır
* Henri, V (1902) "Theorie generale de l'action de quelques diastases" Compt Rend Hebd Acad Sci Paris 135: 916-919
* Sørensen,PL (1909) "Enzymstudien {II} Über die Messung und Bedeutung der Wasserstoffionenkonzentration bei enzymatischen Prozessen" Biochem Z 21: 131-304
* Michaelis L, Menten M (1913) "Die Kinetik der Invertinwirkung" Biochem Z 49: 333-369 English translation Accessed 6 April 2007
* Briggs G E, Haldane J B S (1925) "A note on the kinetics of enzyme action" Biochem J 19: 339-339 PMID 16743508 http://wwwbiochemjorg/bj/019/0338/bj0190338_browsehtm
* Radzicka A, Wolfenden R (1995) "A proficient enzyme" Science 6 (267): 90-931 doi:101126/science7809611 PMID 7809611
* Ellis RJ (2001) "Macromolecular crowding: obvious but underappreciated" Trends Biochem Sci 26 (10): 597-604 doi:101016/S0968-0004(01)01938-7 PMID 11590012
* Kopelman R (1988) "Fractal Reaction Kinetics" Science 241 (4873): 1620-26 doi:101126/science24148731620
* Savageau MA (1995) "Michaelis-Menten mechanism reconsidered: implications of fractal kinetics" J Theor Biol 176 (1): 115-24 doi:101006/jtbi19950181 PMID 7475096
* Schnell S, Turner TE (2004) "Reaction kinetics in intracellular environments with macromolecular crowding: simulations and rate laws" Prog Biophys Mol Biol 85 (2-3): 235-60 doi:101016/jpbiomolbio200401012 PMID 15142746
* Xu F, Ding H (2007) "A new kinetic model for heterogeneous (or spatially confined) enzymatic catalysis: Contributions from the fractal and jamming (overcrowding) effects" Appl Catal A: Gen 317 (1): 70-81 doi:101016/japcata200610014
* Masgrau L, Roujeinikova A, Johannissen L O, Hothi P, Basran J, Ranaghan K E, Mulholland A J, Sutcliffe M J, Scrutton N S, Leys D (2006) "Atomic Description of an Enzyme Reaction Dominated by Proton Tunneling" Science 312 (5771): 237-241 doi:101126/science1126002 PMID 16614214
* Garcia-Viloca M, Gao J, Karplus M, Truhlar D G (2004) "How enzymes work: analysis by modern rate theory and computer simulations" Science 303 (5655): 186-195 doi:101126/science1088172 PMID 14716003
* Olsson M H, Siegbahn P E, Warshel A (2004) "Simulations of the large kinetic isotope effect and the temperature dependence of the hydrogen atom transfer in lipoxygenase" J Am Chem Soc 126 (9): 2820-1828 doi:101021/ja037233l PMID 14995199
* Cleland, WW (1963) "The Kinetics of Enzyme-catalyzed Reactions with two or more Substrates or Products 2 {I}nhibition: Nomenclature and Theory" Biochim Biophys Acta 67: 173-187
* Poulin R, Lu L, Ackermann B, Bey P, Pegg AE Mechanism of the irreversible inactivation of mouse ornithine decarboxylase by alpha-difluoromethylornithine Characterization of sequences at the inhibitor and coenzyme binding sites J Biol Chem 1992 January 5;267(1):150-8 PMID 1730582
* Ball, Philip (2006) The Devil's Doctor: Paracelsus and the World of Renaissance Magic and Science Farrar, Straus and Giroux ISBN 0-374-22979-1
* Yoshikawa S and Caughey WS (May 1990) "Infrared evidence of cyanide binding to iron and copper sites in bovine heart cytochrome c oxidase Implications regarding oxygen reduction" J Biol Chem 265 (14): 7945-7958 PMID 2159465 http://wwwjbcorg/cgi/reprint/265/14/7945
* Hunter T (1995) "Protein kinases and phosphatases: the yin and yang of protein phosphorylation and signaling" Cell 80(2): 225-236 doi:101016/0092-8674(95)90405-0 PMID 7834742
* Berg JS, Powell BC, Cheney RE (2001) "A millennial myosin census" Mol Biol Cell 12(4): 780-794 PMID 11294886 http://wwwpubmedcentralnihgov/articlerenderfcgi?tool=pubmed&pubmedid=112948 86
* Meighen EA (1991) "Molecular biology of bacterial bioluminescence" Microbiol Rev 55(1): 123-142 PMID 2030669 http://wwwpubmedcentralnihgov/articlerenderfcgi?tool=pubmed&pubmedid=203066 9
* Mackie RI, White BA (1990) "Recent advances in rumen microbial ecology and metabolism: potential impact on nutrient output" J Dairy Sci 73 (10): 2971-95 PMID 2178174 http://jdsfassorg/cgi/reprint/73/10/2971
* Faergeman N J, Knudsen J (April 1997) "Role of long-chain fatty acyl-CoA esters in the regulation of metabolism and in cell signalling" Biochem J 323: 1-12 PMID 9173866 http://wwwpubmedcentralnihgov/picrenderfcgi?artid=1218279&blobtype=pdf
* Doble B W, Woodgett J R (April 2003) "GSK-3: tricks of the trade for a multi-tasking kinase" J Cell Sci 116: 1175-1186 doi:101242/jcs00384 PMID 12615961 http://jcsbiologistsorg/cgi/content/full/116/7/1175
* Carr C M, Kim P S (April 2003) "A spring-loaded mechanism for the conformational change of influenza hemagglutinin" Cell 73: 823-832 doi:101016/0092-8674(93)90260-W PMID 8500173
* Phenylketonuria: NCBI Genes and Disease Accessed 4 April 2007
* Renugopalakrishnan V, Garduno-Juarez R, Narasimhan G, Verma CS, Wei X, Li P (2005) "Rational design of thermally stable proteins: relevance to bionanotechnology" J Nanosci Nanotechnol 5 (11): 1759-1767 doi:101166/jnn2005441 PMID 16433409
* Hult K, Berglund P (2003) "Engineered enzymes for improved organic synthesis" Curr Opin Biotechnol 14 (4): 395-400 doi:101016/S0958-1669(03)00095-8 PMID 12943848

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