Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
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On the mechanism of multiple lysine methylation by the human mixed lineage leukemia protein-1 (MLL1) core complexCharacterization of glycine sarcosine N-methyltransferase and sarcosine dimethylglycine N-methyltransferaseStructural analysis of an eIF3 subcomplex reveals conserved interactions required for a stable and proper translation pre-initiation complex assemblyIMP dehydrogenase: structure, mechanism, and inhibition.ATPase mechanism of Eg5 in the absence of microtubules: insight into microtubule activation and allosteric inhibition by monastrolKinetic isotope effect studies on the de novo rate of chromophore formation in fast- and slow-maturing GFP variantsAnthrax pathogen evades the mammalian immune system through stealth siderophore productionEstablishing the kinetic competency of the cationic imine intermediate in nitroalkane oxidaseWeak binding affinity of human 4EHP for mRNA cap analogsProbing a rate-limiting step by mutational perturbation of AdoMet binding in the HhaI methyltransferaseKinetics of substrate recognition and cleavage by human 8-oxoguanine-DNA glycosylaseDimerization of the bacterial RsrI N6-adenine DNA methyltransferaseSingle-Molecule Imaging Reveals that Argonaute Reshapes the Binding Properties of Its Nucleic Acid GuidesCatch-bond mechanism of the bacterial adhesin FimH.Multiple UDP-glucuronosyltransferases in human liver microsomes glucuronidate both R- and S-7-hydroxywarfarin into two metabolites.Substrate inhibition kinetic model for West Nile virus NS2B-NS3 proteaseInhibition of fructose-1,6-bisphosphatase by a new class of allosteric effectorsInhibition of Chymotrypsin by a Complex of Ortho-Vanadate and Benzohydroxamic Acid: Structure of the Inert Complex and Its Mechanistic Interpretation †Biochemical and Crystallographic Analysis of Substrate Binding and Conformational Changes in Acetyl-CoA Synthetase † , ‡Structure of inhibited fructose-1,6-bisphosphatase from Escherichia coli: distinct allosteric inhibition sites for AMP and glucose 6-phosphate and the characterization of a gluconeogenic switchStructure and metal binding properties of ZnuA, a periplasmic zinc transporter from Escherichia coliDeterminants of Cytochrome P450 2C8 Substrate Binding: STRUCTURES OF COMPLEXES WITH MONTELUKAST, TROGLITAZONE, FELODIPINE, AND 9-CIS-RETINOIC ACIDImplementing the LIM code: the structural basis for cell type-specific assembly of LIM-homeodomain complexesThe Siderocalin/Enterobactin Interaction: A Link between Mammalian Immunity and Bacterial Iron Transport 1Versatility of Y-family Sulfolobus solfataricus DNA Polymerase Dpo4 in Translesion Synthesis Past Bulky N2-Alkylguanine AdductsAdaptive protein evolution grants organismal fitness by improving catalysis and flexibilityRole of Bound Zn(II) in the CadC Cd(II)/Pb(II)/Zn(II)-responsive RepressorStructure of Thermotoga maritima TM0439: implications for the mechanism of bacterial GntR transcription regulators with Zn2+-binding FCD domains.Structure-Function Relationships in Miscoding by Sulfolobus solfataricus DNA Polymerase Dpo4: GUANINE N2,N2-DIMETHYL SUBSTITUTION PRODUCES INACTIVE AND MISCODING POLYMERASE COMPLEXESMechanistic insights into Cu(I) cluster transfer between the chaperone CopZ and its cognate Cu(I)-transporting P-type ATPase, CopACoronavirus N Protein N-Terminal Domain (NTD) Specifically Binds the Transcriptional Regulatory Sequence (TRS) and Melts TRS-cTRS RNA DuplexesKinetic and Structural Characterization of Dihydrofolate Reductase from Streptococcus pneumoniaeCharacterization of a Bacillus subtilis transporter for petrobactin, an anthrax stealth siderophoreStructure and Filament Dynamics of the pSK41 Actin-like ParM Protein: IMPLICATIONS FOR PLASMID DNA SEGREGATIONEvolution of Metal Selectivity in Templated Protein InterfacesIron traffics in circulation bound to a siderocalin (Ngal)–catechol complexStructural insights into cis element recognition of non-polyadenylated RNAs by the Nab3-RRMStructural study and thermodynamic characterization of inhibitor binding to lumazine synthase fromBacillus anthracisThe Solution Structure of the ADAR2 dsRBM-RNA Complex Reveals a Sequence-Specific Readout of the Minor GrooveThe Crystal Complex of Phosphofructokinase-2 of Escherichia coli with Fructose-6-phosphate
P2860
Q24339403-15BAA596-0F32-4837-9F18-858CB329AF51Q24550144-0112EDC0-21CB-44D0-81E4-3B3BCF3EDF48Q24618222-C0E63ED6-401C-4447-8C63-6547BF1E0EE2Q24642299-365B3B70-15DB-45F0-97BB-DA6B2C4F5E25Q24650875-86A83B22-BEE3-4984-BC23-106BEB16D0FFQ24653020-C8E0DB63-05CE-4EBB-87DB-AC5D80E81CB8Q24675112-20AF0713-1FA1-4F7C-B795-F586BC1A32C9Q24676281-E005DE54-6A0C-4883-9613-52C6F5F04153Q24682514-B88AB776-0872-4334-9F59-3EF69845E0D7Q24794135-5B525910-8EEB-46ED-9863-07B159518C6AQ24812802-0662E93A-6C4C-4AD6-A52A-AA53835ACD75Q25257375-53C8B74F-F1E8-428B-9820-7F4BCC0645CEQ27322573-69756231-AD71-4905-B83D-34C30A12B7A7Q27331629-AE24D4D1-6AD2-43E3-8114-A30C50546517Q27334876-216803A4-4B82-418C-AA6D-BB90F162F7BCQ27487970-DBAE5BDB-5CA7-449B-8632-55A738B973DCQ27642300-D0F400E0-B01D-41DD-9112-6E2B74DE1199Q27644649-A742ED09-7381-43DD-8546-EA794DC9F1D1Q27644755-3B0C851B-D454-46E5-BF0C-AEC9F24C2BF6Q27645762-C29DFB8A-E21F-4929-B24C-5AF8C129A8D2Q27649111-A2B6EFAE-316E-474A-A022-2AF08D6FC6A3Q27650327-19267457-4DF9-444D-95DC-0FD87B96215FQ27650961-A63C3C4A-11F8-4588-9FFB-6CF7133284B5Q27651418-C54C9C86-71F8-4715-A7AC-684D2B144AE3Q27653071-8D9566DD-236F-46BD-9742-0D49BF8A2802Q27653196-2FC08BFD-E059-4AC2-B314-60D00E7D6CC0Q27654121-70FB0A2E-1650-4D43-9F04-64007AED255BQ27654250-55718AC9-03F1-4B63-A81E-604CB08D3EC8Q27656089-0AEB5C53-0E5F-48AD-9EC8-D1F72B05B494Q27657429-549C418B-92BF-4CE0-8285-DDE335694AD3Q27657573-94BC00BD-EBBB-40B4-9AF2-5B0EBD057AF4Q27658393-E58AEB4C-AB57-45CD-9669-B42623E677EBQ27658409-0F948E03-E283-42BD-8A38-DC78F747E126Q27659237-5F136085-390B-40C4-BDB0-77E00EA38075Q27662076-C164C416-99D4-4D0E-8546-670FE3FF7583Q27662810-762685A0-78E8-4D1B-ACF0-A1DD2EFCF2BCQ27664230-C7E23CDA-2012-441F-864B-92C3769CDC88Q27664339-F635685E-4E8F-44AB-998D-5CA73299DCE7Q27665030-4F79E6F9-C04B-41ED-8239-C9C370103939Q27666318-9024A414-4165-4869-B37E-15DECF949B96
P2860
Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
description
1996 nî lūn-bûn
@nan
1996 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
@ast
Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
@en
type
label
Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
@ast
Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
@en
prefLabel
Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
@ast
Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
@en
P3181
P356
P1476
Program DYNAFIT for the analysis of enzyme kinetic data: application to HIV proteinase
@en
P2093
P304
P3181
P356
10.1006/ABIO.1996.0238
P407
P577
1996-06-01T00:00:00Z