Crystal structure of the chemotaxis receptor methyltransferase CheR suggests a conserved structural motif for binding S-adenosylmethionine
about
CHEMOTAXIS-GUIDED MOVEMENTS IN BACTERIAHuman C6orf211 encodes Armt1, a protein carboxyl methyltransferase that targets PCNA and is linked to the DNA damage responseCrystal structure of human L-isoaspartyl-O-methyl-transferase with S-adenosyl homocysteine at 1.6-A resolution and modeling of an isoaspartyl-containing peptide at the active siteAn RNA cap (nucleoside-2'-O-)-methyltransferase in the flavivirus RNA polymerase NS5: crystal structure and functional characterizationCrystal structure of a fibrillarin homologue from Methanococcus jannaschii, a hyperthermophile, at 1.6 A resolutionCrystal structure of YecO from Haemophilus influenzae (HI0319) reveals a methyltransferase fold and a bound S-adenosylhomocysteineCrystal structures of mycolic acid cyclopropane synthases from Mycobacterium tuberculosisStructure of protein phosphatase methyltransferase 1 (PPM1), a leucine carboxyl methyltransferase involved in the regulation of protein phosphatase 2A activityStructural Insights into the Lipoprotein Outer Membrane Regulator of Penicillin-binding Protein 1BStructure of pvu II DNA-(cytosine N4) methyltransferase, an example of domain permutation and protein fold assignmentStructural basis for methylesterase CheB regulation by a phosphorylation-activated domainChemotaxis receptor recognition by protein methyltransferase CheRCrystal structure of Escherichia coli HdeAThe human homologue of the yeast proteins Skb1 and Hsl7p interacts with Jak kinases and contains protein methyltransferase activity.The yeast Saccharomyces cerevisiae YDL112w ORF encodes the putative 2'-O-ribose methyltransferase catalyzing the formation of Gm18 in tRNAs.Multiple Motif Scanning to identify methyltransferases from the yeast proteome.Calculating ensemble averaged descriptions of protein rigidity without samplingAn Ancient Fingerprint Indicates the Common Ancestry of Rossmann-Fold Enzymes Utilizing Different Ribose-Based CofactorsMany paths to methyltransfer: a chronicle of convergenceMaking sense of it all: bacterial chemotaxisBacterial locomotion and signal transduction.Two CheW coupling proteins are essential in a chemosensory pathway of Borrelia burgdorferi.Mutational analysis of the N-methyltransferase domain of the multifunctional enzyme enniatin synthetase.Cluster II che genes from Pseudomonas aeruginosa are required for an optimal chemotactic response.The tRNA(guanine-26,N2-N2) methyltransferase (Trm1) from the hyperthermophilic archaeon Pyrococcus furiosus: cloning, sequencing of the gene and its expression in Escherichia coli.Identification of the miaB gene, involved in methylthiolation of isopentenylated A37 derivatives in the tRNA of Salmonella typhimurium and Escherichia coli.Analysis of the yeast arginine methyltransferase Hmt1p/Rmt1p and its in vivo function. Cofactor binding and substrate interactions.Carboxyl-terminal extensions beyond the conserved pentapeptide reduce rates of chemoreceptor adaptational modification.AdoMet-dependent methylation, DNA methyltransferases and base flipping.The two-component signaling pathway of bacterial chemotaxis: a molecular view of signal transduction by receptors, kinases, and adaptation enzymesBinding and diffusion of CheR molecules within a cluster of membrane receptors.Biophysical and kinetic characterization of HemAT, an aerotaxis receptor from Bacillus subtilis.Amplification of signaling events in bacteria.Treponema pallidum putative novel drug target identification and validation: rethinking syphilis therapeutics with plant-derived terpenoids.Insights into molecular plasticity in protein complexes from Trm9-Trm112 tRNA modifying enzyme crystal structure.Influence of membrane lipid composition on a transmembrane bacterial chemoreceptor.The crystal structure of a novel SAM-dependent methyltransferase PH1915 from Pyrococcus horikoshii.Discrimination between different methylation states of chemotaxis receptor Tar by receptor methyltransferase CheR.Characterization of the Thermotoga maritima chemotaxis methylation system that lacks pentapeptide-dependent methyltransferase CheR:MCP tethering.High specificity in CheR methyltransferase function: CheR2 of Pseudomonas putida is essential for chemotaxis, whereas CheR1 is involved in biofilm formation.
P2860
Q22299232-0D7576A6-1E48-4A9F-B24B-AD97071D1A94Q24321253-7B108852-CBD1-4320-AA67-1FDF30520634Q24645256-714EF183-EF5E-49B6-AC69-E83A59DC657AQ27472613-FB797F51-9F80-428C-85BA-6C3D596CC28AQ27621159-680A3746-5F82-4518-9F11-32BF83898BBCQ27636863-25BA2AE1-00FF-42C6-99ED-41BCB67BF4ADQ27637103-040534CF-3803-436F-9D23-B5ED5CFC2ACAQ27642733-A751F929-E056-441E-A505-56CB940A3CF0Q27683684-5A810371-93E2-4382-B409-99B6F75A89ABQ27739964-89F5C500-2460-4901-BE60-5677D84691EFQ27748852-DD5FACC8-FB45-48CD-B5F2-013115A4993BQ27758850-27FFA111-BF87-4854-9513-33F2335C16E6Q27765274-963E17EB-4A9F-4916-91B1-C7CD7A69988AQ27931859-2F463C50-2CA7-493C-8584-8967AB5E5543Q27933569-CEF73861-CCCC-46E8-87EB-8119525D84DEQ27938769-CE44325B-ADE4-475F-8AE2-E181E4ED95BDQ28481155-6AF0BC09-DCE0-4C33-8E32-9FC3FE9089B9Q28550505-67FFE8B3-7047-4AEA-8906-21EB63244843Q29616667-F6E32AE0-82D0-48EC-A290-FFAC610029F3Q29617425-73F6C480-FE04-4823-8039-7912B712BF03Q30453434-42E0CC61-59F9-458A-94A5-0A0199AFBB7EQ30524178-2A699CFF-4E17-4947-BE55-03FE6825D92DQ30601606-487B5DD6-2DFA-4A66-8C99-49D21C38ED1AQ31098734-9DE8AE4E-5431-489A-BB75-F345ACB76EBEQ32048214-702A31CB-DACA-4926-AEAA-5942F66364A5Q33636589-23C2745D-22DC-4719-9709-47F95828162DQ33888183-2D331CA0-BC20-4DA9-9F26-D8EE37D9E867Q33937381-A6C71E41-D3D8-4FC7-AB9F-536165151BDAQ33941847-70380B81-B917-4E8A-B7E0-D4966B26F346Q33973438-5608DB24-9017-4857-803A-ED4D1AF2D631Q34120724-CFAE936F-D79B-47EE-92D5-4F0A3879D7BEQ34189820-C34CD79E-7112-4560-9197-9416873BD3E5Q34637784-30CA06AC-4198-4A3D-A3FA-0DB3C970B57DQ35067843-6E85BBE2-B761-4A70-B4E8-9644DBF3A366Q36370796-91E6AB13-5D99-47FF-8E64-5D320A41484EQ36451870-AD8CB198-A381-4215-AA4B-BA453560FB64Q36476600-C08B2CC1-DFB2-44DC-9BE2-5897FAF65A67Q36819258-EF270F2C-D640-413C-AAF1-AF3A3310986DQ36821039-76A36082-6450-42E2-9024-4C8957D4E651Q38315454-3780E19B-FD36-4D21-AE88-19D4243093B1
P2860
Crystal structure of the chemotaxis receptor methyltransferase CheR suggests a conserved structural motif for binding S-adenosylmethionine
description
1997 nî lūn-bûn
@nan
1997 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@ast
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@en
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@nl
type
label
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@ast
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@en
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@nl
prefLabel
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@ast
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@en
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@nl
P1433
P1476
Crystal structure of the chemo ...... r binding S-adenosylmethionine
@en
P2093
S Djordjevic
P304
P356
10.1016/S0969-2126(97)00210-4
P407
P50
P577
1997-04-01T00:00:00Z