Stereospecific nuclear magnetic resonance assignments of the methyl groups of valine and leucine in the DNA-binding domain of the 434 repressor by biosynthetically directed fractional 13C labeling
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NleG Type 3 effectors from enterohaemorrhagic Escherichia coli are U-Box E3 ubiquitin ligasesA "three-pronged" binding mechanism for the SAP/SH2D1A SH2 domain: structural basis and relevance to the XLP syndromeSolution structure of the nonmethyl-CpG-binding CXXC domain of the leukaemia-associated MLL histone methyltransferaseSolution structure and mutational analysis of pituitary adenylate cyclase-activating polypeptide binding to the extracellular domain of PAC1-RSStructure of a regulatory complex involving the Abl SH3 domain, the Crk SH2 domain, and a Crk-derived phosphopeptide.A unified assembly mode revealed by the structures of tetrameric L27 domain complexes formed by mLin-2/mLin-7 and Patj/Pals1 scaffold proteinsThe structure of a PKD domain from polycystin-1: implications for polycystic kidney disease.Structural basis for recruitment of CBP/p300 by hypoxia-inducible factor-1 alphaSolution structure of the ETS domain from murine Ets-1: a winged helix-turn-helix DNA binding motifRationale for Bcl-xL/Bad peptide complex formation from structure, mutagenesis, and biophysical studiesSolution structure of the cytohesin-1 (B2-1) Sec7 domain and its interaction with the GTPase ADP ribosylation factor 1A surface groove essential for viral Bcl-2 function during chronic infection in vivo.Structural basis for sequence specific DNA binding and protein dimerization of HOXA13Functional glycan-free adhesion domain of human cell surface receptor CD58: design, production and NMR studiesNMR solution structure of the human prion proteinInhibitor binding induces active site stabilization of the HCV NS3 protein serine protease domainNMR structure of the bovine prion proteinNMR structure and mutagenesis of the third Bir domain of the inhibitor of apoptosis protein XIAPNMR structure of the N-terminal J domain of murine polyomavirus T antigens. Implications for DnaJ-like domains and for mutations of T antigensStructure of Cdc4p, a contractile ring protein essential for cytokinesis in Schizosaccharomyces pombeThe structure of the C4C4 ring finger of human NOT4 reveals features distinct from those of C3HC4 RING fingersSolution structure of the antiapoptotic protein bcl-2Structure of the C-domain of human cardiac troponin C in complex with the Ca2+ sensitizing drug EMD 57033Solution structure of the constant region of nuclear envelope protein LAP2 reveals two LEM-domain structures: one binds BAF and the other binds DNASolution structure of Pyrobaculum aerophilum DsrC, an archaeal homologue of the gamma subunit of dissimilatory sulfite reductaseSolution structure and stability of the anti-sigma factor AsiA: implications for novel functions.Solution structure of a Bcl-2 homolog from Kaposi sarcoma virus.Diverse recognition of non-PxxP peptide ligands by the SH3 domains from p67(phox), Grb2 and Pex13p.NMR structure of conserved eukaryotic protein ZK652.3 from C. elegans: a ubiquitin-like foldRibosome-associated factor Y adopts a fold resembling a double-stranded RNA binding domain scaffoldA Novel Protein-Protein Interaction in the RES (REtention and Splicing) ComplexSignal transduction pathway of TonB-dependent transportersATP-induced conformational changes of the nucleotide-binding domain of Na,K-ATPaseStructure and dynamics of the C-domain of human cardiac troponin C in complex with the inhibitory region of human cardiac troponin ISolution NMR structure of the 30S ribosomal protein S28E fromPyrococcus horikoshiiThe NMR structure of dematin headpiece reveals a dynamic loop that is conformationally altered upon phosphorylation at a distal siteHuman Sgt1 binds HSP90 through the CHORD-Sgt1 domain and not the tetratricopeptide repeat domainSolution NMR structure of the barrier-to-autointegration factor-Emerin complexSolution structure of Domains IVa and V of the subunit of Escherichia coli DNA polymerase III and interaction with the subunitSolution Structure of the Endonuclease Domain from the Master Replication Initiator Protein of the Nanovirus Faba Bean Necrotic Yellows Virus and Comparison with the Corresponding Geminivirus and Circovirus Structures † , ‡
P2860
Q21131552-28809CD3-C2F1-42AB-9E9E-9850D568519AQ24292245-1E3B1C5B-CE20-4F47-A1EA-AE9DD12DF567Q24304207-2F1836C7-2AEA-4B6B-9037-BFEB3360A3E9Q24304303-6B94E1B9-5195-4BFD-B1F3-9CBAB7F1477AQ24311589-DABA6E59-2DC6-413C-97D5-F46D733DB376Q24523625-5DA5B614-9B3D-44CD-A9F8-1D79B6D38E45Q24533517-D32FCD40-22D4-4027-BA70-CDE8C9D742BCQ24534120-AB591EB2-082C-468F-8154-FB708B4D8CCFQ24563315-652EBE3A-B3AD-42A3-A355-FE2664BC8262Q24672334-A8388125-1A07-432D-9187-A83037472244Q24672521-ED15F24A-8D3E-4DDB-A150-6EFC5F6333DAQ24817200-53E9C1EF-5606-4761-B14D-803A5354E404Q27325742-161B56A5-0F70-4476-8F1F-AFE3D2FFEE3CQ27618481-FBCF6616-A14E-4B8F-82EB-94327917147BQ27620845-21A481D4-EFAD-43E5-A187-53E240FBA859Q27621765-E076C81A-8492-481C-A0C2-E456D60F8845Q27625390-2D0ACD88-743A-4851-A37A-F119DED5821CQ27626381-2BF576BF-DA28-4E0C-BF24-93D70E4B34BAQ27626634-7419BD4C-48FF-4C3C-891D-2910BD3290FCQ27628589-4C16B939-947D-4D0E-8B8A-3164A4FFEDCFQ27628598-932EB33C-77F1-444B-B9F6-88A0C47500B0Q27630598-87CAD6B3-D503-41BE-99C2-C3B068D983EDQ27631341-9394F426-5407-4360-9055-EAAB0DF10E3BQ27634037-D2C775B9-E5E5-4D26-A5A1-D46919653F93Q27636384-20C8914A-81C8-423C-BA30-D44D01F32E58Q27637678-76BA31FF-4DEC-41AD-AED4-0C6F3CDA85A1Q27638414-21A26BA4-D670-42CD-825C-F31B143CB094Q27639477-B308114F-8B8C-40B9-B457-3F4478C651BAQ27639587-A9FAD114-D6F5-4B32-8953-3FC299272032Q27639870-B90379A3-80FA-4F41-B2F5-F92907A0F3A8Q27640535-DA74EAF8-A6E2-4D48-B8A0-34931912A074Q27641017-4918CB51-2E6A-4B2B-B469-3C5F0C98A3A3Q27641133-3CA55B39-ACE1-4EE3-8F9A-9291D15784E9Q27641152-28AA9C04-BF46-4589-B5BA-464A5F0CEF33Q27642596-E79A4F77-EBC9-425B-ABAC-0216F543E3C3Q27642740-32479395-1EA9-4670-BB0C-21A51965A649Q27643082-8AC970F1-151E-4F26-A9B4-64E5755D7BDBQ27644047-ABF435AC-E0FE-43F8-81A3-229C6407438DQ27644566-B8E49898-4634-4C11-8551-FCA17D2A61FDQ27644657-780702F6-832E-4BDD-AACA-E644A8702766
P2860
Stereospecific nuclear magnetic resonance assignments of the methyl groups of valine and leucine in the DNA-binding domain of the 434 repressor by biosynthetically directed fractional 13C labeling
description
1989 nî lūn-bûn
@nan
1989 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1989 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
name
Stereospecific nuclear magneti ...... rected fractional 13C labeling
@ast
Stereospecific nuclear magneti ...... rected fractional 13C labeling
@en
type
label
Stereospecific nuclear magneti ...... rected fractional 13C labeling
@ast
Stereospecific nuclear magneti ...... rected fractional 13C labeling
@en
prefLabel
Stereospecific nuclear magneti ...... rected fractional 13C labeling
@ast
Stereospecific nuclear magneti ...... rected fractional 13C labeling
@en
P2093
P3181
P356
P1433
P1476
Stereospecific nuclear magneti ...... rected fractional 13C labeling
@en
P2093
P304
P3181
P356
10.1021/BI00445A003
P407
P577
1989-09-19T00:00:00Z