Suggestions for "safe" residue substitutions in site-directed mutagenesis.
about
Cloning and mapping of a cDNA for methionine synthase reductase, a flavoprotein defective in patients with homocystinuriaA positively charged residue of phi29 DNA polymerase, highly conserved in DNA polymerases from families A and B, is involved in binding the incoming nucleotide.Primer-terminus stabilization at the 3'-5' exonuclease active site of phi29 DNA polymerase. Involvement of two amino acid residues highly conserved in proofreading DNA polymerasesTrp-107 and trp-253 account for the increased steady state fluorescence that accompanies the conformational change in human pancreatic triglyceride lipase induced by tetrahydrolipstatin and bile saltN-ethylmaleimide-sensitive fusion protein: a trimeric ATPase whose hydrolysis of ATP is required for membrane fusionLeber hereditary optic neuropathy: identification of the same mitochondrial ND1 mutation in six pedigreesNonnatural amino acid incorporation into the methionine 214 position of the metzincin Pseudomonas aeruginosa alkaline protease.Effect of hepatitis C virus (HCV) NS5B-nucleolin interaction on HCV replication with HCV subgenomic replicon.Biochemical properties of hepatitis C virus NS5B RNA-dependent RNA polymerase and identification of amino acid sequence motifs essential for enzymatic activityFunctional replacement of the endogenous tyrosyl-tRNA synthetase-tRNATyr pair by the archaeal tyrosine pair in Escherichia coli for genetic code expansionStructural studies of the catalytic core of the primate foamy virus (PFV-1) integraseThe structure of the NasR transcription antiterminator reveals a one-component system with a NIT nitrate receptor coupled to an ANTAR RNA-binding effectorProteome-derived peptide libraries allow detailed analysis of the substrate specificities of N(alpha)-acetyltransferases and point to hNaa10p as the post-translational actin N(alpha)-acetyltransferaseActive-site characterization of Candida boidinii formate dehydrogenaseRecruitment of HU by piggyback: a special role of GalR in repressosome assemblyUterocalin, a lipocalin provisioning the preattachment equine conceptus: fatty acid and retinol binding properties, and structural characterizationMethionine mutations of outer membrane protein X influence structural stability and beta-barrel unfoldingEvolution of the integral membrane desaturase gene family in moths and fliesSensitization of TRPA1 by Protein Kinase AGene structure and M20T polymorphism of the Schistosoma mansoni Sm14 fatty acid-binding protein. Molecular, functioanl, and immunoprotection analysis.Effects of Non-Natural Amino Acid Incorporation into the Enzyme Core Region on Enzyme Structure and Function.A structural model for the rolA protein and its interaction with DNA.The intrinsic disorder alphabet. III. Dual personality of serine.The alphabet of intrinsic disorder: II. Various roles of glutamic acid in ordered and intrinsically disordered proteins.The role of cysteine residues 129 and 329 in Escherichia coli K1 CMP-NeuAc synthase.HLA-DR3 restricted T cell epitope mimicry in induction of autoimmune response to lupus-associated antigen SmDDesign and characterisation of long-R3-insulin-like growth factor-I muteins which show resistance to pepsin digestion.Cysteine mutagenesis reveals transmembrane residues associated with charge translocation in prestinProbing protein-chromophore interactions in Cph1 phytochrome by mutagenesis.Constraints on the conformation of the cytoplasmic face of dark-adapted and light-excited rhodopsin inferred from antirhodopsin antibody imprints.A chemokine targets the nucleus: Cxcl12-gamma isoform localizes to the nucleolus in adult mouse heartArterivirus Nsp1 modulates the accumulation of minus-strand templates to control the relative abundance of viral mRNAsBMGE (Block Mapping and Gathering with Entropy): a new software for selection of phylogenetic informative regions from multiple sequence alignments.Catalytically inactive protein phosphatase 2A can bind to polyomavirus middle tumor antigen and support complex formation with pp60(c-src).Analysis of the effects of charge cluster mutations in adeno-associated virus Rep68 protein in vitroThe transcriptional transactivation function of HBx protein is important for its augmentation role in hepatitis B virus replicationMutational analysis of adeno-associated virus type 2 Rep68 protein endonuclease activity on partially single-stranded substrates.A beta-stranded motif drives capsid protein oligomers of the parvovirus minute virus of mice into the nucleus for viral assemblyNon-pseudogene-derived complex acid beta-glucosidase mutations causing mild type 1 and severe type 2 gaucher disease.Epitope mapping of PfCP-2.9, an asexual blood-stage vaccine candidate of Plasmodium falciparum.
P2860
Q24317481-E04638D5-F7EF-496E-8D51-2A5FB59077F9Q24515042-C9539787-DFF2-42BA-B0A2-01AA130E22A3Q24563201-DCC6DC63-6BE9-4193-A1F9-5BA0BBB54DD0Q24642518-9B9D11BE-2583-4ED5-8C50-21653E06627AQ24673247-8FD57076-4E66-4B46-972B-047FA237C182Q24678456-EEE1ABE1-E4F9-459B-A6E9-FB1AF52D946AQ24816371-FF51FB60-A0CC-4F12-A9DA-7287A5AEA52BQ27473141-A9A3B092-903A-474C-B434-A84A90F9DDDDQ27480890-23F5A06B-B1A0-4211-8D6A-64E12CAA3430Q27659882-72F65927-2C74-4405-B39D-84D983285065Q27663911-C8BE09F1-69AD-4414-A47B-065311279F0BQ27681113-3D7708A3-B345-4F24-B2FE-E049BB6F06CFQ28306757-E29BCAAF-8300-4DEB-80A5-5C0B98D7D88DQ28348394-1C1F4CB9-DFE2-42AE-A3BE-B41F339B5D11Q28349508-8EA256A5-6B4C-4F8E-B59B-40F8B479F65DQ28365536-1EC748BA-03E7-470A-8F8B-70AE603149DBQ28535036-6943FEE4-C57D-490C-A4BC-A7F2E7B7BF2CQ28768976-423EA1C7-22DF-4ED5-832F-AD6E260A4B5DQ28817508-F691BB7C-28E6-4265-AE5A-DCA75F43128CQ30164935-F5F61D5D-F05B-4A85-809C-CBE1D0834DD1Q30278633-BFA57985-F190-4600-80C8-5957A583485AQ30326075-21BF5B84-F8C1-487A-94FE-D4669320BC82Q30399038-E4C2CB2F-A25C-44B5-AA18-C77FEC8C828FQ30402098-C45B4B2C-2AEF-48E2-BFD7-A66ABD62989EQ30421451-2D5C94F1-49B1-4DB9-8D88-AA1513720B98Q30424263-F81FCBD6-96AA-402B-9769-02BE6277B007Q30425812-9CCEB4F2-95B7-472B-97AC-848D09453643Q30493172-AEF0C364-1C95-4956-AA58-222BC07DEA02Q30814602-F4969185-0ACE-40FE-A765-541CAE51D2DBQ31015910-3145FE59-097A-4A9F-BE17-1FCDF5C81731Q33512919-8D128EDA-578C-44B8-80AD-3E3A49E48A34Q33533326-B866283B-9D37-4285-BA9A-62EB7F175C58Q33631749-3966E410-6A14-49DA-A76C-FE80456698F8Q33649564-8CF7D03E-BB4A-4E62-B0EE-FE0276DB40F2Q33653198-D2BF9951-71EB-4927-B7A0-7FE8A50736F3Q33754980-DCB6BFA8-07AC-42D2-8046-DC55F5C451BCQ33800679-AC6421BB-0834-49B3-A662-568BA7ABE7D8Q33802681-84AA2D4F-4D52-4BCA-9FFA-2ACE07364F0CQ33844209-8A5E0E06-80E0-45E6-9FB2-E63BFCFD1C87Q33905364-A846D62A-32D6-4BEC-AE4A-29E97AECAEE0
P2860
Suggestions for "safe" residue substitutions in site-directed mutagenesis.
description
1991 nî lūn-bûn
@nan
1991 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1991 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
name
Suggestions for "safe" residue substitutions in site-directed mutagenesis.
@ast
Suggestions for "safe" residue substitutions in site-directed mutagenesis.
@en
type
label
Suggestions for "safe" residue substitutions in site-directed mutagenesis.
@ast
Suggestions for "safe" residue substitutions in site-directed mutagenesis.
@en
prefLabel
Suggestions for "safe" residue substitutions in site-directed mutagenesis.
@ast
Suggestions for "safe" residue substitutions in site-directed mutagenesis.
@en
P1476
Suggestions for "safe" residue substitutions in site-directed mutagenesis.
@en
P304
P356
10.1016/0022-2836(91)90528-E
P407
P577
1991-02-01T00:00:00Z