Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
about
Identification of structural elements involved in the interaction of simian virus 40 small tumor antigen with protein phosphatase 2AA novel Rb- and p300-binding protein inhibits transactivation by MyoDNegative regulation of the heat shock transcriptional response by HSBP1A v-SNARE implicated in intra-Golgi transportA novel nuclear localization signal in the auxiliary domain of apobec-1 complementation factor regulates nucleocytoplasmic import and shuttlingThe human mitochondrial transcription termination factor (mTERF) is a multizipper protein but binds to DNA as a monomer, with evidence pointing to intramolecular leucine zipper interactions.Specific interaction of the recombinant disintegrin-like domain of MDC-15 (metargidin, ADAM-15) with integrin alphavbeta3Direct binding of the proline-rich region of protein tyrosine phosphatase 1B to the Src homology 3 domain of p130(Cas)The SH2 domains of Stat1 and Stat2 mediate multiple interactions in the transduction of IFN-alpha signalsIsolation and characterization of human casein kinase I epsilon (CKI), a novel member of the CKI gene familyIsolation and characterization of a novel ligand-dependent thyroid hormone receptor-coactivating proteinDifferential viral induction of distinct interferon-alpha genes by positive feedback through interferon regulatory factor-7Molecular determinants of inactivation within the I-II linker of alpha1E (CaV2.3) calcium channels.Autophosphorylation of phosphoglucosamine mutase from Escherichia coliMolecular characterization of murine and human OX40/OX40 ligand systems: identification of a human OX40 ligand as the HTLV-1-regulated protein gp34Characterization of the transforming activity of p80, a hyperphosphorylated protein in a Ki-1 lymphoma cell line with chromosomal translocation t(2;5)Monitoring dynamic changes in free Ca2+ concentration in the endoplasmic reticulum of intact cellsNF-IL6 and AP-1 cooperatively modulate the activation of the TSG-6 gene by tumor necrosis factor alpha and interleukin-1The type 2C Ser/Thr phosphatase PP2Cgamma is a pre-mRNA splicing factorMitotic phosphorylation of Golgi reassembly stacking protein 55 by mitogen-activated protein kinase ERK2Identification of the major physiologic phosphorylation site of human keratin 18: potential kinases and a role in filament reorganizationTemperature-sensitive mutation in yeast mitochondrial ribosome recycling factor (RRF)The 2.1 Å structure of an elicitin-ergosterol complex: A recent addition to the Sterol Carrier Protein familyDissecting the energetics of the apoflavodoxin-FMN complexIdentification of catalytically important residues in the active site of Escherichia coli transaldolaseRibosomal protein L5 has a highly twisted concave surface and flexible arms responsible for rRNA binding.How FMN binds to anabaena apoflavodoxin: a hydrophobic encounter at an open binding siteTryparedoxins from Crithidia fasciculata and Trypanosoma brucei: photoreduction of the redox disulfide using synchrotron radiation and evidence for a conformational switch implicated in functionC-type lectin-like carbohydrate recognition of the hemolytic lectin CEL-III containing ricin-type -trefoil foldsNovel DNA binding motifs in the DNA repair enzyme endonuclease III crystal structureExamination of substrate binding in thiamin diphosphate-dependent transketolase by protein crystallography and site-directed mutagenesisFunctional analysis of PA binding by influenza a virus PB1: effects on polymerase activity and viral infectivityA unique phosphorylation-dependent mechanism for the activation of Ca2+/calmodulin-dependent protein kinase type IV/GR.Requirement for the carboxyl-terminal domain of Saccharomyces cerevisiae carbamoyl-phosphate synthetase.The NH2-terminal extension of protein phosphatase PPZ1 has an essential functional role.Components involved in assembly and dislocation of iron-sulfur clusters on the scaffold protein Isu1pThe activity of Cdc14p, an oligomeric dual specificity protein phosphatase from Saccharomyces cerevisiae, is required for cell cycle progression.Mre11 and Ku regulation of double-strand break repair by gene conversion and break-induced replication.Identification of cis-acting elements in the SUC2 promoter of Saccharomyces cerevisiae required for activation of transcription.Assembly of the ER to Golgi SNARE complex requires Uso1p
P2860
Q22008557-E6EC05AB-E0E4-4764-A026-CA92D29C372BQ24290504-40F023C2-67AF-4F6C-A1A9-832191F03611Q24310850-1C01B650-FDA7-412C-9702-FC5DF3C6B581Q24312623-16141318-988B-418D-939A-90633E157859Q24313327-7D65A915-23FE-4C96-A28B-FFE465217AB1Q24315784-7F8EC244-BD51-419B-BF6F-01A711845021Q24319074-55B60640-37BE-4913-B466-14234E452277Q24322881-20840B03-5DF4-4A02-84D7-09E62C61C071Q24323741-42217AC5-C79B-4CBA-9DF8-9AD24DBD63EDQ24324664-F11BFB6F-A213-4E90-BA24-F8C7E80F860BQ24336553-4E8B4C99-2FC7-42A7-A32B-2E4701A3C562Q24533409-13B929B7-C8AB-436A-9498-7B041D604A2BQ24537411-4614A57A-CC49-4BF8-82BD-4383E48EB84BQ24548987-586575F7-92C8-4AC2-B24E-931FD7ED7CB5Q24568305-C8C2463D-FFF1-43D7-8FBD-B5C8DCD381E7Q24595848-3C9C69D1-739F-497E-A412-4E02E604C98CQ24597600-47AC5DC9-A86B-460F-B9FC-FC6FAE4CAD50Q24609459-EC6F5287-85CD-48C6-9F51-50B7EF746B7AQ24609958-39766510-CAD9-4346-8C31-38B51A240016Q24633683-9A49915D-A0E6-422A-B7E8-DDF083DE92A6Q24673145-B792EF41-F7B1-40D8-8151-46A11806A1B3Q24680537-3E157FC8-3A1D-4233-A0E5-D8ECF205BFA5Q27618793-08336D2C-D37C-45B6-B4D5-FBD84BDE3BC1Q27621864-DF04FED1-77D7-47DC-931B-C31125EBF94BQ27631166-838A5146-1E6B-420C-AEEA-3CE493BEFB15Q27631719-CF394CB3-6543-4E4A-A168-2CE6A2B96198Q27640920-68F0AAE9-31BD-4ABF-A7F6-5D3443FF9FAFQ27641042-A8803D76-0580-43C3-9924-F1EEB9830A86Q27648942-EC605B96-48B3-4252-91B8-F32AFC9FC5E5Q27729885-44565DE2-C5D9-4ACC-B8E5-0F6EA04B4EA9Q27734399-3654D3FA-0D7A-4BCD-ACA5-82CF4359C71DQ27863706-21794751-B0F7-4813-A99D-478F49402C2CQ27867688-21F05310-D420-4137-92AF-9F8CDE2D1B63Q27930794-535904A7-FAEA-4A10-9E33-FA20D960B195Q27930872-31FBBA23-DA11-4FAC-8BC6-E3FD013FC7EFQ27931231-83ECD77C-A173-4307-A916-699EFD2E3B3FQ27931733-79305284-4838-4303-BA4E-5FF0DE2780CBQ27932084-749013EF-10E5-4EB5-BA4F-37382187244AQ27933753-8076E514-2E05-46DB-B234-4DD3C9CAE680Q27933827-344C2511-682D-45FD-8528-EF91AA212536
P2860
Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
@en
Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
@nl
type
label
Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
@en
Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
@nl
prefLabel
Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
@en
Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
@nl
P1476
Site-directed mutagenesis of virtually any plasmid by eliminating a unique site.
@en
P2093
P356
10.1016/0003-2697(92)90280-K
P407
P577
1992-01-01T00:00:00Z