Protein subunit interactions and structural integrity of amyloidogenic transthyretins: evidence from electrospray mass spectrometry.
about
Jasmonate perception by inositol-phosphate-potentiated COI1-JAZ co-receptorAcetylation of lysine 120 of p53 endows DNA-binding specificity at effective physiological salt concentrationStructure and Kinetic Stability of the p63 Tetramerization DomainClass I HDACs Share a Common Mechanism of Regulation by Inositol PhosphatesStructural basis for Pan3 binding to Pan2 and its function in mRNA recruitment and deadenylationRv2607 from Mycobacterium tuberculosis is a pyridoxine 5'-phosphate oxidase with unusual substrate specificityAmyloid-like fibril formation in an all beta-barrel protein involves the formation of partially structured intermediate(s).Electrospray and tandem mass spectrometry in biochemistry.Hydrogen/deuterium exchange and aggregation of a polyvaline and a polyleucine alpha-helix investigated by matrix-assisted laser desorption ionization mass spectrometry.Effect of enzyme inhibitors on protein quaternary structure determined by on-line size exclusion chromatography-microelectrospray ionization mass spectrometry.Structural organization of the 19S proteasome lid: insights from MS of intact complexes.Chemical cross-linking of the chloroplast localized small heat-shock protein, Hsp21, and the model substrate citrate synthaseStoichiometry and localization of the stator subunits E and G in Thermus thermophilus H+-ATPase/synthase.Heptameric (L12)6/L10 rather than canonical pentameric complexes are found by tandem MS of intact ribosomes from thermophilic bacteria.Advantages and drawbacks of nanospray for studying noncovalent protein-DNA complexes by mass spectrometry.Characterization of the oligomeric states of insulin in self-assembly and amyloid fibril formation by mass spectrometryDynamic protein complexes: insights from mass spectrometry.Exposure of cryptic epitopes on transthyretin only in amyloid and in amyloidogenic mutants.Structural basis for PPARγ transactivation by endocrine-disrupting organotin compounds.Structural insights into the p97-Ufd1-Npl4 complex.Observation of the noncovalent assembly and disassembly pathways of the chaperone complex MtGimC by mass spectrometry.Polydispersity of a mammalian chaperone: mass spectrometry reveals the population of oligomers in alphaB-crystallinIon/ion reactions with "onium" reagents: an approach for the gas-phase transfer of organic cations to multiply-charged anions.Scope and utility of hydrogen exchange as a tool for mapping landscapesWhy is Leu55-->Pro55 transthyretin variant the most amyloidogenic: insights from molecular dynamics simulations of transthyretin monomersLocalized structural fluctuations promote amyloidogenic conformations in transthyretin.Detection and selective dissociation of intact ribosomes in a mass spectrometer.The role of initial oligomers in amyloid fibril formation by human stefin B.Ultraslow oligomerization equilibria of p53 and its implications.Quantification of transthyretin kinetic stability in human plasma using subunit exchange.Macromolecular organization of the Yersinia pestis capsular F1 antigen: insights from time-of-flight mass spectrometry.Considerably Unfolded Transthyretin Monomers Preceed and Exchange with Dynamically Structured Amyloid Protofibrils.Inconsistency between hepatic expression and serum concentration of transthyretin in mice humanized at the transthyretin locus.Probing molecular interactions in intact antibody: antigen complexes, an electrospray time-of-flight mass spectrometry approach.The pH-dependent stability of wild-type and mutant transthyretin oligomers.Structure, dynamics and interactions of p47, a major adaptor of the AAA ATPase, p97.Investigating interactions of the pentraxins serum amyloid P component and C-reactive protein by mass spectrometry.Selective association of protein molecules followed by mass spectrometry.Dual stoichiometry and subunit organization in the ClpP1/P2 protease from the cyanobacterium Synechococcus elongatus.Staying Alive: Measuring Intact Viable Microbes with Electrospray Ionization Mass Spectrometry.
P2860
Q24569663-8815FBB9-A66C-488D-B10D-4C6D23063742Q27667596-339DD6C8-12C1-430F-A764-D06517D70295Q27675653-9AA927F3-4313-4BE1-9681-4F0AC4DA61E2Q27678725-AAFE8AAE-42C2-4020-A756-0A8DAECC968DQ27683988-4A0EF7A1-24A7-4675-80B2-0CA06429E758Q28477960-FCA8BEB0-4A7D-483E-96A4-EFB01AE2FE49Q30167545-97B5A536-5FF6-4FDA-B04F-846DA69521DAQ30664221-122738B9-E19F-4D59-8951-F72E44524929Q30862528-6BB80543-A2B7-47D1-AF5C-7E19EAB6E880Q31805473-CE374A20-A402-486B-A8DE-B661EE4C74CBQ33251840-B6461BD3-9669-42BF-959F-B3678AB0A531Q33287601-FB9A049D-0B55-4CBE-9A60-DF5AFADFF9B8Q33308435-179FAB1C-9554-4EAE-A3D2-12C27BB764E5Q33852145-21C9901C-00DE-4ACA-A6B6-F14E39096334Q34147205-9E6837FE-F19B-4111-BFC1-53F174A51E1CQ34173720-36C36BB5-60F9-4447-9DF9-C41C0C684A2AQ34390841-1CFFEDFE-2AAE-4F53-ACD9-D8E1517C3701Q35066532-ED3AB0C6-1E22-49C8-A24E-627E0E064A53Q35089434-7E6F1872-D84A-4A46-A0D3-847A715D35F1Q35568482-DAA044CA-7738-481F-B05A-841F93470420Q35836947-0C8B376C-E958-4C6C-96DB-82F5F01203F7Q35977065-23EB509A-07BA-479F-9393-F4563CDADF19Q36304270-F2BE5276-74DF-4DA5-A8EA-4F294E139464Q36398791-3A1E74C4-046E-4A4E-B930-E2B3DC355825Q36572016-E838F184-87F1-4086-907D-77899A811ED1Q36675670-9C002913-92DC-46BC-86E4-12C41CAE8D52Q36966659-0CF2DF1A-D018-4490-AC3E-D4D04EAD3F88Q37225143-E2107837-EB21-4A15-A6AA-E3BB0F9DB6B8Q37318326-9F1D083C-94DB-4033-86AB-8F428522118CQ37688196-76432FBF-2099-4C18-966A-F721AFFC4F25Q38272236-59714239-0CEC-4AE2-850C-3E57EC713059Q38991962-D54D5278-41C2-466C-B7CA-DD6FE4C3637CQ39912557-4DC856EC-AC21-400D-8C5B-98EF68CDB6FDQ40198247-8BADBA6E-00D1-4B54-A9D8-50CFC9A8E2ECQ40234857-E3D8FD57-8490-49B8-881B-F7C3446ED578Q40775969-2FD67B69-02C8-49D6-9A6E-B1B26E8A5431Q41877441-586641C8-719C-4AB1-9A24-C420A8B72B39Q41906109-6DD18ADB-AE2F-45C3-BBE8-0527302EEDFFQ41962447-DCB8E2B0-38F3-46A9-8AA5-9D3F5C58E402Q42050730-88C9AFAD-5DB6-4D7B-AE5D-817C6EBE86AF
P2860
Protein subunit interactions and structural integrity of amyloidogenic transthyretins: evidence from electrospray mass spectrometry.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年学术文章
@wuu
1998年学术文章
@zh
1998年学术文章
@zh-cn
1998年学术文章
@zh-hans
1998年学术文章
@zh-my
1998年学术文章
@zh-sg
1998年學術文章
@yue
1998年學術文章
@zh-hant
name
Protein subunit interactions a ...... lectrospray mass spectrometry.
@en
Protein subunit interactions a ...... lectrospray mass spectrometry.
@nl
type
label
Protein subunit interactions a ...... lectrospray mass spectrometry.
@en
Protein subunit interactions a ...... lectrospray mass spectrometry.
@nl
prefLabel
Protein subunit interactions a ...... lectrospray mass spectrometry.
@en
Protein subunit interactions a ...... lectrospray mass spectrometry.
@nl
P2093
P356
P1476
Protein subunit interactions a ...... lectrospray mass spectrometry.
@en
P2093
P304
P356
10.1006/JMBI.1998.1937
P407
P577
1998-08-01T00:00:00Z