Functional and developmental impact of cytosolic protein N-terminal methionine excision in Arabidopsis.
about
Identification and analysis of the acetylated status of poplar proteins reveals analogous N-terminal protein processing mechanisms with other eukaryotesPyridinylpyrimidines selectively inhibit human methionine aminopeptidase-1Pyridinylquinazolines Selectively Inhibit Human Methionine Aminopeptidase-1 in CellsUnderstanding the highly efficient catalysis of prokaryotic peptide deformylases by shedding light on the determinants specifying the low activity of the human counterpartComparative large scale characterization of plant versus mammal proteins reveals similar and idiosyncratic N-α-acetylation featuresSorting signals, N-terminal modifications and abundance of the chloroplast proteomePlant cysteine oxidases are dioxygenases that directly enable arginyl transferase-catalysed arginylation of N-end rule targets.Generation of Artificial N-end Rule Substrate Proteins In Vivo and In Vitro.N-myristoylation regulates the SnRK1 pathway in Arabidopsis.Coronatine-insensitive 1 (COI1) mediates transcriptional responses of Arabidopsis thaliana to external potassium supply.The crystal structure of mitochondrial (Type 1A) peptide deformylase provides clear guidelines for the design of inhibitors specific for the bacterial forms.Impact of the N-terminal amino acid on targeted protein degradation.Multiple classes of immune-related proteases associated with the cell death response in pepper plantsGenome-wide identification and in silico analysis of poplar peptide deformylases.Plant leucine aminopeptidases moonlight as molecular chaperones to alleviate stress-induced damage.A proteogenomic survey of the Medicago truncatula genomeQuantitative Proteomic Analysis Provides Novel Insights into Cold Stress Responses in Petunia Seedlings.In silico identification and characterization of N-Terminal acetyltransferase genes of poplar (Populus trichocarpa)MetAP1 and MetAP2 drive cell selectivity for a potent anti-cancer agent in synergy, by controlling glutathione redox state.Crop seed oil bodies: from challenges in protein identification to an emerging picture of the oil body proteome.Nitric oxide sensing in plants is mediated by proteolytic control of group VII ERF transcription factors.Two N-terminal acetyltransferases antagonistically regulate the stability of a nod-like receptor in Arabidopsis.Enhanced waterlogging tolerance in barley by manipulation of expression of the N-end rule pathway E3 ligase PROTEOLYSIS6.Cotranslational proteolysis dominates glutathione homeostasis to support proper growth and development.A hydrophilic cation-binding protein of Arabidopsis thaliana, AtPCaP1, is localized to plasma membrane via N-myristoylation and interacts with calmodulin and the phosphatidylinositol phosphates PtdIns(3,4,5)P(3) and PtdIns(3,5)P(2).Omics assisted N-terminal proteoform and protein expression profiling upon methionine aminopeptidase 1 (MetAP1) deletion.Interplay between N-terminal methionine excision and FtsH protease is essential for normal chloroplast development and function in Arabidopsis.Alternative and effective proteomic analysis in Arabidopsis.
P2860
Q21090782-96ED5405-2582-43EB-A62B-1E665B596093Q27676869-5826ABFF-F7D6-43C4-A8AC-7745F6666116Q27677949-F53469A9-FA9D-4E91-B70B-18D9DBE1F87BQ27689078-940B5300-7E0F-443E-AC59-7DC8CC9CBDC7Q28256849-1F00E1D2-C04E-412B-BA70-DCF9DD40E1FFQ28472564-8379531A-EE2E-43BF-8306-82192E6C3DF0Q30313311-0F660F99-D95D-44AF-BF3D-D4F03FF709BCQ30314019-7A03C632-CA43-4135-B935-2FE426564108Q33344565-70B8D078-8926-43DE-872E-EC6EB0EFD294Q33754131-96C439FC-C30D-485E-8356-CFFC979FD05CQ34455068-D83EB2FA-DF6B-4980-8E47-4785C4ED0316Q34557941-A2C7EC36-9921-4017-AD0C-06AA79B65DEAQ34733882-877D7A59-6731-4D55-8561-58B8009E6A61Q35934098-92B276BE-E115-40AE-896A-7C3C8C74619BQ36002924-4A86862A-0841-4686-9F56-84C0C8B5E005Q36386698-366F42ED-CD62-42A8-9F61-F806627A246EQ36616540-66D080D2-AE5D-4B0C-8BF3-F84F66DBABF5Q37645114-5538860E-B2DE-46C3-AEC9-86C6DC7C3143Q37665317-1B456567-89D0-42F4-A8E9-658BD2EA9F19Q38099289-D48A9D47-875E-4E78-BBAF-40C8823CCDB8Q38552244-04664D5B-5079-42CE-A9E2-C80E030EF95EQ40947490-C55614C3-3E8A-407A-8F99-2BD95F242A96Q42373143-CB0B4046-AB22-4220-AE6B-08F6A72E60C7Q43255378-A8702DB0-5322-4CAD-B5D0-5E0CA483A431Q45827737-3350CD83-6F68-4D4E-B10F-DF9FDA613713Q47215898-7FD8B92A-2BDF-4F9F-9AAA-C9D34974299DQ51850348-8C0BCEA2-6D5C-4A2D-A7B7-57CD3C9B6690Q53528957-845C529F-405A-4D23-812B-A1667ED24649
P2860
Functional and developmental impact of cytosolic protein N-terminal methionine excision in Arabidopsis.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Functional and developmental i ...... onine excision in Arabidopsis.
@en
Functional and developmental i ...... onine excision in Arabidopsis.
@nl
type
label
Functional and developmental i ...... onine excision in Arabidopsis.
@en
Functional and developmental i ...... onine excision in Arabidopsis.
@nl
prefLabel
Functional and developmental i ...... onine excision in Arabidopsis.
@en
Functional and developmental i ...... onine excision in Arabidopsis.
@nl
P2093
P2860
P356
P1433
P1476
Functional and developmental i ...... onine excision in Arabidopsis.
@en
P2093
Christelle Espagne
Michèle Pierre
Simon Ross
P2860
P304
P356
10.1104/PP.104.056861
P407
P577
2005-01-28T00:00:00Z