Reciprocal phosphorylation and glycosylation recognition motifs control NCAPP1 interaction with pumpkin phloem proteins and their cell-to-cell movement.
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Live imaging of companion cells and sieve elements in Arabidopsis leavesAphid salivary proteases are capable of degrading sieve-tube proteinsTwo UGT84 Family Glycosyltransferases Catalyze a Critical Reaction of Hydrolyzable Tannin Biosynthesis in Pomegranate (Punica granatum)O-GlcNAc modification of the coat protein of the potyvirus Plum pox virus enhances viral infectionPD Trafficking of Potato Leaf Roll Virus Movement Protein in Arabidopsis Depends on Site-specific Protein PhosphorylationOverexpression of Arabidopsis plasmodesmata germin-like proteins disrupts root growth and development.O-GlcNAc protein modification in plants: Evolution and function.Macromolecular composition of phloem exudate from white lupin (Lupinus albus L.).The plant vascular system: evolution, development and functions.A plasmodesmal glycosyltransferase-like protein.Plasmodesmal receptor-like kinases identified through analysis of rice cell wall extracted proteins.CmRBP50 protein phosphorylation is essential for assembly of a stable phloem-mobile high-affinity ribonucleoprotein complex.Histone H3 interacts and colocalizes with the nuclear shuttle protein and the movement protein of a geminivirus.Mobility of Transgenic Nucleic Acids and Proteins within Grafted Rootstocks for Agricultural ImprovementIdentification of lipids and lipid-binding proteins in phloem exudates from Arabidopsis thaliana.Both the conserved GRAS domain and nuclear localization are required for SHORT-ROOT movement.Cell-to-cell trafficking of RNA and RNA silencing through plasmodesmata.Cellular pathways for viral transport through plasmodesmata.Heavy traffic in the fast lane: long-distance signalling by macromolecules.Glycosylation of the nuclear pore.Analysis of the pumpkin phloem proteome provides insights into angiosperm sieve tube function.Overexpression of the pumpkin (Cucurbita maxima) 16 kDa phloem protein CmPP16 increases tolerance to water deficit.Phosphorylation coexists with O-GlcNAcylation in a plant virus protein and influences viral infection.Long-distance trafficking of macromolecules in the phloemPhosphorylation of alfalfa mosaic virus movement protein in vivo.Binding properties of the N-acetylglucosamine and high-mannose N-glycan PP2-A1 phloem lectin in Arabidopsis.A polypyrimidine tract binding protein, pumpkin RBP50, forms the basis of a phloem-mobile ribonucleoprotein complex.Evolutionary and molecular analysis of Dof transcription factors identified a conserved motif for intercellular protein trafficking.Phloem long-distance delivery of FLOWERING LOCUS T (FT) to the apex.Systemic delivery of siRNA in pumpkin by a plant PHLOEM SMALL RNA-BINDING PROTEIN 1-ribonucleoprotein complex.Melon phloem-sap proteome: developmental control and response to viral infection.
P2860
Q27314836-2E6DD8C4-80CB-494D-8878-B173E2CA54E0Q28085696-7A4C7250-307C-44DA-B538-F7410D4F4EB1Q28552492-7158695F-26B9-4A4C-B36C-B17EEA92EEE6Q30370302-21304E51-17BA-4C14-B3CA-CC56B8C00B37Q30514116-22ABA3E4-6F15-4790-9F89-7D5F648FF8B0Q33354288-A8540F49-A830-451D-8A34-6510BB40A6EDQ33625578-2AC623AA-EA55-4CA1-9B9F-075BB4C513CEQ33826840-89956FAF-4F3E-4B83-A6CD-7B6A272B88A7Q34331061-A5E4A574-1329-45F4-819F-7348B449EDDFQ34612783-E2AD4A9C-82C3-4398-8863-10C3F375C317Q35036831-94E30C53-7468-405E-89CF-D5529F942EA3Q35067771-1D6A4579-2CB5-4AC0-841C-09E4A51A6366Q35531207-FFA16EC4-5C4B-4E10-A66C-2EDB592217A4Q35970780-2AFBE48F-D479-4DDE-A080-C063BA644165Q36073528-CD7E23E5-7DAD-4F34-A9BB-986BDCADAF6FQ37389633-EE018F29-34F7-4656-A2E7-DB99F35E0D94Q37806131-69C2D8C3-BC6B-4256-91CE-3DA804092941Q37815030-E3169EBC-534B-43CF-B2CB-7ABED8DFBCDFQ38080590-F2327A3B-B404-4DA1-B98D-2D37A9B180E2Q38178370-03DB861E-2815-43CA-9A48-7E1D8805B9F6Q38512264-49281EFB-69CF-4651-A6C0-8485F4358ACFQ39382823-5C248CEA-AD64-4766-8CE3-43F7D7181BE5Q41918073-8E347425-998C-4BBB-8D36-A059AC70ACE6Q41984488-2386593B-FBE0-40E8-A85D-E5F16923A363Q42242754-5AF25F51-E3CA-4A73-8181-D3120BD32C9CQ43074247-92649125-95FA-4B29-8191-7603551300CBQ43635093-CE135E28-7ECC-4421-889F-BB3A1B5AA924Q44782686-0712FC04-470E-4BB0-B2A2-FC250A7DF1C6Q46026108-1B85EE4B-F252-4BE1-828D-861BD126CEBEQ46170782-E2F017BE-98B9-45BE-993F-817AF89473C4Q51898436-DB12DFD9-CB60-450B-86F8-6F667E3E4830
P2860
Reciprocal phosphorylation and glycosylation recognition motifs control NCAPP1 interaction with pumpkin phloem proteins and their cell-to-cell movement.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Reciprocal phosphorylation and ...... d their cell-to-cell movement.
@en
Reciprocal phosphorylation and ...... d their cell-to-cell movement.
@nl
type
label
Reciprocal phosphorylation and ...... d their cell-to-cell movement.
@en
Reciprocal phosphorylation and ...... d their cell-to-cell movement.
@nl
prefLabel
Reciprocal phosphorylation and ...... d their cell-to-cell movement.
@en
Reciprocal phosphorylation and ...... d their cell-to-cell movement.
@nl
P2093
P2860
P356
P1433
P1476
Reciprocal phosphorylation and ...... d their cell-to-cell movement.
@en
P2093
Beatriz Xoconostle-Cázares
Byung-Kook Ham
Ken-Ichiro Taoka
Maria R Rojas
William J Lucas
P2860
P304
P356
10.1105/TPC.107.052522
P577
2007-06-29T00:00:00Z