Arabidopsis vacuolar sorting mutants (green fluorescent seed) can be identified efficiently by secretion of vacuole-targeted green fluorescent protein in their seeds.
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RetromerLysosomal protein trafficking in Giardia lamblia: common and distinct featuresVacuolar protein sorting mechanisms in plantsA small molecule inhibitor partitions two distinct pathways for trafficking of tonoplast intrinsic proteins in ArabidopsisStorage reserve accumulation in Arabidopsis: metabolic and developmental control of seed fillingDual roles of an Arabidopsis ESCRT component FREE1 in regulating vacuolar protein transport and autophagic degradation.The shoot meristem identity gene TFL1 is involved in flower development and trafficking to the protein storage vacuole.Comparative transcriptional profiling of two wheat genotypes, with contrasting levels of minerals in grains, shows expression differences during grain fillingGFS9/TT9 contributes to intracellular membrane trafficking and flavonoid accumulation in Arabidopsis thaliana.Enrichment of Triticum aestivum gene annotations using ortholog cliques and gene ontologies in other plants.The Adaptor Complex AP-4 Regulates Vacuolar Protein Sorting at the trans-Golgi Network by Interacting with VACUOLAR SORTING RECEPTOR1.AtNHX5 and AtNHX6 Are Required for the Subcellular Localization of the SNARE Complex That Mediates the Trafficking of Seed Storage Proteins in ArabidopsisPlant endosomal NHX antiporters: Activity and function.AtNHX5 and AtNHX6: Roles in protein transport.What is moving in the secretory pathway of plants?Post-Golgi traffic in plants.The formation, function and fate of protein storage compartments in seeds.Mechanisms and concepts paving the way towards a complete transport cycle of plant vacuolar sorting receptors.Resolving the homology-function relationship through comparative genomics of membrane-trafficking machinery and parasite cell biology.The SERK1 receptor-like kinase regulates organ separation in Arabidopsis flowers.Reprogramming cells to study vacuolar development.Fluorescence imaging-based forward genetic screens to identify trafficking regulators in plants.The deubiquitinating enzyme AMSH3 is required for intracellular trafficking and vacuole biogenesis in Arabidopsis thaliana.An in vivo expression system for the identification of cargo proteins of vacuolar sorting receptors in Arabidopsis culture cells.A perturbation in glutathione biosynthesis disrupts endoplasmic reticulum morphology and secretory membrane traffic in Arabidopsis thaliana.The Arabidopsis intracellular Na+/H+ antiporters NHX5 and NHX6 are endosome associated and necessary for plant growth and development.A SNARE complex unique to seed plants is required for protein storage vacuole biogenesis and seed development of Arabidopsis thaliana.The rice alpha-amylase glycoprotein is targeted from the Golgi apparatus through the secretory pathway to the plastids.Lack of a vacuolar sorting receptor leads to non-specific missorting of soluble vacuolar proteins in Arabidopsis seeds.MAG2 and three MAG2-INTERACTING PROTEINs form an ER-localized complex to facilitate storage protein transport in Arabidopsis thaliana.Fluorescent reporter proteins for the tonoplast and the vacuolar lumen identify a single vacuolar compartment in Arabidopsis cells.Involvement of Adapter Protein Complex 4 in Hypersensitive Cell Death Induced by Avirulent Bacteria.Arabidopsis Seed Mitochondria Are Bioenergetically Active Immediately upon Imbibition and Specialize via Biogenesis in Preparation for Autotrophic Growth.TNO1 is involved in salt tolerance and vacuolar trafficking in Arabidopsis.Arabidopsis VPS35, a retromer component, is required for vacuolar protein sorting and involved in plant growth and leaf senescence.A vacuolar sorting receptor-independent sorting mechanism for storage vacuoles in soybean seeds.FYVE1 is essential for vacuole biogenesis and intracellular trafficking in Arabidopsis.Isolation of Protein Storage Vacuoles and Their Membranes.Pharmacological Strategies for Manipulating Plant Ca2+ Signalling.
P2860
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P2860
Arabidopsis vacuolar sorting mutants (green fluorescent seed) can be identified efficiently by secretion of vacuole-targeted green fluorescent protein in their seeds.
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
Arabidopsis vacuolar sorting m ...... escent protein in their seeds.
@en
Arabidopsis vacuolar sorting mutants
@nl
type
label
Arabidopsis vacuolar sorting m ...... escent protein in their seeds.
@en
Arabidopsis vacuolar sorting mutants
@nl
prefLabel
Arabidopsis vacuolar sorting m ...... escent protein in their seeds.
@en
Arabidopsis vacuolar sorting mutants
@nl
P2093
P2860
P356
P1433
P1476
Arabidopsis vacuolar sorting m ...... rescent protein in their seeds
@en
P2093
Hideyuki Takahashi
Ikuko Hara-Nishimura
Keito Nishizawa
Kentaro Fuji
Nobuyuki Maruyama
Shigeru Utsumi
Tomoo Shimada
Yasuko Koumoto
P2860
P304
P356
10.1105/TPC.106.045997
P577
2007-02-09T00:00:00Z