The cytoskeleton and the peroxisomal-targeted snowy cotyledon3 protein are required for chloroplast development in Arabidopsis.
about
Chloroplast signaling within, between and beyond cellsThe SCO2 protein disulphide isomerase is required for thylakoid biogenesis and interacts with LHCB1 chlorophyll a/b binding proteins which affects chlorophyll biosynthesis in Arabidopsis seedlings.Characterization of the Arabidopsis augmin complex uncovers its critical function in the assembly of the acentrosomal spindle and phragmoplast microtubule arrays.Co-expression analysis identifies putative targets for CBP60g and SARD1 regulationThe dual targeting ability of type II NAD(P)H dehydrogenases arose early in land plant evolution.A novel proteinase, SNOWY COTYLEDON4, is required for photosynthetic acclimation to higher light intensities in Arabidopsis.The reduced plastid-encoded polymerase-dependent plastid gene expression leads to the delayed greening of the Arabidopsis fln2 mutant.Defining the plant peroxisomal proteome: from Arabidopsis to rice.The novel protein DELAYED PALE-GREENING1 is required for early chloroplast biogenesis in Arabidopsis thaliana.Differential Molecular Responses of Rapeseed Cotyledons to Light and Dark Reveal Metabolic Adaptations toward Autotrophy Establishment.Albino Leaf 2 is involved in the splicing of chloroplast group I and II introns in riceThe tetratricopeptide repeat-containing protein slow green1 is required for chloroplast development in Arabidopsis.Genetic dissection of chloroplast biogenesis and development: an overview.Integrated analysis of leaf morphological and color traits in different populations of Chinese cabbage (Brassica rapa ssp. pekinensis).Novel connections in plant organellar signalling link different stress responses and signalling pathways.Evidence for a SAL1-PAP chloroplast retrograde pathway that functions in drought and high light signaling in Arabidopsis.Proteome analysis of peroxisomes from etiolated Arabidopsis seedlings identifies a peroxisomal protease involved in β-oxidation and development.Vesicles Are Persistent Features of Different Plastids.The ROS Wheel: Refining ROS Transcriptional Footprints.Gene coexpression network analysis of oil biosynthesis in an interspecific backcross of oil palm.Evidence for interactions between the mitochondrial import apparatus and respiratory chain complexes via Tim21-like proteins in Arabidopsis.GABI-DUPLO: a collection of double mutants to overcome genetic redundancy in Arabidopsis thaliana.Arabidopsis AUGMIN subunit8 is a microtubule plus-end binding protein that promotes microtubule reorientation in hypocotyls.At5g19540 Encodes a Novel Protein That Affects Pigment Metabolism and Chloroplast Development in Arabidopsis thaliana.Reciprocally Retained Genes in the Angiosperm Lineage Show the Hallmarks of Dosage Balance Sensitivity.A monogalactosyldiacylglycerol synthase found in the green sulfur bacterium Chlorobaculum tepidum reveals important roles for galactolipids in photosynthesis.Intact microtubules are required for the intercellular movement of the SHORT-ROOT transcription factor.RNA Processing Bodies, Peroxisomes, Golgi Bodies, Mitochondria, and Endoplasmic Reticulum Tubule Junctions Frequently Pause at Cortical MicrotubulesEctopic Transplastomic Expression of a Synthetic MatK Gene Leads to Cotyledon-Specific Leaf Variegation
P2860
Q26779161-D3281F44-B213-43DD-83A6-333BB0FD92E5Q33352405-0C189F0E-0BE4-4A14-9CD3-11B95F83D582Q33353348-1B91D845-D5B0-4535-900B-C51CD3491104Q34478429-90A12AD5-D011-4393-A7A0-E604201FF092Q34809714-66711EEF-4549-43C1-8DBC-12ABE5AE7D03Q34934100-D10D9908-EC47-43ED-A361-B2FAB8134FA4Q34982797-C08D1653-99C6-4D18-9E17-36669895E54FQ35970932-A07F0D80-A28F-4981-A05B-998FBAA5EDE4Q36886356-D1A295DE-7E2F-43CE-BEEF-EDE0C4E1089CQ37093735-66023151-53D8-4284-8AC2-0E98B00A61C2Q37308517-E1800114-8FB7-48CB-8367-E53AE4C3B13CQ37604678-34C82347-CAB4-48DD-AC2B-BC41864F040EQ37844343-C7319CF5-765B-4841-B90D-956EFAFDCE97Q38747399-78A5D228-4FD9-4407-82EC-E4C85B448D0AQ38800331-33E4C893-9B0F-4DD3-ACB7-1C9E4E70F9E8Q38995678-2F856C61-48EE-459C-B0E4-813D4A406D0EQ39331788-32F6FBCE-9FFA-4F9C-91BD-140E6FD90149Q39609585-63C7348A-7BCD-433A-AFA5-F78E3D5955E4Q39721232-C9F68846-EC20-46E5-A839-75C089DD8688Q39795239-C7252B2F-74C3-451A-A4EE-50445174FAFEQ42414787-7B97E678-E827-421D-9595-0F5CD2EE0A30Q43513344-5BED15EC-A686-4FCD-B868-99A7785893EAQ45852202-5B4615F8-FAC6-4E58-BB16-61AF5AAE4A67Q47221021-D26BBBCA-9659-4916-84EB-2394F06C7098Q47613483-DD0272F1-DC7B-4DA4-9D9D-DB36C57F217CQ50516405-26CF6040-3C8B-4DC3-9E36-AFD947B9A4CDQ52633090-B38404DA-596C-40EF-99D4-776E4F6025C6Q58480441-3C7CE0FA-83A6-4A63-9F52-7DFC745AA7BCQ58584227-A34924A9-0501-4684-B939-330C9937A9FE
P2860
The cytoskeleton and the peroxisomal-targeted snowy cotyledon3 protein are required for chloroplast development in Arabidopsis.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
The cytoskeleton and the perox ...... st development in Arabidopsis.
@en
The cytoskeleton and the perox ...... st development in Arabidopsis.
@nl
type
label
The cytoskeleton and the perox ...... st development in Arabidopsis.
@en
The cytoskeleton and the perox ...... st development in Arabidopsis.
@nl
prefLabel
The cytoskeleton and the perox ...... st development in Arabidopsis.
@en
The cytoskeleton and the perox ...... st development in Arabidopsis.
@nl
P2093
P2860
P50
P356
P1433
P1476
The cytoskeleton and the perox ...... st development in Arabidopsis.
@en
P2093
Estelle Giraud
Jim Whelan
Klaus Apel
Klára Simková
Murray R Badger
Verónica Albrecht
P2860
P304
P356
10.1105/TPC.110.074781
P577
2010-10-26T00:00:00Z