An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
about
No peroxisome is an island - Peroxisome contact sitesPhotorespiratory bypasses: how can they work?The photorespiratory glycolate metabolism is essential for cyanobacteria and might have been conveyed endosymbiontically to plantsRefinement of light-responsive transcript lists using rice oligonucleotide arrays: evaluation of gene-redundancyDifferent functions of the C3HC4 zinc RING finger peroxins PEX10, PEX2, and PEX12 in peroxisome formation and matrix protein import.The photorespiratory Arabidopsis shm1 mutant is deficient in SHM1.Arabidopsis A BOUT DE SOUFFLE is a putative mitochondrial transporter involved in photorespiratory metabolism and is required for meristem growth at ambient CO₂ levels.Modulation of the major paths of carbon in photorespiratory mutants of synechocystis.Glyoxylate rather than ascorbate is an efficient precursor for oxalate biosynthesis in rice.An engineered pathway for glyoxylate metabolism in tobacco plants aimed to avoid the release of ammonia in photorespirationPhotorespirationGlycolate oxidase isozymes are coordinately controlled by GLO1 and GLO4 in rice.High-to-low CO2 acclimation reveals plasticity of the photorespiratory pathway and indicates regulatory links to cellular metabolism of ArabidopsisHighly oxidized peroxisomes are selectively degraded via autophagy in Arabidopsis.Bending of protonema cells in a plastid glycolate/glycerate transporter knockout line of Physcomitrella patensRequirement of the C3HC4 zinc RING finger of the Arabidopsis PEX10 for photorespiration and leaf peroxisome contact with chloroplastsTransgenic approaches to manipulate the environmental responses of the C3 carbon fixation cycle.Photorespiratory glycolate oxidase is essential for the survival of the red alga Cyanidioschyzon merolae under ambient CO2 conditionsOverexpression of Glycolate Oxidase Confers Improved Photosynthesis under High Light and High Temperature in Rice.Photorespiration redesigned.The variety of photorespiratory phenotypes - employing the current status for future research directions on photorespiration.Evolution of the biochemistry of the photorespiratory C2 cycle.Towards closing the remaining gaps in photorespiration--the essential but unexplored role of transport proteins.Co-expression analysis as tool for the discovery of transport proteins in photorespiration.Evolution of photorespiration from cyanobacteria to land plants, considering protein phylogenies and acquisition of carbon concentrating mechanisms.On the metabolic interactions of (photo)respiration.Can cyanobacteria serve as a model of plant photorespiration? - a comparative meta-analysis of metabolite profiles.Alanine aminotransferase homologs catalyze the glutamate:glyoxylate aminotransferase reaction in peroxisomes of Arabidopsis.Cyanobacterial lactate oxidases serve as essential partners in N2 fixation and evolved into photorespiratory glycolate oxidases in plants.Plant eR genes that encode photorespiratory enzymes confer resistance against disease.Photorespiration: origins and metabolic integration in interacting compartments.Inducible antisense suppression of glycolate oxidase reveals its strong regulation over photosynthesis in rice.A cytosolic pathway for the conversion of hydroxypyruvate to glycerate during photorespiration in Arabidopsis.Arabidopsis 10-formyl tetrahydrofolate deformylases are essential for photorespiration.D-GLYCERATE 3-KINASE, the last unknown enzyme in the photorespiratory cycle in Arabidopsis, belongs to a novel kinase family.Evolution of enzymes involved in the photorespiratory 2-phosphoglycolate cycle from cyanobacteria via algae toward plants.Targeted Isolation and Characterization of T-DNA Mutants Defective in Photorespiration.From endoplasmic reticulum to mitochondria: absence of the Arabidopsis ATP antiporter endoplasmic Reticulum Adenylate Transporter1 perturbs photorespiration.William L. Ogren was honored with a Lifetime Achievement Award by the Rebeiz Foundation for Basic Research.Two hydroxypyruvate reductases encoded by OsHPR1 and OsHPR2 are involved in photorespiratory metabolism in rice.
P2860
Q26783227-C490F0AA-3122-42FC-AD2E-6D6C5B506ADAQ27686955-6120873F-E137-4F9C-B818-8F81902B3AA9Q28298924-D4405DD0-106D-44C6-97DB-2840CDEBE234Q28473725-9A48E1DE-E644-4DD9-A629-02637635B425Q30496348-F9DCA559-60F5-4EA7-BFBF-0DBBD8BAC5DFQ33341897-D626D044-55B5-47FA-9A8A-7447245408A5Q33354796-EC1ECA40-674C-4E66-A68B-A2343A72CECBQ33809054-4B876953-ECEA-432A-AC2C-3AAAA61189FEQ34038916-C6AF831E-BDAA-4DB8-AC38-CBDA8D4A9D18Q34079672-9D07C2F8-FE3E-405D-9074-88D7653B3EC7Q34251815-2E55A2E6-8DAE-46A9-BA48-D96E5703B3E4Q34326392-D1ABFAD4-1117-410F-BF41-F0861D77AEEDQ34388941-D825901B-D7C8-4A18-9453-8A90C2D1F7BEQ34394370-42E6D8CA-2C85-46E3-83C7-255EC6E58FBDQ35203311-4252A372-9DD6-4B9D-92A7-229DF57A12A4Q35612129-903C046A-FC22-460B-BD2E-962D63B90674Q36642352-F9171A59-FA2D-4608-A9F5-8A8509284DB5Q36903729-3E90753E-A06F-440C-89B4-19B9316E8A3AQ37150402-ADEBF67A-8AAC-4840-88C9-F0B0F5F0D374Q37799683-4B1B2439-05C2-410D-ACE0-4E7D3648AC2CQ38061492-D7D1000D-96C7-4BE2-BDCC-86664D5554F6Q38063936-EF57A2C6-09B1-40DC-BA14-45F0B8DCAD62Q38063941-2E03398B-37E3-4B93-A7AA-B19D6162CCC7Q38099400-293F8D14-58B3-4D2F-9CB3-6A2E971512B9Q38756589-AFEEEE5E-CE75-4F05-A404-849F756BEA00Q38793910-7ADEF96D-2A5C-4592-91AA-D5245608D525Q39926690-BE0AB5A0-EB39-4508-AE69-386EE9D3761AQ44279324-7C6567AC-5DBD-4414-9CD2-FE7D5E68A807Q44311323-C6D364DC-4A41-4A0E-915A-C3E7B7095805Q44701464-45C5E57B-2F26-4CB5-8410-2124E255CCEBQ45955944-3CB743D3-52C6-4C36-8249-67AA624F63D0Q46098831-59315D77-A5EF-4571-9E9F-8CF91D30D526Q46294801-379A8F2A-CD88-4B2C-BD72-CB1FB40782C5Q46483064-D321EABF-9174-4EF8-9EF9-7F777D1A6A72Q46568427-697DDABE-E44E-4CA0-9E1C-019AD2C8CBD3Q47329231-1572E385-8BA7-4BEE-9467-47EE4E54CD07Q47932090-CB31A459-E4EB-436B-9A1E-05EF218A5C76Q47996574-9B5AFCAF-5124-4353-8C97-73C49E55294CQ48018831-EC2EF64D-AB49-401F-B3B1-3B1D6DEA5DA5Q50464209-C953D291-69BB-414F-9D4B-356F12715165
P2860
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
description
2001 nî lūn-bûn
@nan
2001 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@ast
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@en
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@nl
type
label
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@ast
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@en
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@nl
prefLabel
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@ast
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@en
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@nl
P356
P1433
P1476
An early Arabidopsis demonstration. Resolving a few issues concerning photorespiration.
@en
P2093
Somerville CR
P356
10.1104/PP.125.1.20
P407
P577
2001-01-01T00:00:00Z