D-GLYCERATE 3-KINASE, the last unknown enzyme in the photorespiratory cycle in Arabidopsis, belongs to a novel kinase family.
about
Cyanobacterial contribution to the genomes of the plastid-lacking protistsPlant peroxisomes: biogenesis and functionThe 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-redundancyGlycerate 2-kinase of Thermotoga maritima and genomic reconstruction of related metabolic pathwaysAlgal evolution in relation to atmospheric CO2: carboxylases, carbon-concentrating mechanisms and carbon oxidation cyclesGlycerate kinase of the hyperthermophilic archaeon Thermoproteus tenax: new insights into the phylogenetic distribution and physiological role of members of the three different glycerate kinase classesThe dynamic thiol-disulphide redox proteome of the Arabidopsis thaliana chloroplast as revealed by differential electrophoretic mobility.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.Transcriptional profiling of an Fd-GOGAT1/GLU1 mutant in Arabidopsis thaliana reveals a multiple stress response and extensive reprogramming of the transcriptome.An autoinhibitory domain confers redox regulation to maize glycerate kinase.Mild reductions in mitochondrial NAD-dependent isocitrate dehydrogenase activity result in altered nitrate assimilation and pigmentation but do not impact growth.An engineered pathway for glyoxylate metabolism in tobacco plants aimed to avoid the release of ammonia in photorespirationMetabolic control of redox and redox control of metabolism in plants.PhotorespirationGlycolate 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 ArabidopsisCarbohydrate metabolism in Archaea: current insights into unusual enzymes and pathways and their regulation.Sun leaves up-regulate the photorespiratory pathway to maintain a high rate of CO2 assimilation in tobacco.Only plant-type (GLYK) glycerate kinases produce d-glycerate 3-phosphate.Analysis of essential Arabidopsis nuclear genes encoding plastid-targeted proteins.An in vivo metabolic approach for deciphering the product specificity of glycerate kinase proves that both E. coli's glycerate kinases generate 2-phosphoglycerate.Transcriptome response signatures associated with the overexpression of a mitochondrial uncoupling protein (AtUCP1) in tobacco.PhenoMeter: A Metabolome Database Search Tool Using Statistical Similarity Matching of Metabolic Phenotypes for High-Confidence Detection of Functional LinksGenomics of plant ABC transporters: the alphabet of photosynthetic life forms or just holes in membranes?PLGG1, a plastidic glycolate glycerate transporter, is required for photorespiration and defines a unique class of metabolite transporters.Transgenic approaches to manipulate the environmental responses of the C3 carbon fixation cycle.Influence of the sigmaB stress factor and yxaB, the gene for a putative exopolysaccharide synthase under sigmaB Control, on biofilm formation.Identifying essential genes/reactions of the rice photorespiration by in silico model-based analysis.Overexpression of Glycolate Oxidase Confers Improved Photosynthesis under High Light and High Temperature in Rice.Photorespiration redesigned.A critical review on the improvement of photosynthetic carbon assimilation in C3 plants using genetic engineering.The variety of photorespiratory phenotypes - employing the current status for future research directions on photorespiration.Towards closing the remaining gaps in photorespiration--the essential but unexplored role of transport proteins.Perspectives on plant photorespiratory metabolism.Protein phosphorylation and photorespiration.New insights into photorespiration obtained from metabolomics.Co-expression analysis as tool for the discovery of transport proteins in photorespiration.The redox control of photorespiration: from biochemical and physiological aspects to biotechnological considerations.
P2860
Q21283839-6F0EDB11-7D9D-4686-9948-DFA1BBDF685AQ26860917-C7FF16F7-3255-4DA7-9781-B1193DC96FCFQ28298924-ACF9DAE2-BAD8-4BC1-9B59-FC9E84F8BC02Q28473725-83898525-6A7C-40B9-A93D-8AE46E540914Q28485420-904A0C04-65DF-495A-9B37-B69E1F42F51FQ28740626-3F028666-2CE7-464F-82BF-B966B5610149Q33296302-6A8D82AB-F296-40BA-B748-6AC6C9311831Q33330460-226F3CA0-9791-4FA0-8513-0CAD31E3FF3CQ33341897-454DC781-184E-43DE-9C71-29CB95A76047Q33354796-C8E2749B-DBDD-4FF7-A575-6D25117B8CDBQ33543956-E4DD1E18-196A-4DE0-8251-D520B94BF554Q33562633-FB4DEEAB-E99A-4A60-B6B5-7F2E70C4042EQ33596372-E75336C0-DD29-4096-BD18-7B84A3F6B222Q34079672-395A2084-BF75-47D5-A675-1B37BBFD8E84Q34154548-29516AA2-40C5-4A56-B395-05B5575F9C8FQ34251815-7DAD81AE-B583-444A-ACD8-33BC984BDC99Q34326392-B12C045B-3DD6-49B1-8001-0A7A637077D7Q34388941-43B71403-0D0D-455E-B4CE-C01E702334DDQ34408562-927B5F6F-E121-44F8-B9DC-103482EF24C5Q34622066-2A2EDBBD-D3DD-46E8-8365-1182D3878BBFQ34803641-4A82EA2C-DB37-4BF1-B1B7-0FBB0D7B4EF3Q34984368-3B1AAD5C-B3D8-4E18-BEB2-441811B95789Q35590375-3FDD2851-35E3-4C7B-A7CD-7A139009578BQ35672647-0FD9B273-435D-48B9-BB92-FD45351402EDQ35898127-077219D8-ECD1-4F14-B7A3-9A1DB7359AFFQ36368611-898FECAB-5021-4539-B055-10EB2CB0B705Q36637387-C8347287-81A5-4566-AC45-76D8588F45F3Q36642352-9A3FBC29-0816-49D1-BF7D-A8B2639F26C6Q36672810-10C322EA-D2ED-4019-8736-7F2D0132C5EFQ36943998-CCF23F24-5CCF-4C36-A37F-259269B3CBA3Q37150402-3AD2933C-3B0F-4150-8235-3318A0ED7C8BQ37799683-1E361DAC-92B2-4D71-ADD6-7453EFA13BA9Q37893660-52B047F9-38EB-407C-AB57-F967FCFCF03BQ38061492-3F66515C-5958-431D-9B36-40A90FD09CCCQ38063941-4E07C2A7-1D89-4248-B517-8DA17810D00AQ38066595-3492B805-E5EF-4391-8788-E6EF2566498AQ38090696-289F572F-6599-49D1-AB50-AD7914616B33Q38097852-84F385F8-BD21-43AF-8FF9-1EB9D65698CDQ38099400-B2765E34-DBC7-49E6-AEDD-A8F86BAF23B1Q38704851-F198DD18-5DF1-4A13-83FE-954063CC9FD4
P2860
D-GLYCERATE 3-KINASE, the last unknown enzyme in the photorespiratory cycle in Arabidopsis, belongs to a novel kinase family.
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
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-hant
name
D-GLYCERATE 3-KINASE, the last ...... ongs to a novel kinase family.
@en
D-GLYCERATE 3-KINASE, the last ...... ongs to a novel kinase family.
@nl
type
label
D-GLYCERATE 3-KINASE, the last ...... ongs to a novel kinase family.
@en
D-GLYCERATE 3-KINASE, the last ...... ongs to a novel kinase family.
@nl
prefLabel
D-GLYCERATE 3-KINASE, the last ...... ongs to a novel kinase family.
@en
D-GLYCERATE 3-KINASE, the last ...... ongs to a novel kinase family.
@nl
P2093
P2860
P356
P1433
P1476
D-GLYCERATE 3-KINASE, the last ...... ongs to a novel kinase family.
@en
P2093
Christoph Edner
Hermann Bauwe
Katja Morgenthal
Martin Hagemann
Ralf Boldt
Uner Kolukisaoglu
P2860
P304
P356
10.1105/TPC.105.033993
P577
2005-06-24T00:00:00Z