Sequence of MDHM1_ARATH
EC Number:1.1.1.37
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
(S)-malate + NAD+ = oxaloacetate + NADH + H+
Other sequences found for EC No. 1.1.1.37
General information:
Sequence
0 MFRSMLVRSS ASAKQAVIRR SFSSGSVPER KVAILGAAGG IGQPLALLMK LNPLVSSLSL
60 YDIANTPGVA ADVGHINTRS EVVGYMGDDN LAKALEGADL VIIPAGVPRK PGMTRDDLFN
120 INAGIVKNLC TAIAKYCPHA LINMISNPVN STVPIAAEIF KKAGMYDEKK LFGVTTLDVV
180 RARTFYAGKA NVPVAEVNVP VIGGHAGVTI LPLFSQATPQ ANLSSDILTA LTKRTQDGGT
240 EVVEAKAGKG SATLSMAYAG ALFADACLKG LNGVPDVIEC SYVQSTITEL PFFASKVRLG
300 KNGVEEVLDL GPLSDFEKEG LEALKPELKS SIEKGVKFAN Q
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Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
568421
Berkemeyer M.,Scheibe R.,Ocheretina O.
A novel, non-redox-regulated NAD-dependent malate dehydrogenase from chloroplasts of Arabidopsis thaliana L.
J. Biol. Chem.
273
27927-27933
1998
568422
Theologis A.,Ecker J.R.,Palm C.J.,Federspiel N.A.,Kaul S.,White O.,Alonso J.,Altafi H.,Araujo R.,Bowman C.L.,Brooks S.Y.,Buehler E.,Chan A.,Chao Q.,Chen H.,Cheuk R.F.,Chin C.W.,Chung M.K.,Conn L.,Conway A.B.,Conway A.R.,Creasy T.H.,Dewar K.,Dunn P.,Etgu P.,Feldblyum T.V.,Feng J.-D.,Fong B.,Fujii C.Y.,Gill J.E.,Goldsmith A.D.,Haas B.,Hansen N.F.,Hughes B.,Huizar L.,Hunter J.L.,Jenkins J.,Johnson-Hopson C.,Khan S.,Khaykin E.,Kim C.J.,Koo H.L.,Kremenetskaia I.,Kurtz D.B.,Kwan A.,Lam B.,Langin-Hooper S.,Lee A.,Lee J.M.,Lenz C.A.,Li J.H.,Li Y.-P.,Lin X.,Liu S.X.,Liu Z.A.,Luros J.S.,Maiti R.,Marziali A.,Militscher J.,Miranda M.,Nguyen M.,Nierman W.C.,Osborne B.I.,Pai G.,Peterson J.,Pham P.K.,Rizzo M.,Rooney T.,Rowley D.,Sakano H.,Salzberg S.L.,Schwartz J.R.,Shinn P.,Southwick A.M.,Sun H.,Tallon L.J.,Tambunga G.,Toriumi M.J.,Town C.D.,Utterback T.,Van Aken S.,Vaysberg M.,Vysotskaia V.S.,Walker M.,Wu D.,Yu G.,Fraser C.M.,Venter J.C.,Davis R.W.
Sequence and analysis of chromosome 1 of the plant Arabidopsis thaliana.
Nature
408
816-820
2000
568423
Cheng C.Y.,Krishnakumar V.,Chan A.P.,Thibaud-Nissen F.,Schobel S.,Town C.D.
Araport11: a complete reannotation of the Arabidopsis thaliana reference genome.
Plant J.
89
789-804
2017
568424
Yamada K.,Lim J.,Dale J.M.,Chen H.,Shinn P.,Palm C.J.,Southwick A.M.,Wu H.C.,Kim C.J.,Nguyen M.,Pham P.K.,Cheuk R.F.,Karlin-Newmann G.,Liu S.X.,Lam B.,Sakano H.,Wu T.,Yu G.,Miranda M.,Quach H.L.,Tripp M.,Chang C.H.,Lee J.M.,Toriumi M.J.,Chan M.M.,Tang C.C.,Onodera C.S.,Deng J.M.,Akiyama K.,Ansari Y.,Arakawa T.,Banh J.,Banno F.,Bowser L.,Brooks S.Y.,Carninci P.,Chao Q.,Choy N.,Enju A.,Goldsmith A.D.,Gurjal M.,Hansen N.F.,Hayashizaki Y.,Johnson-Hopson C.,Hsuan V.W.,Iida K.,Karnes M.,Khan S.,Koesema E.,Ishida J.,Jiang P.X.,Jones T.,Kawai J.,Kamiya A.,Meyers C.,Nakajima M.,Narusaka M.,Seki M.,Sakurai T.,Satou M.,Tamse R.,Vaysberg M.,Wallender E.K.,Wong C.,Yamamura Y.,Yuan S.,Shinozaki K.,Davis R.W.,Theologis A.,Ecker J.R.
Empirical analysis of transcriptional activity in the Arabidopsis genome.
Science
302
842-846
2003
568426
Kruft V.,Eubel H.,Jaensch L.,Werhahn W.,Braun H.-P.
Proteomic approach to identify novel mitochondrial proteins in Arabidopsis.
Plant Physiol.
127
1694-1710
2001
568427
Heazlewood J.L.,Tonti-Filippini J.S.,Gout A.M.,Day D.A.,Whelan J.,Millar A.H.
Experimental analysis of the Arabidopsis mitochondrial proteome highlights signaling and regulatory components, provides assessment of targeting prediction programs, and indicates plant-specific mitochondrial proteins.
Plant Cell
16
241-256
2004
568428
Maor R.,Jones A.,Nuehse T.S.,Studholme D.J.,Peck S.C.,Shirasu K.
Multidimensional protein identification technology (MudPIT) analysis of ubiquitinated proteins in plants.
Mol. Cell. Proteomics
6
601-610
2007
568429
Reiland S.,Messerli G.,Baerenfaller K.,Gerrits B.,Endler A.,Grossmann J.,Gruissem W.,Baginsky S.
Large-scale Arabidopsis phosphoproteome profiling reveals novel chloroplast kinase substrates and phosphorylation networks.
Plant Physiol.
150
889-903
2009
568430
Tomaz T.,Bagard M.,Pracharoenwattana I.,Linden P.,Lee C.P.,Carroll A.J.,Stroeher E.,Smith S.M.,Gardestroem P.,Millar A.H.
Mitochondrial malate dehydrogenase lowers leaf respiration and alters photorespiration and plant growth in Arabidopsis.
Plant Physiol.
154
1143-1157
2010
568431
Carrie C.,Venne A.S.,Zahedi R.P.,Soll J.
Identification of cleavage sites and substrate proteins for two mitochondrial intermediate peptidases in Arabidopsis thaliana.
J. Exp. Bot.
66
2691-2708
2015
568432
Huedig M.,Maier A.,Scherrers I.,Seidel L.,Jansen E.E.,Mettler-Altmann T.,Engqvist M.K.,Maurino V.G.
Plants possess a cyclic mitochondrial metabolic pathway similar to the mammalian metabolic repair mechanism involving malate dehydrogenase and l-2-hydroxyglutarate dehydrogenase.
Plant Cell Physiol.
56
1820-1830
2015
568433
Yoshida K.,Hisabori T.
Adenine nucleotide-dependent and redox-independent control of mitochondrial malate dehydrogenase activity in Arabidopsis thaliana.
Biochim. Biophys. Acta
1857
810-818
2016
568434
Linden P.,Keech O.,Stenlund H.,Gardestroem P.,Moritz T.
Reduced mitochondrial malate dehydrogenase activity has a strong effect on photorespiratory metabolism as revealed by 13C labelling.
J. Exp. Bot.
67
3123-3135
2016
568435
Sew Y.S.,Stroeher E.,Fenske R.,Millar A.H.
Loss of mitochondrial malate dehydrogenase activity alters seed metabolism impairing seed maturation and post-germination growth in Arabidopsis.
Plant Physiol.
171
849-863
2016
