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Showing Protein 2-oxoglutarate dehydrogenase, mitochondrial (HMDBP00439)

IdentificationBiological propertiesGene propertiesProtein propertiesExternal linksReferencesXMLShow 17 metabolites
Identification
HMDB Protein ID HMDBP00439
Secondary Accession Numbers
  • 5677
  • HMDBP03661
  • HMDBP04726
Name 2-oxoglutarate dehydrogenase, mitochondrial
Synonyms
  1. 2-oxoglutarate dehydrogenase complex component E1
  2. Alpha-ketoglutarate dehydrogenase
  3. OGDC-E1
Gene Name OGDH
Protein Type Enzyme
Biological Properties
General Function Involved in oxoglutarate dehydrogenase (succinyl-transferring) activity
Specific Function The 2-oxoglutarate dehydrogenase complex catalyzes the overall conversion of 2-oxoglutarate to succinyl-CoA and CO(2). It contains multiple copies of three enzymatic components: 2-oxoglutarate dehydrogenase (E1), dihydrolipoamide succinyltransferase (E2) and lipoamide dehydrogenase (E3).
Pathways
  • 2-ketoglutarate dehydrogenase complex deficiency
  • Citrate cycle (TCA cycle)
  • Citric Acid Cycle
  • Congenital lactic acidosis
  • Fumarase deficiency
  • Glutaminolysis and Cancer
  • Lysine degradation
  • Lysine degradation
  • Mitochondrial complex II deficiency
  • Pyruvate dehydrogenase deficiency (E2)
  • Pyruvate dehydrogenase deficiency (E3)
  • The oncogenic action of 2-hydroxyglutarate
  • The oncogenic action of D-2-hydroxyglutarate in Hydroxygluaricaciduria
  • The Oncogenic Action of Fumarate
  • The oncogenic action of L-2-hydroxyglutarate in Hydroxygluaricaciduria
  • The Oncogenic Action of Succinate
  • Tryptophan metabolism
  • Warburg Effect
Reactions
Oxoglutaric acid + [dihydrolipoyllysine-residue succinyltransferase] lipoyllysine → [dihydrolipoyllysine-residue succinyltransferase] S-succinyldihydrolipoyllysine + CO(2) details
Oxoglutaric acid + Thiamine pyrophosphate → 3-Carboxy-1-hydroxypropylthiamine diphosphate + Carbon dioxide details
Oxoadipic acid + Coenzyme A + NAD → Glutaryl-CoA + Carbon dioxide + NADH + Hydrogen Ion details
Oxoadipic acid + Enzyme N6-(lipoyl)lysine → [Dihydrolipoyllysine-residue succinyltransferase] S-glutaryldihydrolipoyllysine + Carbon dioxide details
3-Carboxy-1-hydroxypropylthiamine diphosphate + Enzyme N6-(lipoyl)lysine → [Dihydrolipoyllysine-residue succinyltransferase] S-succinyldihydrolipoyllysine + Thiamine pyrophosphate details
GO Classification
Biological Process
cellular nitrogen compound metabolic process
hippocampus development
olfactory bulb mitral cell layer development
tangential migration from the subventricular zone to the olfactory bulb
thalamus development
glycolysis
lysine catabolic process
tricarboxylic acid cycle
cerebellar cortex development
pyramidal neuron development
striatum development
Cellular Component
mitochondrial membrane
mitochondrial matrix
Function
binding
catalytic activity
vitamin binding
oxidoreductase activity
thiamin pyrophosphate binding
oxoglutarate dehydrogenase (succinyl-transferring) activity
oxidoreductase activity, acting on the aldehyde or oxo group of donors
oxidoreductase activity, acting on the aldehyde or oxo group of donors, disulfide as acceptor
Molecular Function
oxoglutarate dehydrogenase (NAD+) activity
oxoglutarate dehydrogenase (succinyl-transferring) activity
thiamine pyrophosphate binding
Process
metabolic process
small molecule metabolic process
alcohol metabolic process
monosaccharide metabolic process
hexose metabolic process
glucose metabolic process
glucose catabolic process
glycolysis
Cellular Location
  1. Mitochondrion matrix
Gene Properties
Chromosome Location 7
Locus 7p14-p13
SNPs OGDH
Gene Sequence 
>3072 bp
ATGTTTCATTTAAGGACTTGTGCTGCTAAGTTGAGGCCATTGACGGCTTCCCAGACTGTT
AAGACATTTTCACAAAACAGACCAGCAGCAGCTAGGACATTTCAACAGATTCGGTGCTAT
TCTGCACCTGTTGCTGCTGAGCCCTTTCTCAGTGGGACTAGTTCGAACTATGTGGAGGAG
ATGTACTGTGCTTGGCTGGAAAACCCCAAAAGTGTACATAAGTCATGGGACATTTTTTTT
CGCAACACGAATGCCGGAGCCCCACCGGGCACTGCCTACCAGAGTCCCCTTCCCCTGAGC
CGAGGCTCCCTGGCTGCTGTGGCCCATGCACAGTCCCTGGTAGAAGCACAGCCCAACGTG
GACAAGCTCGTGGAGGACCACCTGGCAGTGCAGTCGCTCATCAGGGCATATCAGATACGA
GGGCACCATGTAGCACAGCTGGACCCCCTGGGGATTTTGGATGCTGATCTGGACTCCTCC
GTGCCCGCTGACATTATCTCATCCACAGACAAACTTGGGTTCTATGGCCTGGATGAGTCT
GACCTCGACAAGGTCTTCCACTTGCCCACCACCACTTTCATCGGGGGACAGGAATCAGCA
CTTCCTCTGCGGGAGATCATCCGTCGGCTGGAGATGGCCTACTGCCAGCATATTGGGGTG
GAGTTCATGTTCATCAATGACCTGGAGCAGTGCCAGTGGATCCGGCAGAAGTTTGAGACC
CCTGGGATCATGCAGTTCACAAATGAGGAGAAACGGACCCTGCTGGCCAGGCTTGTGCGG
TCCACCAGGTTTGAGGAGTTCCTACAGCGGAAGTGGTCCTCTGAGAAGCGCTTTGGTCTA
GAAGGCTGCGAGGTACTGATCCCTGCCCTCAAGACCATCATTGACAAGTCTAGTGAGAAT
GGCGTGGACTACGTGATCATGGGCATGCCACACAGAGGGCGGCTGAACGTGCTTGCAAAT
GTCATCAGGAAGGAGCTGGAACAGATCTTCTGTCAATTCGATTCAAAGCTGGAGGCAGCT
GATGAGGGCTCCGGAGATGTGAAGTACCACCTGGGCATGTATCACCGCAGGATCAATCGT
GTCACCGACAGGAACATTACCTTGTCCTTGGTGGCCAACCCTTCCCACCTTGAGGCCGCT
GACCCCGTGGTGATGGGCAAGACCAAAGCCGAACAGTTTTACTGTGGCGACACTGAAGGG
AAAAAGGTCATGTCCATCCTGTTGCATGGGGATGCTGCATTTGCTGGCCAGGGCATTGTG
TACGAGACCTTCCACCTCAGCGACCTGCCATCCTACACAACTCATGGCACCGTGCACGTG
GTCGTCAACAACCAGATCGGCTTCACCACCGACCCTCGGATGGCCCGCTCCTCCCCCTAC
CCCACTGACGTGGCCCGAGTGGTGAATGCCCCCATTTTCCACGTGAACTCAGATGACCCC
GAGGCTGTCATGTACGTGTGCAAAGTGGCGGCCGAGTGGAGGAGCACCTTCCACAAGGAC
GTGGTTGTCGATTTGGTGTGTTACCGGCGCAACGGCCACAACGAGATGGATGAGCCCATG
TTCACGCAGCCGCTCATGTACAAGCAGATCCGCAAGCAGAAGCCTGTGTTACAGAAGTAC
GCTGAGCTGCTGGTGTCGCAGGGTGTGGTCAACCAGCCTGAGTATGAGGAGGAAATTTCC
AAGTATGATAAGATCTGTGAGGAAGCTTTTGCCAGATCTAAAGATGAGAAGATCTTGCAC
ATTAAGCACTGGCTGGACTCTCCCTGGCCTGGCTTCTTCACCCTGGACGGGCAGCCCAGG
AGCATGTCCTGCCCCTCCACGGGTCTGACGGAGGATATTCTGACACACATCGGGAATGTG
GCTAGTTCTGTGCCTGTGGAAAACTTTACTATTCATGGAGGGCTGAGCCGGATCTTGAAG
ACTCGTGGGGAAATGGTGAAGAACCGGACTGTGGACTGGGCTCTAGCGGAGTACATGGCG
TTTGGCTCGCTCCTGAAGGAGGGCATCCACATTCGGCTGAGCGGCCAGGACGTGGAGCGG
GGCACATTCAGCCACCGCCACCATGTGCTCCATGACCAGAATGTGGACAAGAGAACCTGC
ATCCCCATGAACCATCTCTGGCCCAATCAGGCCCCCTATACTGTGTGCAACAGCTCACTG
TCTGAGTACGGCGTGCTGGGCTTTGAGCTGGGCTTCGCCATGGCCAGTCCTAATGCCCTG
GTCCTCTGGGAAGCCCAATTTGGTGACTTCCACAACACGGCCCAGTGTATCATCGACCAG
TTCATCTGCCCGGGACAAGCCAAGTGGGTGCGGCAGAATGGCATCGTGTTGCTGCTGCCC
CATGGCATGGAGGGCATGGGTCCAGAACATTCCTCCGCCCGCCCAGAGCGGTTCTTGCAG
ATGTGCAACGATGACCCAGATGTCCTGCCAGACCTTAAAGAAGCCAACTTCGACATCAAT
CAGCTATATGACTGCAATTGGGTTGTTGTCAACTGCTCCACTCCTGGCAACTTCTTCCAC
GTGCTACGACGCCAGATCCTGCTGCCATTCCGGAAGCCGTTAATTATCTTCACCCCCAAA
TCCCTGTTGCGCCACCCCGAGGCCAGATCCAGCTTTGATGAGATGCTTCCAGGAACCCAC
TTCCAGCGGGTGATCCCAGAAGATGGCCCTGCAGCTCAGAACCCAGAAAATGTCAAAAGG
CTTCTCTTCTGCACCGGCAAAGTGTATTATGACCTCACCCGGGAGCGCAAAGCACGCGAC
ATGGTGGGGCAGGTGGCCATCACAAGGATTGAGCAGCTGTCGCCATTCCCCTTTGACCTC
CTGCTGAAGGAGGTGCAGAAGTACCCCAATGCTGAGCTGGCCTGGTGCCAGGAGGAGCAC
AAGAACCAAGGCTACTATGACTACGTGAAGCCAAGACTTCGGACCACCATCAGCCGCGCC
AAGCCCGTCTGGTATGCCGGCCGGGACCCAGCGGCTGCTCCAGCCACCGGCAACAAGAAG
ACCCACCTGACGGAGCTGCAGCGCCTCCTGGACACGGCCTTCGACCTGGACGTCTTCAAG
AACTTCTCGTAG
Protein Properties
Number of Residues 1023
Molecular Weight 48179.59
Theoretical pI 7.895
Pfam Domain Function
Signals Not Available
Transmembrane Regions Not Available
Protein Sequence 
>2-oxoglutarate dehydrogenase, mitochondrial
MFHLRTCAAKLRPLTASQTVKTFSQNRPAAARTFQQIRCYSAPVAAEPFLSGTSSNYVEE
MYCAWLENPKSVHKSWDIFFRNTNAGAPPGTAYQSPLPLSRGSLAAVAHAQSLVEAQPNV
DKLVEDHLAVQSLIRAYQIRGHHVAQLDPLGILDADLDSSVPADIISSTDKLGFYGLDES
DLDKVFHLPTTTFIGGQESALPLREIIRRLEMAYCQHIGVEFMFINDLEQCQWIRQKFET
PGIMQFTNEEKRTLLARLVRSTRFEEFLQRKWSSEKRFGLEGCEVLIPALKTIIDKSSEN
GVDYVIMGMPHRGRLNVLANVIRKELEQIFCQFDSKLEAADEGSGDVKYHLGMYHRRINR
VTDRNITLSLVANPSHLEAADPVVMGKTKAEQFYCGDTEGKKVMSILLHGDAAFAGQGIV
YETFHLSDLPSYTTHGTVHVVVNNQIGFTTDPRMARSSPYPTDVARVVNAPIFHVNSDDP
EAVMYVCKVAAEWRSTFHKDVVVDLVCYRRNGHNEMDEPMFTQPLMYKQIRKQKPVLQKY
AELLVSQGVVNQPEYEEEISKYDKICEEAFARSKDEKILHIKHWLDSPWPGFFTLDGQPR
SMSCPSTGLTEDILTHIGNVASSVPVENFTIHGGLSRILKTRGEMVKNRTVDWALAEYMA
FGSLLKEGIHIRLSGQDVERGTFSHRHHVLHDQNVDKRTCIPMNHLWPNQAPYTVCNSSL
SEYGVLGFELGFAMASPNALVLWEAQFGDFHNTAQCIIDQFICPGQAKWVRQNGIVLLLP
HGMEGMGPEHSSARPERFLQMCNDDPDVLPDLKEANFDINQLYDCNWVVVNCSTPGNFFH
VLRRQILLPFRKPLIIFTPKSLLRHPEARSSFDEMLPGTHFQRVIPEDGPAAQNPENVKR
LLFCTGKVYYDLTRERKARDMVGQVAITRIEQLSPFPFDLLLKEVQKYPNAELAWCQEEH
KNQGYYDYVKPRLRTTISRAKPVWYAGRDPAAAPATGNKKTHLTELQRLLDTAFDLDVFK
NFS
GenBank ID Protein 37674435
UniProtKB/Swiss-Prot ID Q02218
UniProtKB/Swiss-Prot Entry Name ODO1_HUMAN
PDB IDs
GenBank Gene ID AC004859
GeneCard ID OGDH
GenAtlas ID OGDH
HGNC ID HGNC:8124
References
General References
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