MyMpn
The Mycoplasma pneumoniae database
 
e.g Mpn001 or dnaN or polymerase
Gene ldh (MPN674)
Name 
ldh
Stable ID 
MPN674
Location 
797819 - 798757 +
Sequence 
    1  ATGAAGAGTC TTAAAGTAGC ACTCATTGGT TCTGGTGCAG TGGGCACCAG CTTTCTCTAC
   61  GCTGCCATGA GCCGTGGTTT AGCGAGTGAA TACATGGTTA TCGACATTAA CGAAAAATCC
  121  CAAGTAGGGA ATGTTTTTGA CCTCCAAGAT GCTGTACCAT CATCACCGCA ATACAGTAAG
  181  GTAATTGCTG GTGATTACAA ACAACTCAAA GATTACGACT TTATCTTTAT TGGTGCTGGT
  241  CGACCCCAAA AGCAAGGTGG GGAAACCCGG TTACAACTCC TTGAAGGTAA TGTCGAAATT
  301  ATGAAGAACA TTGCCAAAGC CGTGAAGGAA TCGGGCTTTA AGGGCATTAC CTTAATTGCT
  361  TCCAACCCAG TCGACATTAT GGCTTACACC TATTTAAAGG TAACGGGGTT TGAACCGAAT
  421  AAGGTAATTG GTTCTGGAAC CTTACTAGAC AGCGCCCGGT TAAAGTTTGC GATTGCTGAA
  481  AAATATGGTA TGAGCAGCAG GGATGTCCAA GCATATGTGT TAGGTGAACA CGGGGATAGT
  541  TCAGTAAGTA TTATTTCCTC CGCTAAGATT GCTGGCTTAC CACTCAAACA CTTCTCGAAA
  601  GCAAGTGATA TAGAAAAAGA ATTTGCTGAA ATTGACCACT TTATTCGCCG TCGAGCTTAT
  661  GAAATCATCG AACGCAAAGG AGCCACCTTT TATGGCATCG GGGAAGCAAC TGCCGAAGTA
  721  GCAGAATTAA TTCTCCGCGA CACTAAAGAA GTACGAGTAG TAGCATCGTT AATTAATGGC
  781  CAATATGGTG CTAAAGATGT AATGTTTGGC ACCCCTTGTG TCTTGGGACG CAATGGTGTG
  841  GAAAAGATCT TGGAAATTGA ATTGTCTGCT ACAGAAAAAG CAGGCTTGGA CAAATCAATC
  901  CAAGTATTGA AGGACAACAT TAAGTTAGCT AAACTATAA
Download Sequence
Operon 
OP272
Operon location 
797805 - 798800
Protein (mpn674)
Name 
L-lactate dehydrogenase (L-LDH) (EC 1.1.1.27)
Stable ID 
Mpn674
Molecular Weight 
34320
Isoelectric Point 
9
Localization 
SIGNALP
Comment lactate + NAD = pyruvate + NADH;
Sequence 
MKSLKVALIGSGAVGTSFLYAAMSRGLASEYMVIDINEKSQVGNVFDLQDAVPSSPQYSKVIAGDYKQLKDYDFIFIGAG
RPQKQGGETRLQLLEGNVEIMKNIAKAVKESGFKGITLIASNPVDIMAYTYLKVTGFEPNKVIGSGTLLDSARLKFAIAE
KYGMSSRDVQAYVLGEHGDSSVSIISSAKIAGLPLKHFSKASDIEKEFAEIDHFIRRRAYEIIERKGATFYGIGEATAEV
AELILRDTKEVRVVASLINGQYGAKDVMFGTPCVLGRNGVEKILEIELSATEKAGLDKSIQVLKDNIKLAKL
Post translational modifications
Modification Modified sequence Relative start Relative end Amino acid
Oxidation VALIGSGAVGTSFLYAAmSR 6 26 M
Oxidation VALIGSGAVGTSFLYAAmSr 6 26 M
Oxidation GLASEYmVIDINEK 26 40 M
Oxidation GLASEYmVIDINEk 26 40 M
Oxidation GLASEYmVIDINEKSQVGNVFDLQDAVPSSPQYSK 26 61 M
Oxidation LQLLEGNVEImk 91 103 M
Oxidation LQLLEGNVEImK 91 103 M
Oxidation LQLLEGNVEImKNIAK 91 107 M
Oxidation AVKESGFKGITLIASNPVDImAYTYLK 107 134 M
Oxidation ESGFKGITLIASNPVDImAYTYLK 110 134 M
Oxidation GITLIASNPVDImAYTYLK 115 134 M
Oxidation YGmSSR 162 168 M
Oxidation VVASLINGQYGAKDVmFGTPcVLGR 253 278 M
Oxidation DVmFGTPcVLGr 266 278 M
Oxidation DVmFGTPcVLGR 266 278 M
GENE/PROTEIN ldh (Domains Overview)
Click on the features to jump to domain info

 ExportIMG
Domains (InterProScan)
Location (aa) Name (InterPro ID) Description GO terms Sequence Evalue
1-312 PTHR11540:SF3 (n.a.) NULL 0
1-312 PTHR11540 (n.a.) NULL 0
2-146 G3DSA:3.40.50.720 (IPR016040) NAD(P)-binding domain Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0008152'>'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0008152)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0003824'>'catalytic' == '' ? '': 'catalytic'; 'activity' == '' ? '': 'activity'; ('GO' == '' ? '': 'GO';:0003824) <'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0005488'>'binding' == '' ? '': 'binding'; ('GO' == '' ? '': 'GO';:0005488)

8.39994e-41
3-311 PIRSF000102 (IPR001557) L-lactate/malate dehydrogenase Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0044262'>'cellular' == '' ? '': 'cellular'; 'carbohydrate' == '' ? '': 'carbohydrate'; 'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0044262) <'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:'oxidoreductase' == '' ? '': 'oxidoreductase';'>'oxidoreductase' == '' ? '': 'oxidoreductase'; 'activity' == '' ? '': 'activity';

0
4-145 PF00056 (IPR001236) Lactate/malate dehydrogenase, N-terminal Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0016491'>'oxidoreductase' == '' ? '': 'oxidoreductase'; 'activity' == '' ? '': 'activity'; ('GO' == '' ? '': 'GO';:0016491)

3.5e-33
5-29 PR00086 (IPR001557) L-lactate/malate dehydrogenase Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0044262'>'cellular' == '' ? '': 'cellular'; 'carbohydrate' == '' ? '': 'carbohydrate'; 'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0044262) <'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:'oxidoreductase' == '' ? '': 'oxidoreductase';'>'oxidoreductase' == '' ? '': 'oxidoreductase'; 'activity' == '' ? '': 'activity';

5.40002e-34
5-146 SSF51735 (n.a.) NULL 1.6e-41
8-305 TIGR01771 (IPR011304) L-lactate dehydrogenase Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0006096'>'glycolysis' == '' ? '': 'glycolysis'; ('GO' == '' ? '': 'GO';:0006096) <'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Cellular Component:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0005737'>'cytoplasm' == '' ? '': 'cytoplasm'; ('GO' == '' ? '': 'GO';:0005737)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0004459'>'L' == '' ? '': 'L';-'lactate' == '' ? '': 'lactate'; 'dehydrogenase' == '' ? '': 'dehydrogenase'; 'activity' == '' ? '': 'activity'; ('GO' == '' ? '': 'GO';:0004459)

0
30-54 PR00086 (IPR001557) L-lactate/malate dehydrogenase Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0044262'>'cellular' == '' ? '': 'cellular'; 'carbohydrate' == '' ? '': 'carbohydrate'; 'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0044262) <'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:'oxidoreductase' == '' ? '': 'oxidoreductase';'>'oxidoreductase' == '' ? '': 'oxidoreductase'; 'activity' == '' ? '': 'activity';

5.40002e-34
118-138 PR00086 (IPR001557) L-lactate/malate dehydrogenase Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0044262'>'cellular' == '' ? '': 'cellular'; 'carbohydrate' == '' ? '': 'carbohydrate'; 'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0044262) <'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:'oxidoreductase' == '' ? '': 'oxidoreductase';'>'oxidoreductase' == '' ? '': 'oxidoreductase'; 'activity' == '' ? '': 'activity';

5.40002e-34
142-160 PR00086 (IPR001557) L-lactate/malate dehydrogenase Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0044262'>'cellular' == '' ? '': 'cellular'; 'carbohydrate' == '' ? '': 'carbohydrate'; 'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0044262) <'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:'oxidoreductase' == '' ? '': 'oxidoreductase';'>'oxidoreductase' == '' ? '': 'oxidoreductase'; 'activity' == '' ? '': 'activity';

5.40002e-34
147-309 PF02866 (IPR022383) Lactate/malate dehydrogenase, C-terminal 1.9e-38
147-310 G3DSA:3.90.110.10 (IPR015955) Lactate dehydrogenase/glycoside hydrolase, family Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0005975'>'carbohydrate' == '' ? '': 'carbohydrate'; 'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0005975)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0003824'>'catalytic' == '' ? '': 'catalytic'; 'activity' == '' ? '': 'activity'; ('GO' == '' ? '': 'GO';:0003824)

0
147-312 SSF56327 (IPR015955) Lactate dehydrogenase/glycoside hydrolase, family Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0005975'>'carbohydrate' == '' ? '': 'carbohydrate'; 'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0005975)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0003824'>'catalytic' == '' ? '': 'catalytic'; 'activity' == '' ? '': 'activity'; ('GO' == '' ? '': 'GO';:0003824)

0
172-185 PR00086 (IPR001557) L-lactate/malate dehydrogenase Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0044262'>'cellular' == '' ? '': 'cellular'; 'carbohydrate' == '' ? '': 'carbohydrate'; 'metabolic' == '' ? '': 'metabolic'; 'process' == '' ? '': 'process'; ('GO' == '' ? '': 'GO';:0044262) <'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:'oxidoreductase' == '' ? '': 'oxidoreductase';'>'oxidoreductase' == '' ? '': 'oxidoreductase'; 'activity' == '' ? '': 'activity';

5.40002e-34
174-180 PS00064 (IPR018177) L-lactate dehydrogenase, active site Biological Process:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0055114'>'oxidation' == '' ? '': 'oxidation'; 'reduction' == '' ? '': 'reduction'; ('GO' == '' ? '': 'GO';:0055114)

Molecular Function:
<'A' == '' ? '': 'A'; 'class' == '' ? '': 'class';=''result' == '' ? '': 'result';' 'target' == '' ? '': 'target';='_'blank' == '' ? '': 'blank';' 'href' == '' ? '': 'href';=''http' == '' ? '': 'http';://'amigo' == '' ? '': 'amigo';.'geneontology' == '' ? '': 'geneontology';.'org' == '' ? '': 'org';/'cgi' == '' ? '': 'cgi';-'bin' == '' ? '': 'bin';/'amigo' == '' ? '': 'amigo';/'term' == '' ? '': 'term';-'details' == '' ? '': 'details';.'cgi' == '' ? '': 'cgi';?'term' == '' ? '': 'term';='GO' == '' ? '': 'GO';:0004459'>'L' == '' ? '': 'L';-'lactate' == '' ? '': 'lactate'; 'dehydrogenase' == '' ? '': 'dehydrogenase'; 'activity' == '' ? '': 'activity'; ('GO' == '' ? '': 'GO';:0004459)

0
Protein Homology (BLASTP results)
Protein Start Protein End Hit Size Orthologous Organism Orthologous Start Orthologous End Evalue Identity Score Alignment
5 303 298 - MAG4900 Mycoplasma agalactiae 3 305 1e-32 28.3828 329
4 307 303 - MARTH_orf109 Mycoplasma arthritidis 2 306 <1e-50 35.9223 478
1 311 310 - Caulobacter crescentus NA1000 1 313 5e-39 31.25 390
5 293 288 - MCJ_001000 Mycoplasma conjunctivae 22 299 0.000000000002 21.7687 155
1 305 304 - MCJ_006130 Mycoplasma conjunctivae 1 306 <1e-50 49.5114 753
5 305 300 - MHO_3580 Mycoplasma hominis 3 314 <1e-50 38.141 538
1 311 310 - Lactococcus lactis subsp. lactis KF147 3 314 <1e-50 36.9427 568
5 307 302 - Lactococcus lactis subsp. lactis KF147 3 300 3e-31 28.1046 321
5 306 301 - Lactococcus lactis subsp. lactis KF147 7 313 <1e-50 34.3042 461
5 304 299 - Lactococcus lactis subsp. lactis KF147 8 307 <1e-50 40.264 571
5 309 304 - Bacillus subtilis subsp. subtilis 7 310 5e-35 30.3514 358
5 308 303 - Bacillus subtilis subsp. subtilis 8 312 <1e-50 40.8497 615
5 308 303 - Bacillus subtilis subsp. subtilis 8 312 <1e-50 41.1765 618
5 309 304 - Bacillus subtilis subsp. subtilis 7 310 4e-35 30.3514 359
5 309 304 - MYCGA0730 Mycoplasma gallisepticum 3 318 <1e-50 34.0694 453
1 312 311 - MG460 Mycoplasma genitalium 1 312 <1e-50 80.1282 1331
4 311 307 - b3236 Escherichia coli 1 307 0.0000000000005 28.2209 166
5 311 306 - MSC_0532 Mycoplasma mycoides subsp. mycoides SC 7 314 <1e-50 46.6019 702
5 311 306 - MCAP_0439 Mycoplasma capricolum subsp. capricolum 7 314 <1e-50 47.2492 707
5 281 276 - MS53_0461 Mycoplasma synoviae 3 282 8.96831e-44 32.6241 425
1 303 302 - MHP7448_0137 Mycoplasma hyopneumoniae 7448 1 304 <1e-50 51.1475 746
5 310 305 - MMOB0410 Mycoplasma mobile 7 312 <1e-50 44.6254 688
1 304 303 - MYPE9640 Mycoplasma penetrans 1 300 <1e-50 46.4052 663
5 304 299 - Mycoplasma pulmonis 3 303 <1e-50 38.0795 537
External IDs
COG 
COG0039C
EC number 
1.1.1.27
Gene ID 
877032
GI 
13508413
GO 
Energy production and conversion
Home COG 
C
InterPro 
IPR011304|L-lactate dehydrogenase
InterPro 
IPR001557|L-lactate/malate dehydrogenase
InterPro 
IPR001236|Lactate/malate dehydrogenase
Old MP number 
MP168
Pathway 
Metabolism energy, Aerobic
PDB homologs 
9ldt_A
PDB homologs 
9ldb_A
PDB homologs 
2LDX
PDB homologs 
1i10_A
Pfam 
PF00056
Pfam 
PF02866
PID 
g1673830
RefSeq 
NP_110363.1
Swiss-Prot protein ID 
LDH_MYCPN
phylomeDB tree 
LDH_MYCPN
UniProt 
P78007
Transcription
IMAGE BROWSERS

OPERON OP272 (Genomic Overview)
Region:797805-798800

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STRING image

STRING of Mpn674STRING legend

PDB image(s)

9ldt

PDB 9ldt

9ldb

PDB 9ldb

2LDX

PDB 2LDX

1i10

PDB 1i10
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