KEGG   PATHWAY: mhar00270
Entry
mhar00270                   Pathway                                
Name
Cysteine and methionine metabolism - Mariluticola halotolerans
Description
Cysteine and methionine are sulfur-containing amino acids. Cysteine is synthesized from serine through different pathways in different organism groups. In bacteria and plants, cysteine is converted from serine (via acetylserine) by transfer of hydrogen sulfide [MD:M00021]. In animals, methionine-derived homocysteine is used as sulfur source and its condensation product with serine (cystathionine) is converted to cysteine [MD:M00338]. Cysteine is metabolized to pyruvate in multiple routes. Methionine is an essential amino acid, which animals cannot synthesize. In bacteria and plants, methionine is synthesized from aspartate [MD:M00017]. S-Adenosylmethionine (SAM), synthesized from methionine and ATP, is a methyl group donor in many important transfer reactions including DNA methylation for regulation of gene expression. SAM may also be used to regenerate methionine in the methionine salvage pathway [MD:M00034].
Class
Metabolism; Amino acid metabolism
Pathway map
mhar00270  Cysteine and methionine metabolism
mhar00270

Module
mhar_M00021  Cysteine biosynthesis, serine => cysteine [PATH:mhar00270]
Other DBs
GO: 0006534 0006555
Organism
Mariluticola halotolerans [GN:mhar]
Gene
L1P08_04990  cysE; serine O-acetyltransferase [KO:K00640] [EC:2.3.1.30]
L1P08_06160  cysteine synthase A [KO:K01738] [EC:2.5.1.47]
L1P08_06200  metC; cystathionine beta-lyase [KO:K01760] [EC:4.4.1.13]
L1P08_11035  metK; methionine adenosyltransferase [KO:K00789] [EC:2.5.1.6]
L1P08_14365  acyl-homoserine-lactone synthase [KO:K22955] [EC:2.3.1.184]
L1P08_11525  5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase [KO:K01243] [EC:3.2.2.9]
L1P08_15920  mtnK; S-methyl-5-thioribose kinase [KO:K00899] [EC:2.7.1.100]
L1P08_00085  pgeF; peptidoglycan editing factor PgeF [KO:K05810] [EC:2.4.2.1 2.4.2.28 3.5.4.4]
L1P08_15925  mtnA; S-methyl-5-thioribose-1-phosphate isomerase [KO:K08963] [EC:5.3.1.23]
L1P08_07965  aspartate/tyrosine/aromatic aminotransferase [KO:K00832] [EC:2.6.1.57]
L1P08_15940  RuBisCO large subunit C-terminal-like domain-containing protein [KO:K25035] [EC:5.3.3.23]
L1P08_00270  dcm; DNA (cytosine-5-)-methyltransferase [KO:K00558] [EC:2.1.1.37]
L1P08_11615  DNA cytosine methyltransferase [KO:K00558] [EC:2.1.1.37]
L1P08_09965  ahcY; adenosylhomocysteinase [KO:K01251] [EC:3.13.2.1]
L1P08_08655  aspartate kinase [KO:K00928] [EC:2.7.2.4]
L1P08_12835  aspartate kinase [KO:K00928] [EC:2.7.2.4]
L1P08_11760  aspartate-semialdehyde dehydrogenase [KO:K00133] [EC:1.2.1.11]
L1P08_06440  homoserine dehydrogenase [KO:K00003] [EC:1.1.1.3]
L1P08_05465  metA; homoserine O-succinyltransferase [KO:K00651] [EC:2.3.1.46 2.3.1.31]
L1P08_01440  aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme [KO:K01740] [EC:2.5.1.49]
L1P08_08435  metZ; O-succinylhomoserine sulfhydrylase [KO:K10764] [EC:2.5.1.-]
L1P08_00130  branched-chain amino acid aminotransferase [KO:K00826] [EC:2.6.1.42]
L1P08_07720  glutamate--cysteine ligase [KO:K01919] [EC:6.3.2.2]
L1P08_10900  gshB; glutathione synthase [KO:K01920] [EC:6.3.2.3]
L1P08_00365  pyridoxal phosphate-dependent aminotransferase [KO:K00812] [EC:2.6.1.1]
L1P08_06170  sseA; 3-mercaptopyruvate sulfurtransferase [KO:K01011] [EC:2.8.1.1 2.8.1.2]
L1P08_14100  sulfurtransferase [KO:K01011] [EC:2.8.1.1 2.8.1.2]
L1P08_11940  aspartate/glutamate racemase family protein [KO:K25316] [EC:5.1.1.10]
L1P08_11835  mdh; malate dehydrogenase [KO:K00024] [EC:1.1.1.37]
L1P08_13005  pyridoxal-phosphate dependent enzyme [KO:K17950] [EC:4.4.1.25]
L1P08_14185  L-serine ammonia-lyase [KO:K01752] [EC:4.3.1.17]
L1P08_14050  serA; phosphoglycerate dehydrogenase [KO:K00058] [EC:1.1.1.95 1.1.1.399]
L1P08_15885  C-terminal binding protein [KO:K00058] [EC:1.1.1.95 1.1.1.399]
L1P08_14045  phosphoserine transaminase [KO:K00831] [EC:2.6.1.52]
Compound
C00019  S-Adenosyl-L-methionine
C00021  S-Adenosyl-L-homocysteine
C00022  Pyruvate
C00041  L-Alanine
C00049  L-Aspartate
C00051  Glutathione
C00059  Sulfate
C00065  L-Serine
C00073  L-Methionine
C00094  Sulfite
C00097  L-Cysteine
C00109  2-Oxobutanoate
C00155  L-Homocysteine
C00170  5'-Methylthioadenosine
C00197  3-Phospho-D-glycerate
C00263  L-Homoserine
C00283  Hydrogen sulfide
C00409  Methanethiol
C00441  L-Aspartate 4-semialdehyde
C00491  L-Cystine
C00506  L-Cysteate
C00606  3-Sulfino-L-alanine
C00793  D-Cysteine
C00957  Mercaptopyruvate
C00979  O-Acetyl-L-serine
C01005  O-Phospho-L-serine
C01077  O-Acetyl-L-homoserine
C01118  O-Succinyl-L-homoserine
C01137  S-Adenosylmethioninamine
C01180  4-Methylthio-2-oxobutanoic acid
C01234  1-Aminocyclopropane-1-carboxylate
C01817  L-Homocystine
C01962  Thiocysteine
C02218  Dehydroalanine
C02291  L-Cystathionine
C02356  (S)-2-Aminobutanoate
C02989  L-Methionine S-oxide
C03082  4-Phospho-L-aspartate
C03089  5-Methylthio-D-ribose
C03145  N-Formylmethionine
C03232  3-Phosphonooxypyruvate
C03431  S-Inosyl-L-homocysteine
C03539  S-Ribosyl-L-homocysteine
C04188  S-Methyl-5-thio-D-ribose 1-phosphate
C04582  S-Methyl-5-thio-D-ribulose 1-phosphate
C05324  Nicotianamine
C05524  Aminoacyl-L-methionine
C05526  S-Glutathionyl-L-cysteine
C05527  3-Sulfinylpyruvate
C05528  3-Sulfopyruvate
C05823  3-Mercaptolactate
C05824  S-Sulfo-L-cysteine
C06547  Ethylene
C08276  3-(Methylthio)propanoate
C09306  Sulfur dioxide
C11437  1-Deoxy-D-xylulose 5-phosphate
C11481  HSO3-
C11499  (S)-3-Sulfolactate
C11537  (2R)-3-Sulfolactate
C15606  1,2-Dihydroxy-5-(methylthio)pent-1-en-3-one
C15650  2,3-Diketo-5-methylthiopentyl-1-phosphate
C15651  2-Hydroxy-3-keto-5-methylthiopentenyl-1-phosphate
C18049  N-Acyl-L-homoserine lactone
C19787  5'-S-Methyl-5'-thioinosine
C21015  gamma-L-Glutamyl-L-2-aminobutyrate
C21016  Ophthalmate
C22359  S-Methyl-1-thio-D-xylulose 5-phosphate
Reference
PMID:15102328
  Authors
Sekowska A, Denervaud V, Ashida H, Michoud K, Haas D, Yokota A, Danchin A
  Title
Bacterial variations on the methionine salvage pathway.
  Journal
BMC Microbiol 4:9 (2004)
DOI:10.1186/1471-2180-4-9
Reference
PMID:14551435
  Authors
Ashida H, Saito Y, Kojima C, Kobayashi K, Ogasawara N, Yokota A.
  Title
A functional link between RuBisCO-like protein of Bacillus and photosynthetic RuBisCO.
  Journal
Science 302:286-90 (2003)
DOI:10.1126/science.1086997
Reference
PMID:12022921
  Authors
Sekowska A, Danchin A.
  Title
The methionine salvage pathway in Bacillus subtilis.
  Journal
BMC Microbiol 2:8 (2002)
DOI:10.1186/1471-2180-2-8
Reference
PMID:12670965
  Authors
Berger BJ, English S, Chan G, Knodel MH.
  Title
Methionine regeneration and aminotransferases in Bacillus subtilis, Bacillus cereus, and Bacillus anthracis.
  Journal
J Bacteriol 185:2418-31 (2003)
DOI:10.1128/JB.185.8.2418-2431.2003
Reference
PMID:17169919
  Authors
Goyer A, Collakova E, Shachar-Hill Y, Hanson AD
  Title
Functional characterization of a methionine gamma-lyase in Arabidopsis and its implication in an alternative to the reverse trans-sulfuration pathway.
  Journal
Plant Cell Physiol 48:232-42 (2007)
DOI:10.1093/pcp/pcl055
Reference
PMID:17030798
  Authors
Rebeille F, Jabrin S, Bligny R, Loizeau K, Gambonnet B, Van Wilder V, Douce R, Ravanel S
  Title
Methionine catabolism in Arabidopsis cells is initiated by a gamma-cleavage process and leads to S-methylcysteine and isoleucine syntheses.
  Journal
Proc Natl Acad Sci U S A 103:15687-92 (2006)
DOI:10.1073/pnas.0606195103
Reference
PMID:18625006
  Authors
Pirkov I, Norbeck J, Gustafsson L, Albers E
  Title
A complete inventory of all enzymes in the eukaryotic methionine salvage pathway.
  Journal
FEBS J 275:4111-20 (2008)
DOI:10.1111/j.1742-4658.2008.06552.x
Reference
PMID:18391471
  Authors
Ashida H, Saito Y, Kojima C, Yokota A
  Title
Enzymatic characterization of 5-methylthioribulose-1-phosphate dehydratase of the methionine salvage pathway in Bacillus subtilis.
  Journal
Biosci Biotechnol Biochem 72:959-67 (2008)
DOI:10.1271/bbb.70651
Reference
PMID:10613873
  Authors
Kitabatake M, So MW, Tumbula DL, Soll D
  Title
Cysteine biosynthesis pathway in the archaeon Methanosarcina barkeri encoded by acquired bacterial genes?
  Journal
J Bacteriol 182:143-5 (2000)
DOI:10.1128/JB.182.1.143-145.2000
Reference
PMID:12644499
  Authors
Mino K, Ishikawa K
  Title
Characterization of a novel thermostable O-acetylserine sulfhydrylase from Aeropyrum pernix K1.
  Journal
J Bacteriol 185:2277-84 (2003)
DOI:10.1128/JB.185.7.2277-2284.2003
Reference
PMID:18520135
  Authors
Tanabe S
  Title
Development of assay methods for endogenous inorganic sulfur compounds and sulfurtransferases and evaluation of the physiological functions of bound sulfur.
  Journal
Yakugaku Zasshi 128:881-900 (2008)
DOI:10.1248/yakushi.128.881
Reference
  Authors
Nishizuka Y, Seyama Y, Ikai A, Ishimura Y, Kawaguchi A (eds).
  Title
[Cellular Functions and Metabolic Maps] (In Japanese)
  Journal
Tokyo Kagaku Dojin (1997)
Reference
PMID:19270684
  Authors
Gutierrez JA, Crowder T, Rinaldo-Matthis A, Ho MC, Almo SC, Schramm VL
  Title
Transition state analogs of 5'-methylthioadenosine nucleosidase disrupt quorum sensing.
  Journal
Nat Chem Biol 5:251-7 (2009)
DOI:10.1038/nchembio.153
Related
pathway
mhar00010  Glycolysis / Gluconeogenesis
mhar00250  Alanine, aspartate and glutamate metabolism
mhar00260  Glycine, serine and threonine metabolism
mhar00290  Valine, leucine and isoleucine biosynthesis
mhar00430  Taurine and hypotaurine metabolism
mhar00480  Glutathione metabolism
mhar00620  Pyruvate metabolism
mhar00640  Propanoate metabolism
mhar00770  Pantothenate and CoA biosynthesis
mhar00900  Terpenoid backbone biosynthesis
mhar00920  Sulfur metabolism
KO pathway
ko00270   
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