KEGG   PATHWAY: dat00680
Entry
dat00680                    Pathway                                
Name
Methane metabolism - Desulforapulum autotrophicum
Description
Methane is metabolized principally by methanotrophs and methanogens in the global carbon cycle. Methanotrophs consume methane as the only source of carbon, while methanogens produce methane as a metabolic byproduct. Methylotrophs, which are microorganisms that can obtain energy for growth by oxidizing one-carbon compounds, such as methanol and methane, are situated between methanotrophs and methanogens. Methanogens can obtain energy for growth by converting a limited number of substrates to methane under anaerobic conditions. Three types of methanogenic pathways are known: CO2 to methane [MD:M00567], methanol to methane [MD:M00356], and acetate to methane [MD:M00357]. Methanogens use 2-mercaptoethanesulfonate (CoM; coenzyme M) as the terminal methyl carrier in methanogenesis and have four enzymes for CoM biosynthesis [MD:M00358]. Coenzyme B-Coenzyme M heterodisulfide reductase (Hdr), requiring for the final reaction steps of methanogenic pathway, is divided into two types: cytoplasmic HdrABC in most methanogens and membrane-bound HdrED in Methanosarcina species. In methanotrophs and methyltrophs methane is oxidized to form formaldehyde, which is at the diverging point for further oxidation to CO2 for energy source and assimilation for biosynthesis. There are three pathways that convert formaldehyde to C2 or C3 compounds: serine pathway [MD:M00346], ribulose monophosphate pathway [MD:M00345], and xylulose monophosphate pathway [MD:M00344]. The first two pathways are found in prokaryotes and the third is found in yeast. As a special case of methylotrophs, various amines can be used as carbon sources in trimethylamine metabolism [MD:M00563].
Class
Metabolism; Energy metabolism
Pathway map
dat00680  Methane metabolism
dat00680

Module
dat_M00020  Serine biosynthesis, glycerate-3P => serine [PATH:dat00680]
Other DBs
GO: 0015947
Organism
Desulforapulum autotrophicum [GN:dat]
Gene
HRM2_03430  fdhA2; FdhA2 [KO:K00123] [EC:1.17.1.9]
HRM2_16870  fdhA5; FdhA5 [KO:K00123] [EC:1.17.1.9]
HRM2_40980  fdhA7; FdhA7 [KO:K00123] [EC:1.17.1.9]
HRM2_47140  fdhA8; FdhA8 [KO:K00123] [EC:1.17.1.9]
HRM2_40970  fdhB7; FdhB7 [KO:K00124]
HRM2_03440  fdhB2; FdhB2 [KO:K00124]
HRM2_47150  fdhB8; FdhB8 [KO:K00124]
HRM2_11880  fdhA3; FdhA3 [KO:K22516] [EC:1.17.98.3 1.8.98.6]
HRM2_14370  fdhA4; FdhA4 [KO:K22516] [EC:1.17.98.3 1.8.98.6]
HRM2_22740  fdhB6; FdhB6 [KO:K00125] [EC:1.17.98.3 1.8.98.6]
HRM2_22080  fdhB5; FdhB5 [KO:K00125] [EC:1.17.98.3 1.8.98.6]
HRM2_16890  fdhA6; FdhA6 [KO:K05299] [EC:1.17.1.10]
HRM2_26590  gltD1; GltD1 [KO:K15022] [EC:1.17.1.10]
HRM2_32120  putative NADPH-dependent glutamate synthase [KO:K15022] [EC:1.17.1.10]
HRM2_01590  hydA1; HydA1 [KO:K25123] [EC:1.12.7.-]
HRM2_01600  fdhB1; FdhB1 [KO:K25124]
HRM2_01580  fdx3; Fdx3 [KO:K25124]
HRM2_16650  cdhE; CdhE [KO:K00197] [EC:2.1.1.245]
HRM2_16690  cdhD; CdhD [KO:K00194] [EC:2.1.1.245]
HRM2_41010  cdh1; Cdh1 [KO:K00198] [EC:1.2.7.4]
HRM2_16670  cdhA; CdhA [KO:K00198] [EC:1.2.7.4]
HRM2_43440  cdh2; Cdh2 [KO:K00198] [EC:1.2.7.4]
HRM2_43430  4Fe-4S iron-sulfur binding protein (ferredoxin) [KO:K00196]
HRM2_33760  iron sulfur cluster binding protein (4Fe-4S ferredoxin family protein) [KO:K00196]
HRM2_31300  glyA; GlyA [KO:K00600] [EC:2.1.2.1]
HRM2_08190  aminotransferase, class V (putative purine catabolism protein PucG) [KO:K00830] [EC:2.6.1.44 2.6.1.45 2.6.1.51]
HRM2_40640  ttuD; TtuD [KO:K11529] [EC:2.7.1.165]
HRM2_26850  eno; Eno [KO:K01689] [EC:4.2.1.11]
HRM2_17490  ppc; Ppc [KO:K01595] [EC:4.1.1.31]
HRM2_07620  fba1; Fba1 [KO:K01623] [EC:4.1.2.13]
HRM2_08640  fba2; Fba2 [KO:K01624] [EC:4.1.2.13]
HRM2_35690  putative ketose-bisphosphate aldolase family protein [KO:K01624] [EC:4.1.2.13]
HRM2_21890  glpX; GlpX [KO:K02446] [EC:3.1.3.11]
HRM2_08610  fbp1; Fbp1 [KO:K04041] [EC:3.1.3.11]
HRM2_22130  ABC-type branched-chain amino acid transporter, periplasmic substrate-binding protein [KO:K00850] [EC:2.7.1.11]
HRM2_08650  pfkB1; PfkB1 [KO:K16370] [EC:2.7.1.11]
HRM2_38050  pfkA2; PfkA2 [KO:K21071] [EC:2.7.1.11 2.7.1.90]
HRM2_46130  putative formylmethanofuran dehydrogenase, subunit E [KO:K11261] [EC:1.2.7.12]
HRM2_03480  formylmethanofuran dehydrogenase/molybdopterin biosynthesis fusion protein [KO:K11261] [EC:1.2.7.12]
HRM2_33500  putative coenzyme F420 hydrogenase, beta subunit (8-hydroxy-5-deazaflavin-reducing hydrogenase, beta subunit) (FRH) [KO:K00441] [EC:1.12.98.1]
HRM2_13650  coenzyme F420-reducing hydrogenase [KO:K00441] [EC:1.12.98.1]
HRM2_11700  hyaD2; HyaD2 [KO:K00442]
HRM2_11850  hdrA2; HdrA2 [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_22750  hdrA4; HdrA4 [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_11710  hdrA1; HdrA1 [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_22720  hdrL2; HdrL2 [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_14340  hdrA3'; HdrA3' [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_30890  hdrL3; HdrL3 [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_30780  putative fusion protein, heterodisulfide reductase (HdrA) / ferredoxin (iron-sulfur-binding protein) [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_22100  hdrL1; HdrL1 [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_14330  hdrA3; HdrA3 [KO:K03388] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_22770  hdrD2'; HdrD2' [KO:K03389] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_22760  hdrD2; HdrD2 [KO:K03390] [EC:1.8.7.3 1.8.98.4 1.8.98.5 1.8.98.6]
HRM2_11720  mvhD2; MvhD2 [KO:K14127] [EC:1.12.99.- 1.8.98.5 1.8.98.6]
HRM2_11860  mvhD3; MvhD3 [KO:K14127] [EC:1.12.99.- 1.8.98.5 1.8.98.6]
HRM2_30880  mvhD7; MvhD7 [KO:K14127] [EC:1.12.99.- 1.8.98.5 1.8.98.6]
HRM2_14350  mvhD4; MvhD4 [KO:K14127] [EC:1.12.99.- 1.8.98.5 1.8.98.6]
HRM2_22090  mvhD5; MvhD5 [KO:K14127] [EC:1.12.99.- 1.8.98.5 1.8.98.6]
HRM2_22730  mvhD6; MvhD6 [KO:K14127] [EC:1.12.99.- 1.8.98.5 1.8.98.6]
HRM2_11740  mvhA; MvhA [KO:K14126] [EC:1.12.99.- 1.8.98.5]
HRM2_11730  mvhG; MvhG [KO:K14128] [EC:1.12.99.- 1.8.98.5]
HRM2_47210  acsM4; AcsM4 [KO:K01895] [EC:6.2.1.1]
HRM2_28720  acsA1; AcsA1 [KO:K01895] [EC:6.2.1.1]
HRM2_11950  acsM2; AcsM2 [KO:K01895] [EC:6.2.1.1]
HRM2_38170  ppsA7; PpsA7 [KO:K01007] [EC:2.7.9.2]
HRM2_46050  ppsA9; PpsA9 [KO:K01007] [EC:2.7.9.2]
HRM2_22950  ppsA5; PpsA5 [KO:K01007] [EC:2.7.9.2]
HRM2_16260  ppsA4; PpsA4 [KO:K01007] [EC:2.7.9.2]
HRM2_07180  ppsA3; PpsA3 [KO:K01007] [EC:2.7.9.2]
HRM2_15490  gpmA1; GpmA1 [KO:K01834] [EC:5.4.2.11]
HRM2_31770  gpmA2; GpmA2 [KO:K15633] [EC:5.4.2.12]
HRM2_35500  serA1; SerA1 [KO:K00058] [EC:1.1.1.95 1.1.1.399]
HRM2_35490  serC; SerC [KO:K00831] [EC:2.6.1.52]
HRM2_42260  serB; SerB [KO:K01079] [EC:3.1.3.3]
HRM2_13550  phosphoserine phosphatase [KO:K02203] [EC:3.1.3.3 2.7.1.39]
HRM2_44130  mttB8; MttB8 [KO:K14083] [EC:2.1.1.250]
HRM2_44190  mttB9; MttB9 [KO:K14083] [EC:2.1.1.250]
HRM2_44210  mttB10; MttB10 [KO:K14083] [EC:2.1.1.250]
HRM2_45990  mttB711; MttB711 [KO:K14083] [EC:2.1.1.250]
HRM2_15910  mttB5; MttB5 [KO:K14083] [EC:2.1.1.250]
HRM2_15930  mttB6; MttB6 [KO:K14083] [EC:2.1.1.250]
HRM2_01250  mttB2; MttB2 [KO:K14083] [EC:2.1.1.250]
HRM2_00490  mttB1; MttB1 [KO:K14083] [EC:2.1.1.250]
HRM2_09120  mttB4; MttB4 [KO:K14083] [EC:2.1.1.250]
HRM2_44090  mttB7; MttB7 [KO:K14083] [EC:2.1.1.250]
HRM2_07480  mttB3; MttB3 [KO:K14083] [EC:2.1.1.250]
HRM2_07350  mtbC1; MtbC1 [KO:K16179]
HRM2_34310  mtbC2; MtbC2 [KO:K16179]
HRM2_14200  putative B12-dependent methionine synthase family protein [KO:K16179]
HRM2_10800  aspC2; AspC2 [KO:K19793] [EC:2.6.1.108]
Compound
C00011  CO2
C00022  Pyruvate
C00024  Acetyl-CoA
C00033  Acetate
C00036  Oxaloacetate
C00037  Glycine
C00048  Glyoxylate
C00058  Formate
C00065  L-Serine
C00067  Formaldehyde
C00074  Phosphoenolpyruvate
C00082  L-Tyrosine
C00085  D-Fructose 6-phosphate
C00101  Tetrahydrofolate
C00111  Glycerone phosphate
C00118  D-Glyceraldehyde 3-phosphate
C00132  Methanol
C00143  5,10-Methylenetetrahydrofolate
C00149  (S)-Malate
C00168  Hydroxypyruvate
C00184  Glycerone
C00197  3-Phospho-D-glycerate
C00199  D-Ribulose 5-phosphate
C00218  Methylamine
C00227  Acetyl phosphate
C00231  D-Xylulose 5-phosphate
C00237  CO
C00258  D-Glycerate
C00322  2-Oxoadipate
C00354  D-Fructose 1,6-bisphosphate
C00483  Tyramine
C00543  Dimethylamine
C00565  Trimethylamine
C00593  Sulfoacetaldehyde
C00631  2-Phospho-D-glycerate
C00862  Methanofuran
C00876  Coenzyme F420
C01001  Formylmethanofuran
C01005  O-Phospho-L-serine
C01031  S-Formylglutathione
C01046  N-Methyl-L-glutamate
C01080  Reduced coenzyme F420
C01104  Trimethylamine N-oxide
C01217  5,6,7,8-Tetrahydromethanopterin
C01274  5-Formyl-5,6,7,8-tetrahydromethanopterin
C01438  Methane
C03232  3-Phosphonooxypyruvate
C03576  Coenzyme M
C03920  2-(Methylthio)ethanesulfonate
C04330  5,10-Methenyltetrahydromethanopterin
C04348  L-Malyl-CoA
C04377  5,10-Methylenetetrahydromethanopterin
C04488  5-Methyl-5,6,7,8-tetrahydromethanopterin
C04628  Coenzyme B
C04732  5-Amino-6-(1-D-ribitylamino)uracil
C04832  Coenzyme M 7-mercaptoheptanoylthreonine-phosphate heterodisulfide
C05528  3-Sulfopyruvate
C06019  D-arabino-Hex-3-ulose 6-phosphate
C11536  (2R)-O-Phospho-3-sulfolactate
C11537  (2R)-3-Sulfolactate
C14180  S-(Hydroxymethyl)glutathione
C16583  (R)-(Homo)2-citrate
C16588  2-Oxopimelate
C16589  2-Oxosuberate
C16590  7-Oxoheptanoic acid
C16593  7-Mercaptoheptanoic acid
C16594  7-Mercaptoheptanoylthreonine
C16597  (-)-threo-Iso(homo)2-citrate
C16598  (R)-(Homo)3-citrate
C16600  (-)-threo-Iso(homo)3-citrate
C18799  5-Methyl-H4SPT
C18802  Tetrahydrosarcinapterin
C19151  Coenzyme F420-3
C19152  Coenzyme F420-1
C19153  Coenzyme F420-0
C19154  7,8-Didemethyl-8-hydroxy-5-deazariboflavin
C19155  (2S)-Lactyl-2-diphospho-5'-guanosine
C19156  (2S)-2-Phospholactate
C20581  cis-(Homo)2-aconitate
C20582  cis-(Homo)3-aconitate
C20926  gamma-Glutamyltyramine
C20954  (5-Formylfuran-3-yl)methyl phosphate
C21068  [5-(Aminomethyl)furan-3-yl]methyl phosphate
C21069  [5-(Aminomethyl)furan-3-yl]methyl diphosphate
C21070  (4-{4-[2-(gamma-L-Glutamylamino)ethyl]phenoxymethyl}furan-2-yl)methanamine
C21971  5-Amino-5-(4-hydroxybenzyl)-6-(D-ribitylimino)-5,6-dihydrouracil
C22277  Dehydro coenzyme F420-0
C22297  Enolpyruvoyl-2-diphospho-5'-guanosine
Reference
PMID:11830598
  Authors
Graham DE, Xu H, White RH
  Title
Identification of coenzyme M biosynthetic phosphosulfolactate synthase: a new family of sulfonate-biosynthesizing enzymes.
  Journal
J Biol Chem 277:13421-9 (2002)
DOI:10.1074/jbc.M201011200
Reference
PMID:15168610
  Authors
Deppenmeier U
  Title
The membrane-bound electron transport system of Methanosarcina species.
  Journal
J Bioenerg Biomembr 36:55-64 (2004)
DOI:10.1023/B:JOBB.0000019598.64642.97
Reference
PMID:15353801
  Authors
Hallam SJ, Putnam N, Preston CM, Detter JC, Rokhsar D, Richardson PM, DeLong EF
  Title
Reverse methanogenesis: testing the hypothesis with environmental genomics.
  Journal
Science 305:1457-62 (2004)
DOI:10.1126/science.1100025
Reference
PMID:16024727
  Authors
Welander PV, Metcalf WW
  Title
Loss of the mtr operon in Methanosarcina blocks growth on methanol, but not methanogenesis, and reveals an unknown methanogenic pathway.
  Journal
Proc Natl Acad Sci U S A 102:10664-9 (2005)
DOI:10.1073/pnas.0502623102
Reference
PMID:16278835
  Authors
Yurimoto H, Kato N, Sakai Y
  Title
Assimilation, dissimilation, and detoxification of formaldehyde, a central metabolic intermediate of methylotrophic metabolism.
  Journal
Chem Rec 5:367-75 (2005)
DOI:10.1002/tcr.20056
Reference
PMID:16385054
  Authors
Fricke WF, Seedorf H, Henne A, Kruer M, Liesegang H, Hedderich R, Gottschalk G, Thauer RK.
  Title
The genome sequence of Methanosphaera stadtmanae reveals why this human intestinal archaeon is restricted to methanol and H2 for methane formation and ATP synthesis.
  Journal
J Bacteriol 188:642-58 (2006)
DOI:10.1128/JB.188.2.642-658.2006
Reference
PMID:16428816
  Authors
Kato N, Yurimoto H, Thauer RK
  Title
The physiological role of the ribulose monophosphate pathway in bacteria and archaea.
  Journal
Biosci Biotechnol Biochem 70:10-21 (2006)
DOI:10.1271/bbb.70.10
Reference
PMID:18587410
  Authors
Thauer RK, Kaster AK, Seedorf H, Buckel W, Hedderich R
  Title
Methanogenic archaea: ecologically relevant differences in energy conservation.
  Journal
Nat Rev Microbiol 6:579-91 (2008)
DOI:10.1038/nrmicro1931
Reference
PMID:20437165
  Authors
Liffourrena AS, Salvano MA, Lucchesi GI
  Title
Pseudomonas putida A ATCC 12633 oxidizes trimethylamine aerobically via two different pathways.
  Journal
Arch Microbiol 192:471-6 (2010)
DOI:10.1007/s00203-010-0577-5
Related
pathway
dat00010  Glycolysis / Gluconeogenesis
dat00030  Pentose phosphate pathway
dat00260  Glycine, serine and threonine metabolism
dat00300  Lysine biosynthesis
dat00630  Glyoxylate and dicarboxylate metabolism
dat00740  Riboflavin metabolism
dat00790  Folate biosynthesis
dat00910  Nitrogen metabolism
dat00920  Sulfur metabolism
KO pathway
ko00680   

  All links  
Genome (1)   
   KEGG GENOME (1)   
Gene (90)   
   KEGG GENES (90)   
All databases (91)   

Download RDF
DBGET integrated database retrieval system