L-threonine catabolism in Haloglycomyces albus DSM 45210

Best path

tdcC, ltaE, adh, ackA, pta, gcvP, gcvT, gcvH, lpd

Rules

Overview: L-threonine degradation in GapMind is based on MetaCyc pathway I via 2-ketobutyrate formate-lyase (link), pathway II via glycine (link), pathway III via methylglyoxal (link), and pathway IV via threonine aldolase (link). Pathway V is not thought to occur in prokaryotes and is not included.

• all:
  • threonine-transport, tdcB, tdcE and propionyl-CoA-degradation
  • or threonine-transport, tdh, kbl and glycine-degradation
  • or threonine-transport, tdh, tynA and methylglyoxal-degradation
  • or threonine-transport, ltaE, acetaldehyde-degradation and glycine-degradation
  • Comment: In L-threonine degradation I, threonine dehydratase (tdcB) forms 2-iminbutanoate, which is deaminated to 2-oxobutanoate (either by the same enzyme or by ridA); then formate-lyase (tdcE) converts this to propanoyl-CoA. (MetaCyc also includes conversion to propanoate, which forms ATP, but this does not allow for growth unless the formate can be utilized.) In L-threonine degradation II, a dehydrogenase (tdh) forms L-2-amino-3-oxobutanoate, and a C-acetyltransferase (kbl) cleaves this to acetyl-CoA and glycine. In L-threonine degradation III, tdh forms L-2-amino-3-oxobutanoate, and oxidase tynA forms methylglyoxal. In L-threonine degradation IV, aldolase ltaE cleaves threonine to acetaldehyde and glycine.
• L-lactate-degradation:
  • L-LDH
  • or lldE, lldF and lldG
  • or lutA, lutB and lutC
  • or DVU3033 and DVU3032
  • or lctO and acs
  • or lctO, ackA and pta
  • Comment: Various L-lactate dehydrogenases are known, with different numbers of subunits; these all form pyruvate. Or, after L-lactate oxidase (lctO) forms acetate, the acetate is activated to acetyl-CoA.
• methylglyoxal-degradation:
  • gloA, gloB and D-lactate-dehydrogenase
  • or yvgN, aldA and L-lactate-degradation
  • Comment: In methylglyoxal degradation I (link), gloA condenses methylglyoxal with glutathione to (R)-S-lactoylglutathione, gloB cleaves it to D-lactate (also known as (R)-lactate) and glutathione, and the lactate is oxidized to pyruvate. In methylglyoxal degradation IV (link), yvgN reduces methylglyoxal to (S)-lactaldehyde, aldA oxidizes it to (S)-lactate (also known as L-lactate).
• D-lactate-dehydrogenase:
  • D-LDH
  • or lctB, lctC and lctD
  • or glcD, glcE and glcF
  • Comment: Acetobacterium woodii uses an electron-bifurcating dehydrogenase (lctBCD) for growth on lactate. The Km for D-lactate is far below that for L-lactate (Km of 3.6 mM vs. 112 mM; PMID:24762045), so we consider it to be a D-lactate dehydrogenase. GlcDEF from E. coli (EC 1.1.99.14) is usually described as glycolate dehydrogenase or glycolate oxidase, but it has similar activity on D-lactate (PMID:4557653), and homologs from various Proteobacteria are important for D-lactate utilization. The physiological electron acceptor is not known, so terming GlcDEF an oxidase is questionable.
• glycine-degradation:
  • glycine-reductase and ackA
  • or glycine-reductase and pta
  • or gcvP, gcvT, gcvH and lpd
  • Comment: Glycine can be reduced to acetyl phosphate by glycine reductase (EC 1.21.4.2), and then converted to acetate (by ackA in reverse) or acetyl-CoA (by pta) Or glycine can cleaved to ammonia, CO2, and 5,10-methylene-tetrahydrofolate by the glycine cleavage system, gcvPTH/lpd.
• glycine-reductase: grdA, grdE, grdB, grdD and grdC
• acetaldehyde-degradation:
  • ald-dh-CoA
  • or adh and acs
  • or adh, ackA and pta
  • Comment: Acetaldehyde can be oxidized to acetyl-CoA, or oxidized to acetate and activated to acetyl-CoA by either acetyl-CoA synthetase (acs) or by acetate kinase (ackA) and phosphate acetyltransferase (pta).
• propionyl-CoA-degradation:
  • prpC, prpD, acn and prpB
  • or prpC, acnD, prpF, acn and prpB
  • or propionyl-CoA-carboxylase, epi and methylmalonyl-CoA-mutase
  • or pco, hpcD, dddA and iolA
  • Comment: In 2-methylcitrate cycle I, propionyl-CoA is combined with oxalacetate (by prpC) to give methylcitrate, dehydrated to cis-2-methylaconitate by prpD, hydrated to (2R,3S)-2-methylisocitrate, and a lyase produces pyruvate and succinate. (We consider succinate as a central intermediate, as most organisms can activate it to succinyl-CoA or can oxidize it to fumarate and convert that to oxaloacetate.) In 2-methylcitrate cycle II, a different dehydratase (acnD) and an isomerase (prpF) replace the dehydratase prpD; acnD dehydrates (2S,3S)-2-methylcitrate to 2-methyl-trans-aconitate, and prpF isomerizes it to cis-2-methylaconitate. In propanoyl CoA degradation I, propionyl-CoA carboxylase forms (S)-methylmalonyl-CoA, methylmalonyl-CoA epimerase forms (R)-methylmalonyl-CoA, and methylmalonyl-CoA mutase forms succinyl-CoA, which is a central metabolite. (Note that methylmalonyl-CoA mutase requires adenosylcobamide, a form of vitamin B12, for activity.) In propanoyl-CoA degradation II: propionyl-CoA is oxidized to acrylyl-CoA by pco, hydrated to 3-hydroxypropionyl-CoA, hydrolzed to 3-hydroxypropionate, oxidized to 3-oxopropionate (malonate semialdehyde), and oxidized to acetyl-CoA and CO2.
• methylmalonyl-CoA-mutase:
  • mcmA
  • or mcm-large and mcm-small
  • Comment: methylmalonyl-CoA mutase has a catalytic domain and a B12-binding domain. These are usually found in the same protein, which we call mcmA. In Metallosphaera and Pyrococcus, the B12-binding domain is a separate subunit. In Propionibacterium and Methylorubrum, there is an additional subunit with a catalytic domain only; this may have a protective role (PMID:14734568) and is not described here. There's also a mcm-interacting GTPase (known as MeaB or YgfD) that loads B12 onto mcm and protects it from inactivation (see PMC4631608); this is not described here. Some fused mcm proteins include a MeaB domain as well (i.e., Q8F222, Q8Y2U5).
• propionyl-CoA-carboxylase:
  • pccA and pccB
  • or pccA1, pccA2 and pccB
  • Comment: propionyl-CoA carboxylase is a heteromer, usually with alpha and beta subunits pccAB. Haloferax mediterranei has a third subunit as well (pccX), which is not described here. Acidianus brierleyi has a diverged pccA split into two pieces.
• threonine-transport:
  • braC, braD, braE, braF and braG
  • or tdcC
  • or sstT
  • or serP1
  • or phtA
  • or snatA
  • or RR42_RS28305
  • Comment: Transporters were identified using query: transporter:threonine:L-threonine:thr

70 steps (41 with candidates)

Or see definitions of steps

Step	Description	Best candidate	2nd candidate
tdcC	L-threonine:H+ symporter TdcC
ltaE	L-threonine aldolase	HALAL_RS0116110	HALAL_RS0106410
adh	acetaldehyde dehydrogenase (not acylating)	HALAL_RS0102625	HALAL_RS0112015
ackA	acetate kinase	HALAL_RS0112980
pta	phosphate acetyltransferase	HALAL_RS0112975
gcvP	glycine cleavage system, P component (glycine decarboxylase)	HALAL_RS0114415
gcvT	glycine cleavage system, T component (tetrahydrofolate aminomethyltransferase)	HALAL_RS0116045
gcvH	glycine cleavage system, H component (lipoyl protein)	HALAL_RS0114435
lpd	dihydrolipoyl dehydrogenase	HALAL_RS0116055	HALAL_RS0104410
Alternative steps:
acn	(2R,3S)-2-methylcitrate dehydratase	HALAL_RS0112315
acnD	2-methylcitrate dehydratase (2-methyl-trans-aconitate forming)	HALAL_RS0112315
acs	acetyl-CoA synthetase, AMP-forming	HALAL_RS0103810	HALAL_RS0114190
ald-dh-CoA	acetaldehyde dehydrogenase, acylating
aldA	lactaldehyde dehydrogenase	HALAL_RS0112015	HALAL_RS0110770
braC	L-alanine/L-serine/L-threonine ABC transporter, substrate binding protein (BraC/NatB)
braD	L-alanine/L-serine/L-threonine ABC transporter, permease component 1 (BraD/NatD)	HALAL_RS0101160
braE	L-alanine/L-serine/L-threonine ABC transporter, permease component 2 (BraE/NatC)
braF	L-alanine/L-serine/L-threonine ABC transporter, ATP-binding component 1 (BraF/NatA)	HALAL_RS0101165	HALAL_RS0101170
braG	L-alanine/L-serine/L-threonine ABC transporter, ATP-binding component 2 (BraG/NatE)	HALAL_RS0101170	HALAL_RS0101415
D-LDH	D-lactate dehydrogenase	HALAL_RS0110800	HALAL_RS0107050
dddA	3-hydroxypropionate dehydrogenase	HALAL_RS0112010
DVU3032	L-lactate dehydrogenase, LutC-like component
DVU3033	L-lactate dehydrogenase, fused LutA/LutB components
epi	methylmalonyl-CoA epimerase	HALAL_RS0108850
glcD	D-lactate dehydrogenase, FAD-linked subunit 1 (GlcD)	HALAL_RS0107050	HALAL_RS0110800
glcE	D-lactate dehydrogenase, FAD-linked subunit 2 (GlcE)	HALAL_RS0110800
glcF	D-lactate dehydrogenase, FeS subunit GlcF
gloA	glyoxylase I
gloB	hydroxyacylglutathione hydrolase (glyoxalase II)	HALAL_RS0112630	HALAL_RS0103535
grdA	glycine reductase component A1
grdB	glycine reductase component B, gamma subunit
grdC	glycine reductase component C, beta subunit
grdD	glycine reductase component C, alpha subunit
grdE	glycine reductase component B, precursor to alpha/beta subunits
hpcD	3-hydroxypropionyl-CoA dehydratase	HALAL_RS0110635
iolA	malonate semialdehyde dehydrogenase (CoA-acylating)	HALAL_RS0112015	HALAL_RS0110770
kbl	glycine C-acetyltransferase (2-amino-3-ketobutyrate CoA-ligase)	HALAL_RS0113640
L-LDH	L-lactate dehydrogenase	HALAL_RS0104295	HALAL_RS0103385
lctB	electron-transfer flavoprotein for D-lactate dehydrogenase (NAD+, ferredoxin), small subunit
lctC	electron-transfer flavoprotein for D-lactate dehydrogenase (NAD+, ferredoxin), large subunit	HALAL_RS0116135
lctD	D-lactate dehydrogenase (NAD+, ferredoxin), lactate dehydrogenase component	HALAL_RS0110800	HALAL_RS0107050
lctO	L-lactate oxidase or 2-monooxygenase	HALAL_RS0103385
lldE	L-lactate dehydrogenase, LldE subunit
lldF	L-lactate dehydrogenase, LldF subunit
lldG	L-lactate dehydrogenase, LldG subunit
lutA	L-lactate dehydrogenase, LutA subunit
lutB	L-lactate dehydrogenase, LutB subunit
lutC	L-lactate dehydrogenase, LutC subunit
mcm-large	methylmalonyl-CoA mutase, large (catalytic) subunit	HALAL_RS0107060	HALAL_RS0110315
mcm-small	methylmalonyl-CoA mutase, small (adenosylcobamide-binding) subunit	HALAL_RS0107805
mcmA	methylmalonyl-CoA mutase, fused catalytic and adenosylcobamide-binding components	HALAL_RS0107060	HALAL_RS0110315
pccA	propionyl-CoA carboxylase, alpha subunit	HALAL_RS0104645
pccA1	propionyl-CoA carboxylase, biotin carboxyl carrier subunit	HALAL_RS0104645
pccA2	propionyl-CoA carboxylase, biotin carboxylase subunit	HALAL_RS0104645
pccB	propionyl-CoA carboxylase, beta subunit	HALAL_RS0100970	HALAL_RS0107640
pco	propanyl-CoA oxidase	HALAL_RS0104340
phtA	L-threonine uptake permease PhtA
prpB	2-methylisocitrate lyase	HALAL_RS0106175	HALAL_RS0115505
prpC	2-methylcitrate synthase	HALAL_RS0106465
prpD	2-methylcitrate dehydratase
prpF	methylaconitate isomerase
RR42_RS28305	L-threonine:H+ symporter
serP1	L-threonine uptake transporter SerP1
snatA	L-threonine transporter snatA
sstT	L-threonine:Na+ symporter SstT
tdcB	L-threonine dehydratase	HALAL_RS0108905
tdcE	2-ketobutyrate formate-lyase
tdh	L-threonine 3-dehydrogenase	HALAL_RS0106325
tynA	aminoacetone oxidase
yvgN	methylglyoxal reductase (NADPH-dependent)	HALAL_RS0112500

Confidence: high confidence medium confidence low confidence
transporter – transporters and PTS systems are shaded because predicting their specificity is particularly challenging.

This GapMind analysis is from Apr 09 2024. The underlying query database was built on Sep 17 2021.