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- Name help_outline (R)-2-hydroxyglutaryl-CoA Identifier CHEBI:132946 Charge -5 Formula C26H37N7O20P3S InChIKeyhelp_outline ITRSBJZNLOYNNR-WZZMXTMRSA-I SMILEShelp_outline [C@@H]1(N2C=3C(=C(N=CN3)N)N=C2)O[C@H](COP(OP(OCC([C@H](C(NCCC(NCCSC(=O)[C@@H](CCC(=O)[O-])O)=O)=O)O)(C)C)(=O)[O-])(=O)[O-])[C@H]([C@H]1O)OP([O-])([O-])=O 2D coordinates Mol file for the small molecule Search links Involved in 1 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline (2E)-glutaconyl-CoA Identifier CHEBI:57353 Charge -5 Formula C26H35N7O19P3S InChIKeyhelp_outline URTLOTISFJPPOU-DEGQQWIJSA-I SMILEShelp_outline CC(C)(COP([O-])(=O)OP([O-])(=O)OC[C@H]1O[C@H]([C@H](O)[C@@H]1OP([O-])([O-])=O)n1cnc2c(N)ncnc12)[C@@H](O)C(=O)NCCC(=O)NCCSC(=O)\C=C\CC([O-])=O 2D coordinates Mol file for the small molecule Search links Involved in 7 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline H2O Identifier CHEBI:15377 (CAS: 7732-18-5) help_outline Charge 0 Formula H2O InChIKeyhelp_outline XLYOFNOQVPJJNP-UHFFFAOYSA-N SMILEShelp_outline [H]O[H] 2D coordinates Mol file for the small molecule Search links Involved in 6,264 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
Cross-references
RHEA:42448 | RHEA:42449 | RHEA:42450 | RHEA:42451 | |
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Reaction direction help_outline | undefined | left-to-right | right-to-left | bidirectional |
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Publications
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The reversible dehydration of (R)-2-hydroxyglutarate to (E)-glutaconate.
Buckel W.
1. During fermentation with whole cells of Acidaminococcus fermentans or Clostridium microsporum the pro-3S hydrogen of (R)-2-hydroxyglutarate or of its precursor (S)-glutamate is eliminated stereospecifically. Since (E)-glutaconate but not its Z isomer is fermented by whole cells or cell-free ext ... >> More
1. During fermentation with whole cells of Acidaminococcus fermentans or Clostridium microsporum the pro-3S hydrogen of (R)-2-hydroxyglutarate or of its precursor (S)-glutamate is eliminated stereospecifically. Since (E)-glutaconate but not its Z isomer is fermented by whole cells or cell-free extracts of A. fermentans, the overall dehydration of (R)-2-hydroxyglutarate to (E)-glutaconate can be described as syn. 2. The fermentation of (E)-glutaconate required acetyl phophate, CoA and NAD, that of (S)-glutamate or (R)-2-hydroxyglutarate additionally MgCl2, FeSO4 and dithioerythritol. The fermentations of all three substrates were inhibited by avidin and stimulated by biotin. 3. The hydration of (E)-glutaconate was measured enzymically by the formation of (R)-2-hydroxyglutarate. The dehydration of the hydroxy acid was assayed by the release of 3HOH from (2R)-2-hydroxy[3-3H]glutarate. Optimum conditions were found by activation of the cell-free extract with MgCl2, FeSO4, dithioerythritol, acetyl phosphate anmd NADH followed by the reaction which only required acetyl phosphate and CoA as cofactors. Activation and reaction had to be performed anaerobically. 4. The dehydration was inhibited by 2 mM azide, 1 mM arsenate, 1 mM hydroxylamine, 20 micro M dinitrophenol or 10 micro M carbonylcyanide p-trifluoromethoxyphenylhydrazone. 5. It is concluded that the actual substrates of the dehydration are the corresponding thiol esters. The data indicate a catalytical phosphorylation during the reaction. << Less
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Crystal structure of the Acidaminococcus fermentans 2-hydroxyglutaryl-CoA dehydratase component A.
Locher K.P., Hans M., Yeh A.P., Schmid B., Buckel W., Rees D.C.
Acidaminococcus fermentans degrades glutamate via the hydroxyglutarate pathway, which involves the syn-elimination of water from (R)-2-hydroxyglutaryl-CoA in a key reaction of the pathway. This anaerobic process is catalyzed by 2-hydroxyglutaryl-CoA dehydratase, an enzyme with two components (A an ... >> More
Acidaminococcus fermentans degrades glutamate via the hydroxyglutarate pathway, which involves the syn-elimination of water from (R)-2-hydroxyglutaryl-CoA in a key reaction of the pathway. This anaerobic process is catalyzed by 2-hydroxyglutaryl-CoA dehydratase, an enzyme with two components (A and D) that reversibly associate during reaction cycles. Component A (CompA), a homodimeric protein of 2x27 kDa, contains a single, bridging [4Fe-4S] cluster and uses the hydrolysis of ATP to deliver an electron to the dehydratase component (CompD), where the electron is used catalytically. The structure of the extremely oxygen-sensitive CompA protein was solved by X-ray crystallography to 3 A resolution. The protein was found to be a member of the actin fold family, revealing a similar architecture and nucleotide-binding site. The key differences between CompA and other members of the actin fold family are: (i) the presence of a cluster binding segment, the "cluster helix"; (ii) the [4Fe-4S] cluster; and (iii) the location of the homodimer interface, which involves the bridging cluster. Possible reaction mechanisms are discussed in light of the close structural similarity to members of the actin-fold family and the functional similarity to the nitrogenase Fe- protein. << Less
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Purification of 2-hydroxyglutaryl-CoA dehydratase from Acidaminococcus fermentans. An iron-sulfur protein.
Schweiger G., Dutscho R., Buckel W.
1. The (R)-2-hydroxyglutaryl-CoA dehydratase system from Acidaminococcus fermentans was separated by chromatography of cell-free extracts on Q-Sepharose into two components, an activator and the actual dehydratase. The latter enzyme was further purified to homogeneity by chromatography on blue-Sep ... >> More
1. The (R)-2-hydroxyglutaryl-CoA dehydratase system from Acidaminococcus fermentans was separated by chromatography of cell-free extracts on Q-Sepharose into two components, an activator and the actual dehydratase. The latter enzyme was further purified to homogeneity by chromatography on blue-Sepharose. It is an iron-sulfur protein (Mr 210,000) consisting of two different polypeptides (alpha, Mr 55,000, and beta, Mr 42,000) in an alpha 2 beta 2 structure with probably two [4Fe-4S] centers. After activation this purified enzyme catalysed the dehydration of (R)-2-hydroxyglutarate only in the presence of acetyl-CoA and glutaconate CoA-transferase, demonstrating that the thiol ester and not the free acid is the substrate of the dehydration. The result led to a modification of the hydroxyglutarate pathway of glutamate fermentation. 2. The activation of the dehydratase by the flow-through from Q-Sepharose concentrated by ultrafiltration required NADH, MgCl2, ATP and strict anaerobic conditions. This fraction was designated as Ao. Later when the concentration was performed by chromatography on phenyl-Sepharose, an NADH-independent form of the activator, designated as A*, was obtained. This enzyme, which required only ATP for activation of the dehydratase, was purified further by affinity chromatography on ATP-agarose. It contains neither iron nor inorganic sulfur. A*, as well as the activated dehydratase, were irreversibly inactivated by exposure to air within less than 15 min. The activated dehydratase but not A* was also inactivated by 1 mM hydroxylamine or by 0.1 mM 2,4-dinitrophenol. 3. The (R)-2-hydroxyglutaryl-CoA dehydratase system is closely related the that of (R)-lactoyl-CoA dehydratase from Clostridium propionicum as described by R. D. Kuchta and R. H. Abeles [(1985) J. Biol. Chem. 260, 13,181-13,189]. << Less
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Activation of (R)-2-hydroxyglutaryl-CoA dehydratase from Acidaminococcus fermentans.
Mueller U., Buckel W.
(R)-2-Hydroxyglutaryl-CoA dehydratase (HgdAB) from Acidaminococcus fermentans catalyses the reversible dehydration of its substrate to glutaconyl-CoA. The enzyme has to be activated by ATP, MgCl2, and Ti(III)citrate by an activator protein (HgdC) that is present in the organism at very low concent ... >> More
(R)-2-Hydroxyglutaryl-CoA dehydratase (HgdAB) from Acidaminococcus fermentans catalyses the reversible dehydration of its substrate to glutaconyl-CoA. The enzyme has to be activated by ATP, MgCl2, and Ti(III)citrate by an activator protein (HgdC) that is present in the organism at very low concentrations. Cell-free extracts of a recombinant Escherichia coli strain, in which hgdC was expressed, contained the activator with a specific activity of up to 45 U'/mg protein (1 U' is the amount of activator required to generate 1 U dehydratase activity under standard assay conditions). The recombinant protein was purified 44-fold to a specific activity of 2000 U'/mg. It is a homodimer (gamma 2, 54 kDa) and contains 4 mol non-heme iron and 3 mol inorganic sulfur. Under air, the activator has a half-life of seconds and even under strict anaerobic conditions it is very unstable. The amino acid sequence of the activator shows similarities to the ATP-binding motifs of several kinases. The dehydratase component was purified from its natural source revealing a heterodimer (alpha beta, 100 kDa) that contains 4 mol non-heme iron, 4 mol inorganic sulfur, 0.3 mol riboflavin, and 1 mol FMN. A mechanism is proposed in which an iron-sulfur cluster or a flavin donates one electron to the thiolester of the substrate (R)-2-hydroxyglutaryl-CoA. The resulting ketyl may eliminate the adjacent hydroxyl group yielding an enoxy radical from which the beta-hydrogen is abstracted as a proton leading to the ketyl of glutaconyl-CoA. In the final step, the latter is oxidized to the product, whereby the reduced enzyme is regenerated. It is suggested that during the activation step, the electron of this cycle is fed into the enzyme by Ti(III)citrate and energized by hydrolysis of ATP; both functions are apparently catalysed by the activator. The enzyme remains in this activated state for several turnovers, which may explain the requirement of only catalytic amounts of ATP and substoichiometric amounts of activator (dehydratase/activator ratio approximately 200:1). The oxidants 4-nitrobenzoate, 2-nitrophenol, 3-nitrophenol, 4-nitrophenol, carbonyl cyanide 4-(trifluoromethoxy)phenylhydrazone or chloramphenicol (all at concentrations greater than or equal to 1 microM) may trap this electron resulting in a reversible, transient inactivation of the dehydratase. << Less
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2-hydroxyglutaryl-CoA dehydratase from Clostridium symbiosum.
Hans M., Sievers J., Muller U., Bill E., Vorholt J.A., Linder D., Buckel W.
Component D (HgdAB) of 2-hydroxyglutaryl-CoA dehydratase from Clostridium symbiosum was purified to homogeneity. It is able to use component A from Acidaminococcus fermentans (HgdC) to initiate catalysis together with ATP, Mg2+ and a strong reducing agent such as Ti(III)citrate. Component D from C ... >> More
Component D (HgdAB) of 2-hydroxyglutaryl-CoA dehydratase from Clostridium symbiosum was purified to homogeneity. It is able to use component A from Acidaminococcus fermentans (HgdC) to initiate catalysis together with ATP, Mg2+ and a strong reducing agent such as Ti(III)citrate. Component D from C. symbiosum has a 6 x higher specific activity compared with that from A. fermentans and contains a second [4Fe-4S] cluster but the same amount of riboflavin 5'-phosphate (1.0 per heterodimeric enzyme, m = 100 kDa). Mössbauer spectroscopy revealed symmetric cube-type structures of the two [4Fe-4S]2+ clusters. EPR spectroscopy showed the resistance of the clusters to reducing agents, but detected a sharp signal at g = 2. 004 probably due to a stabilized flavin semiquinone. Three genes from C. symbiosum coding for components D (hgdA and hgdB) and A (hgdC) were cloned and sequenced. Primer extension experiments indicated that the genes are transcribed in the order hgdCAB from an operon only half the size of that from A. fermentans. Sequence comparisons detected a close relationship to the dehydratase system from A. fermentans and HgdA from Fusobacterium nucleatum, as well as to putative proteins of unknown function from Archaeoglobus fulgidus. Lower, but significant, identities were found with putative enzymes from several methanogenic Archaea and Escherichia coli, as well as with the mechanistically related benzoyl-CoA reductases from the Proteobacteria Rhodopseudomonas palustris and Thauera aromatica. << Less
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Substrate specificity of 2-hydroxyglutaryl-CoA dehydratase from Clostridium symbiosum: toward a bio-based production of adipic acid.
Parthasarathy A., Pierik A.J., Kahnt J., Zelder O., Buckel W.
Expression of six genes from two glutamate fermenting clostridia converted Escherichia coli into a producer of glutaconate from 2-oxoglutarate of the general metabolism (Djurdjevic, I. et al. 2010, Appl. Environ. Microbiol.77, 320-322). The present work examines whether this pathway can also be us ... >> More
Expression of six genes from two glutamate fermenting clostridia converted Escherichia coli into a producer of glutaconate from 2-oxoglutarate of the general metabolism (Djurdjevic, I. et al. 2010, Appl. Environ. Microbiol.77, 320-322). The present work examines whether this pathway can also be used to reduce 2-oxoadipate to (R)-2-hydroxyadipic acid and dehydrate its CoA thioester to 2-hexenedioic acid, an unsaturated precursor of the biotechnologically valuable adipic acid (hexanedioic acid). 2-Hydroxyglutaryl-CoA dehydratase from Clostridium symbiosum, the key enzyme of this pathway and a potential radical enzyme, catalyzes the reversible dehydration of (R)-2-hydroxyglutaryl-CoA to (E)-glutaconyl-CoA. Using a spectrophotometric assay and mass spectrometry, it was found that (R)-2-hydroxyadipoyl-CoA, oxalocrotonyl-CoA, muconyl-CoA, and butynedioyl-CoA, but not 3-methylglutaconyl-CoA, served as alternative substrates. Hydration of butynedioyl-CoA most likely led to 2-oxosuccinyl-CoA, which spontaneously hydrolyzed to oxaloacetate and CoASH. The dehydratase is not specific for the CoA-moiety because (R)-2-hydroxyglutaryl-thioesters of N-acetylcysteamine and pantetheine served as almost equal substrates. Whereas the related 2-hydroxyisocaproyl-CoA dehydratase generated the stable and inhibitory 2,4-pentadienoyl-CoA radical, the analogous allylic ketyl radical could not be detected with muconyl-CoA and 2-hydroxyglutaryl-CoA dehydratase. With the exception of (R)-2-hydroxyglutaryl-CoA, all mono-CoA-thioesters of dicarboxylates used in this study were synthesized with glutaconate CoA-transferase from Acidaminococcus fermentans. The now possible conversion of (R)-2-hydroxyadipate via (R)-2-hydroxyadipoyl-CoA and 2-hexenedioyl-CoA to 2-hexenedioate paves the road for a bio-based production of adipic acid. << Less