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Query: UNIPROT:O14944 (
EPR
)
13,097
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The ultraviolet/visible spectrum of the pure pink-orange
2-methyleneglutarate mutase
from Clostridium barkeri between 300-600 nm showed the presence of cobalamins; notably the peaks at 470 and 528 nm were indicative of oxygen-stable cob(II)alamin and adenosylcobalamin (coenzyme B12), respectively. Using the absorption coefficients of the isosbestic points at 340, 393 and 489 nm, the total cobalamin content was estimated as 3.7 +/- 0.3 mol/mol tetrameric enzyme (m = 300 kDa). Denaturation with 8 M urea in the presence of 2 mM dithiothreitol followed by gel chromatography and renaturation afforded an inactive enzyme which contained 40-50% of the initially bound cobalamin. This preparation could be reactivated to 95-100% by addition of adenosylcobalamin. The cobalamins were removed to 85% from the mutase by denaturation with 8 M urea in the presence of 1 M cyanide (pH 12) with irreversible loss of activity.
2-Methyleneglutarate mutase
was inactivated by incubation with aquo-, cyano- or methylcobalamin; up to 50% of the activity was recovered by addition of adenosylcobalamin. Upon incubation of the mutase with [5'-3H]adenosylcobalamin about 30% of the total cobalamin was exchanged by the tritium-labelled cofactor without loss of activity. During aerobic catalysis the enzyme became sensitive towards oxygen which was accompanied by loss of activity and formation of aquocobalamin from adenosylcobalamin.
EPR
spectroscopy demonstrated the presence of 0.8 mol base-on cob(II)alamin/mol enzyme. Upon addition of 2-methyleneglutarate a second
EPR
signal of about equal intensity at g = 2.13 arose. The question of whether the oxygen-stable cob(II)alamin participates in catalysis or its complex with the enzyme represents an inactive form is currently under investigation.
...
PMID:Adenosylcobalamin and cob(II)alamin as prosthetic groups of 2-methyleneglutarate mutase from Clostridium barkeri. 131 77
Purified
2-methyleneglutarate mutase
from Clostridium barkeri contains adenosylcobalamin (coenzyme B12) and varying amounts of oxygen-stable cob(II)alamin. The content of the latter was estimated by
EPR
spectroscopy at 6-11% of the total cobalamin (2-4 mol/mol enzyme). Tryptic digestion of the enzyme liberated the prosthetic groups, cob(II)alamin being oxidized by air to aquocobalamin. HPLC analysis of the released cobamides from several preparations revealed > 90% adenosylcobalamin and < 10% aquocobalamin. Treatment of active
2-methyleneglutarate mutase
with 8M urea followed by gelfiltration yielded an inactive enzyme from which 50% of the adenosylcobalamin and up to 70% of the cob(II)alamin was removed. Addition of adenosylcobalamin to the urea-treated enzyme resulted in complete reactivation, but the content of cob(II)alamin was not increased. These data suggest that the oxygen-stable cob(II)alamin is not involved in catalysis. In the presence of the competitive inhibitor itaconate (methylenesuccinate, Ki = 0.7mM), an alteration of the UV/visible spectrum at 470 nm as well as a new line in the
EPR
spectrum of the enzyme (around g = 2.1) was observed. The results indicate the formation of an unusual, oxygen sensitive Co(II) species during catalysis. The
EPR
signal of the oxygen-stable cob(II)alamin (gx,y = 2.24) remained unchanged under those conditions.
...
PMID:On the role of two different cobalt(II) species in coenzyme B12-dependent 2-methyleneglutarate mutase from Clostridium barkeri. 838 95
We describe a novel reaction of adenosylcobalamin that occurs when adenosylcobalamin-dependent glutamate mutase is reacted with the substrate analogue 2-methyleneglutarate. Although 2-methyleneglutarate is a substrate for the closely related adenosylcobalamin-dependent enzyme
2-methyleneglutarate mutase
, it reacts with glutamate mutase to cause time-dependent inhibition of the enzyme. Binding of 2-methyleneglutarate to glutamate mutase initiates homolysis of adenosylcobalamin. However, instead of the adenosyl radical proceeding to abstract a hydrogen from the substrate, which is the next step in all adenosylcobalamin-dependent enzymes, the adenosyl radical undergoes addition to the exo-methylene group to generate a tertiary radical at C-2 of methyleneglutarate. This radical has been characterized by
EPR
spectroscopy with regiospecifically (13)C-labeled methyleneglutarates. Irreversible inhibition of the enzyme appears to be a complicated process, and the detailed chemical and kinetic mechanism remains to be elucidated. The kinetics of this process suggest that cob(II)alamin may reduce the enzyme-bound organic radical so that stable adducts between the adenosyl moiety of the coenzyme and 2-methyleneglutarate are formed.
...
PMID:A novel reaction between adenosylcobalamin and 2-methyleneglutarate catalyzed by glutamate mutase. 1186 59
