Recombinant glycerol dehydratase of Klebsiella pneumoniae was purified to homogeneity. The subunit composition of the enzyme was most probably a 2 b 2 c 2 . When (R)-and (S)-propane-1,2-diols were used independently as substrates, the rate with the (R)-enantiomer was 2.5 times faster than that with the (S)-isomer. In contrast to diol dehydratase, an isofunctional enzyme, the affinity of the enzyme for the (S)-isomer was essentially the same or only slightly higher than that for the (R)-isomer (K m(R) /K m(S) ¼ 1.5). The crystal structure of glycerol dehydratase in complex with cyanocobalamin and propane-1,2-diol was determined at 2.1 Å resolution. The enzyme exists as a dimer of the abc heterotrimer. Cobalamin is bound at the interface between the a and b subunits in the so-called Ôbase-onÕ mode with 5,6-dimethylbenzimidazole of the nucleotide moiety coordinating to the cobalt atom. The electron density of the cyano group was almost unobservable, suggesting that the cyanocobalamin was reduced to cob(II)alamin by X-ray irradiation. The active site is in a (b/a) 8 barrel that was formed by a central region of the a subunit. The substrate propane-1,2-diol and essential cofactor K + are bound inside the (b/a) 8 barrel above the corrin ring of cobalamin. K + is heptacoordinated by the two hydroxyls of the substrate and five oxygen atoms from the active-site residues. These structural features are quite similar to those of diol dehydratase. A closer contact between the a and b subunits in glycerol dehydratase may be reminiscent of the higher affinity of the enzyme for adenosylcobalamin than that of diol dehydratase. Although racemic propane-1,2-diol was used for crystallization, the substrate bound to glycerol dehydratase was assigned to the (R)-isomer. This is in clear contrast to diol dehydratase and accounts for the difference between the two enzymes in the susceptibility of suicide inactivation by glycerol.Keywords: coenzyme B 12 ; adenosylcobalamin; glycerol dehydratase; crystal structure; radical enzyme catalysis.Adenosylcobalamin is one of the most unique compounds in nature. It is a water-soluble organometallic compound possessing a Co-C r bond and serves as a cofactor for enzymatic radical reactions including carbon skeleton rearrangements, heteroatom eliminations and intramolecular amino group migrations [1]. Diol dehydratase (EC 4.2.1.28) of Klebsiella oxytoca is an adenosylcobalamin (AdoCbl 1 ) dependent enzyme that catalyzes the conversions of 1,2-diols, such as propane-1,2-diol, glycerol, and 1,2-ethanediol, to the corresponding aldehydes [2,3] (Fig. 1). This enzyme has been studied intensively to establish the mechanism of action of AdoCbl [4][5][6][7]. The structurefunction relationship of the coenzyme has also been investigated extensively with this enzyme [5][6][7][8]. Recently, we have reported the three-dimensional structures of its complexes with cyanocobalamin [9] and adeninylpentylcobalamin [10] and theoretical calculations of the entire energy profile along the reaction pathway with a simplifie...
Adenosylcobalamin-dependent glycerol dehydratase undergoes inactivation by glycerol, the physiological substrate, during catalysis. In permeabilized cells of Klebsiella pneumoniae, the inactivated enzyme is reactivated in the presence of ATP, Mg2+, and adenosylcobalamin. We identified the two open reading frames as the genes for a reactivating factor for glycerol dehydratase and designated them gdrA and gdrB. The reactivation of the inactivated glycerol dehydratase by the gene products was confirmed in permeabilized recombinant Escherichia coli cells coexpressing GdrA and GdrB proteins with glycerol dehydratase.
Production of infectious particles from defective human immunodeficiency virus type 1 (HIV-1)-producing cell clones by superinfection with infectious HIV-1
A total of 81 cell clones persistently infected with the LAV-1 or HTLV-IIIB strain of human immunodeficiency virus type 1 (HIV-1) was isolated from cells which were obtained by serial passage of some proliferating MT-4 cells after a drastic cytolysis of most cells by HIV-1-infection. These cell clones were classified into 8 types (I to VIII) in terms of the expression of HIV-1 antigens, syncytium formation capacity, and reverse transcriptase activity and infectivity of virus particles in the culture fluid. Type I cell clones were producers of infectious HIV-1 particles, while types II to VIII cell clones did not produce infectious HIV-1 or were producers of uninfectious defective HIV-1 particles. Immunoprecipitation followed by SDS-polyacrylamide gel electrophoresis (PAGE) showed that the gag precursor protein in L-2 cell clone (type IV) was not cleaved to mature gag proteins, while the env precursor protein on L-3 cell clone (type III) was not cleaved to mature env protein. H-7 cell clone (type VIII) did not express any HIV-1 antigen. All these cell clones after the superinfection with infectious HIV-1 synthesized intact gag and env proteins, which were, at least in part, related to the HIV-1 genome persistently present in the cell clones before the superinfection, resulting in production of infectious HIV-1. For example, it was found that L-2 cell clone contained a single copy of the LAV-1 genome per haploid cell and produced doughnut-shaped particles. On the other hand, the cell clone isolated from the L-2 cell clone superinfected with infectious HTLV-IIIB contained the integrated HTLV-IIIB genome in addition to the LAV-1 genome present before the superinfection, and produced intact HIV-1 particles in addition to doughnut-shaped particles from a single cell. These results indicate that complementation and/or genetic recombination events in the superinfected cells may account for the production of infectious intact HIV-1 virions.
Summary Adenosylcobalamin-dependent diol dehydratase and glycerol dehydratase are isofunctional enzymes that catalyze the dehydration of 1,2-diols to the corresponding aldehydes. Although they bear different metabolic roles, both enzymes consist of three different subunits and possess a common ( ␣␥ ) 2 structure. To elucidate the roles of each subunit, we constructed expression plasmids for the hybrid dehydratases between diol dehydratase of Klebsiella oxytoca and glycerol dehydratase of Klebsiella pneumoniae in all the combinations of subunits by gene engineering techniques. All of the hybrid enzymes were produced in Escherichia coli at high levels, but only two hybrid enzymes consisting of the ␣ subunit from glycerol dehydratase and the  subunits from diol dehydratase showed high activity. The substrate specificity, the susceptibility to inactivation by glycerol, and the monovalent cation specificity of the wild type and hybrid enzymes were primarily determined by the origin of their ␣ subunits. Key Words coenzyme B 12 , adenosylcobalamin, diol dehydratase, glycerol dehydratase, hybrid enzymes Diol dehydratase ( DL -1,2-propanediol hydro-lyase, EC 4.2.1.28) and glycerol dehydratase (EC 4.2.1.30) are isofunctional enzymes that catalyze the AdoCbl 1 -dependent conversion of 1,2-diols to the corresponding deoxy aldehydes ( 1-3 ). They consist of the three different subunits, ␣ ( Mr 60,000-61,000),  ( Mr 21,000-24,000), and ␥ ( Mr 16,000-19,000), and dissociate into two dissimilar protein components in the absence of substrate ( 4, 5 ). Large and small components correspond to the ␣ 2 ␥ 2 complex and the  subunit, respectively ( 6, 7 ). Their catalytic properties are similar, but they are different in the binding affinity for AdoCbl ( 8,9 ), substrate specificity ( 1-3, 10, 11 ), susceptibility to suicide inactivation by glycerol ( 2, 9, 10 ), monovalent cation specificity ( 1,11,12 ), and immunochemical reactivity toward anti-diol dehydratase antiserum ( 11 ) (for review, see Refs. 13-15 )). In order to reveal their similarities and differences on a molecular level, we cloned, sequenced, and expressed the diol dehydratase genes of Klebsiella oxytoca ( 16 ) and K lebsiella pneumoniae ( 17 ) and the glycerol dehydratase genes of K. pneumoniae ( 18 ). The glycerol dehydratase genes of Citrobacter freundii ( 19 ) and Clostridium pasteurianum ( 20 ) and the diol dehydratase genes of Salmonella typhimurium ( 21 ) and Lactobacillus collinoides ( 22 ) have also been cloned by other investigators. Comparison of the deduced amino acid sequences of the corresponding subunits between diol and glycerol dehydratases indicated that the ␣ subunit is most highly conserved among the subunits of the enzymes (identity, 71%), whereas the homologies of  and ␥ subunits are lower (identities, 58% and 54%, respectively) ( Fig. 1) ( 18 ). The N-terminal 32 and 37 amino acid residues of the  and ␥ subunits, respectively, of diol dehydratase are lacking in the corresponding subunits of glycerol dehydratase (16)(17)(18). These regions ...
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