Asutosh Bellur | Jawaharlal Nehru Centre for Advanced Scientific Research (original) (raw)
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ABSTRACTFumarate hydratase (FH) is a remarkable catalyst that decreases the free energy of the ca... more ABSTRACTFumarate hydratase (FH) is a remarkable catalyst that decreases the free energy of the catalyzed reaction by 30 kcal mol−1, much larger than most exceptional enzymes with extraordinary catalytic rates. Two classes of FH are observed in nature: class-I and class-II, that have different folds, yet catalyze the same reversible hydration/dehydration reaction of the dicarboxylic acids fumarate/malate, with equal efficiencies. Using class-I FH from the hyperthermophilic archaeon Methanocaldococcus jannaschii (Mj) as a model along with comparative analysis with the only other available class-I FH structure from Leishmania major (Lm), we provide insights into the molecular mechanism of catalysis in this class of enzymes. The structure of MjFH apo-protein has been determined, revealing that large inter-subunit rearrangements occur across apo- and the holo-protein forms, with a largely preorganized active site for substrate binding. Site-directed mutagenesis of active site residues, k...
Guanosine 5’-monophosphate (GMP) synthetases, enzymes that catalyze the conversion of xanthosine ... more Guanosine 5’-monophosphate (GMP) synthetases, enzymes that catalyze the conversion of xanthosine 5’-monophosphate (XMP) to GMP are comprised of two different catalytic units, which are either two domains of a polypeptide chain or two subunits that associate to form a complex. The glutamine amidotransferase (GATase) unit hydrolyzes glutamine generating ammonia and the ATP pyrophosphatase (ATPPase) unit catalyzes the formation of AMP-XMP intermediate. The substrate-bound ATPPase allosterically activates GATase and the ammonia thus generated is tunnelled to the ATPPase active site where it reacts with AMP-XMP generating GMP. In ammonia tunnelling enzymes reported thus far, a tight complex of the two subunits is observed, while the interaction of the two subunits of Methanocaldococcus jannaschii GMP synthetase (MjGMPS) is transient with the underlying mechanism of allostery and substrate channelling largely unclear. Here, we present a mechanistic model encompassing the various steps in ...
bioRxiv, 2021
Stability of proteins from hyperthermophiles enabled by reduction of conformational flexibility i... more Stability of proteins from hyperthermophiles enabled by reduction of conformational flexibility is realized through various mechanisms. Presence of a stable, hydrolysis-resistant succinimide arising from cyclization of the side chains of aspartyl/asparaginyl residues with backbone amide -NH of the succeeding residue would restrain the torsion angle Ψ. Here, we describe the crystal structure of Methanocaldococcus jannaschii glutamine amidotransferase (MjGATase) and address the mechanism of a succinimide-induced increased thermostability using molecular dynamics simulations. This study reveals the interplay of negatively charged electrostatic shield and n→π* interactions in preventing succinimide hydrolysis. The stable succinimidyl residue induces formation of a ‘conformational-lock’, reducing protein flexibility. Protein destabilization upon replacement with the Φ-restricted prolyl residue highlights the specificity of the conformationally restrained succinimidyl residue in imparting...
Virus Genes
Peste-des-petits-ruminants is a highly contagious and fatal disease of goats and sheep caused by ... more Peste-des-petits-ruminants is a highly contagious and fatal disease of goats and sheep caused by non-segmented, negative strand RNA virus belonging to the Morbillivirus genus-Peste-des-petits-ruminants virus (PPRV) which is evolutionarily closely related to Rinderpest virus (RPV). The large protein 'L' of the members of this genus is a multifunctional catalytic protein, which transcribes and replicates the viral genomic RNA as well as possesses mRNA capping, methylation and polyadenylation activities; however, the detailed mechanism of mRNA capping by PPRV L protein has not been studied. We have found earlier that the L protein of RPV has RNA triphosphatase (RTPase), guanylyltransferase (GTase) and methyltransferase activities, and unlike vesicular stomatitis virus (VSV), follows the conventional pathway of mRNA capping. In the present work, using a 5′-end labelled viral RNA as substrate, we demonstrate that PPRV L protein has RTPase activity when present in the ribonucleoprotein complex of purified virus as well as recombinant L-P complex expressed in insect cells. Further, a minimal domain in the C-terminal region (aa1640-1840) of the L protein has been expressed in E. coli and shown to exhibit RTPase activity. The RTPase activity of PPRV L protein is metal-dependent and functions with a divalent cation, either magnesium or manganese. In addition, RTPase associated nucleotide triphosphatase activity (NTPase) of PPRV L protein is also demonstrated. This work provides the first detailed study of RTPase activity and identifies the RTPase domain of PPRV L protein.
ABSTRACTFumarate hydratase (FH) is a remarkable catalyst that decreases the free energy of the ca... more ABSTRACTFumarate hydratase (FH) is a remarkable catalyst that decreases the free energy of the catalyzed reaction by 30 kcal mol−1, much larger than most exceptional enzymes with extraordinary catalytic rates. Two classes of FH are observed in nature: class-I and class-II, that have different folds, yet catalyze the same reversible hydration/dehydration reaction of the dicarboxylic acids fumarate/malate, with equal efficiencies. Using class-I FH from the hyperthermophilic archaeon Methanocaldococcus jannaschii (Mj) as a model along with comparative analysis with the only other available class-I FH structure from Leishmania major (Lm), we provide insights into the molecular mechanism of catalysis in this class of enzymes. The structure of MjFH apo-protein has been determined, revealing that large inter-subunit rearrangements occur across apo- and the holo-protein forms, with a largely preorganized active site for substrate binding. Site-directed mutagenesis of active site residues, k...
Guanosine 5’-monophosphate (GMP) synthetases, enzymes that catalyze the conversion of xanthosine ... more Guanosine 5’-monophosphate (GMP) synthetases, enzymes that catalyze the conversion of xanthosine 5’-monophosphate (XMP) to GMP are comprised of two different catalytic units, which are either two domains of a polypeptide chain or two subunits that associate to form a complex. The glutamine amidotransferase (GATase) unit hydrolyzes glutamine generating ammonia and the ATP pyrophosphatase (ATPPase) unit catalyzes the formation of AMP-XMP intermediate. The substrate-bound ATPPase allosterically activates GATase and the ammonia thus generated is tunnelled to the ATPPase active site where it reacts with AMP-XMP generating GMP. In ammonia tunnelling enzymes reported thus far, a tight complex of the two subunits is observed, while the interaction of the two subunits of Methanocaldococcus jannaschii GMP synthetase (MjGMPS) is transient with the underlying mechanism of allostery and substrate channelling largely unclear. Here, we present a mechanistic model encompassing the various steps in ...
bioRxiv, 2021
Stability of proteins from hyperthermophiles enabled by reduction of conformational flexibility i... more Stability of proteins from hyperthermophiles enabled by reduction of conformational flexibility is realized through various mechanisms. Presence of a stable, hydrolysis-resistant succinimide arising from cyclization of the side chains of aspartyl/asparaginyl residues with backbone amide -NH of the succeeding residue would restrain the torsion angle Ψ. Here, we describe the crystal structure of Methanocaldococcus jannaschii glutamine amidotransferase (MjGATase) and address the mechanism of a succinimide-induced increased thermostability using molecular dynamics simulations. This study reveals the interplay of negatively charged electrostatic shield and n→π* interactions in preventing succinimide hydrolysis. The stable succinimidyl residue induces formation of a ‘conformational-lock’, reducing protein flexibility. Protein destabilization upon replacement with the Φ-restricted prolyl residue highlights the specificity of the conformationally restrained succinimidyl residue in imparting...
Virus Genes
Peste-des-petits-ruminants is a highly contagious and fatal disease of goats and sheep caused by ... more Peste-des-petits-ruminants is a highly contagious and fatal disease of goats and sheep caused by non-segmented, negative strand RNA virus belonging to the Morbillivirus genus-Peste-des-petits-ruminants virus (PPRV) which is evolutionarily closely related to Rinderpest virus (RPV). The large protein 'L' of the members of this genus is a multifunctional catalytic protein, which transcribes and replicates the viral genomic RNA as well as possesses mRNA capping, methylation and polyadenylation activities; however, the detailed mechanism of mRNA capping by PPRV L protein has not been studied. We have found earlier that the L protein of RPV has RNA triphosphatase (RTPase), guanylyltransferase (GTase) and methyltransferase activities, and unlike vesicular stomatitis virus (VSV), follows the conventional pathway of mRNA capping. In the present work, using a 5′-end labelled viral RNA as substrate, we demonstrate that PPRV L protein has RTPase activity when present in the ribonucleoprotein complex of purified virus as well as recombinant L-P complex expressed in insect cells. Further, a minimal domain in the C-terminal region (aa1640-1840) of the L protein has been expressed in E. coli and shown to exhibit RTPase activity. The RTPase activity of PPRV L protein is metal-dependent and functions with a divalent cation, either magnesium or manganese. In addition, RTPase associated nucleotide triphosphatase activity (NTPase) of PPRV L protein is also demonstrated. This work provides the first detailed study of RTPase activity and identifies the RTPase domain of PPRV L protein.