Asit Datta scite author profile

Asit Datta

5Publications

47Citation Statements Received

78Citation Statements Given

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University of Wisconsin–Madison

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2-Acetylthiamin pyrophosphate (acetyl-TPP) pH-rate profile for hydrolysis of acetyl-TPP and isolation of acetyl-TPP as a transient species in pyruvate dehydrogenase catalyzed reactions

Gruys

Datta²,

Frey³

1989

Biochemistry

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Rate constants for the hydrolysis of acetyl-TPP were measured between pH values of 2.5 and 7.5 and plotted as log kobs versus pH. The pH-rate profile defined two legs, each with a slope of +1 but separated by a region of decreased slope between pH 4 and pH 6. The rates were insensitive to buffer concentrations. Each leg of the profile reflected specific-base-catalyzed hydrolysis of acetyl-TPP, analogous to the hydrolysis of 2-acetyl-3,4-dimethylthiazolium ion [Lienhard, G.E. (1966) J. Am. Chem. Soc. 88, 5642-5649]. The separation of the two legs of this profile has been shown to be caused by the ionization of a group exhibiting a pKa of 4.73 within acetyl-TPP that is remote from the acetyl group, the amino-pyrimidine ring, which is protonated below pH 4.73. The protonation level of this ring has been shown to control the equilibrium partitioning of acetyl-TPP among its carbinolamine, keto, and hydrate forms. The differential partitioning of these species is a major factor causing the separation between the two legs of the pH-rate profile. The characteristic pH-rate profile and the availability of synthetic acetyl-TPP [Gruys, K.J., Halkides, C.J., & Frey, P.A. (1987) Biochemistry 26, 7575-7585] have facilitated the isolation and identification of [1-14C]acetyl-TPP from acid-quenched enzymatic reaction mixtures at steady states. [1-14C]Acetyl-TPP was identified as a transient species in reactions catalyzed by the PDH complex or the pyruvate dehydrogenase component of the complex (E1). The pH-rate profile for hydrolysis of [1-14C]-acetyl-TPP isolated from enzymatic reactions was found to be indistinguishable from that for authentic acetyl-TPP, which constituted positive identification of the 14C-labeled enzymic species.

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Mapping the Lipoyl Groups of the Pyruvate Dehydrogenase Complex by Use of Gold Cluster Labels and Scanning Transmission Electron Microscopy

Yang¹,

Datta²,

Hainfeld³

et al. 1994

Biochemistry

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This paper describes the organization of lipoyl moieties within the pyruvate dehydrogenase (PDH) complex from Escherichia coli as studied in the scanning transmission electron microscope (STEM). The PDH complex is a multienzyme complex consisting of E1, pyruvate dehydrogenase, E2, dihydrolipoyl transacetylase, and E3, dihydrolipoyl dehydrogenase. The core of the complex is the cubic 24-subunit E2 component, which contains the lipoyl moieties bonded to lipoyl-bearing domains. E1 and E3 are associated along the edges (E1) and on the faces (E3) of the core. The lipoyl moieties were reduced with NADH and alkylated with a p-maleimidobenzoyl undecagold cluster complex. The gold labels were found to be bound very nearly specifically by dihydrolipoyl transacetylase (E2). Undecagold clusters were imaged directly by the STEM and also digitally mapped by radial mass analysis. The mass of the E2E3 subcomplex is about half that of the PDH complex. The PDH complex and GC-PDH are both about 420 A in diameter, as determined by radial mass analysis, and the E2E3 subcomplex and GC-E2E3 are 320 and 350 A, respectively. The outer boundary of the E2E3 subcomplex was clearly shown in STEM micrographs by the undecagold labels in GC-E2E3. Data obtained from radial mass analysis of GC-E2E3 and the unlabeled E2E3 subcomplex also showed that the size of the subcomplex is extended by the lipoyl-bearing domains surrounding the central E2 core. The capabilities of lipoyl moieties to undergo translocation over long distances through structural mobility in the lipoyl-bearing domains was confirmed by the observation that many of the lipoyl groups in E2E3 subcomplexes relax outward into space vacated by the removal of E1 during the preparation of the subcomplex from PDH complex. Radial mass analysis of the PDH complex and GC-PDH indicates that lipoyl groups are distributed over a large region of the PDH complex, extending from the central core to 170-180 A from the center of the complex, with the highest density at about 75 A from the particle centers, near the interface between E2 and the associated components E1 and E3.

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Characterization of the inhibition of Escherichia coli pyruvate dehydrogenase complex by pyruvate

Datta¹

1991

Biochemical and Biophysical Research Communications

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Botulinum neurotoxin types A, B & E: pH induced difference spectra

Datta

DasGupta

1988

Mol Cell Biochem

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The alkaline pH induced difference spectra (270-310 nm) of three antigenically distinct forms of the botulinum neurotoxin (NT) types A, B and E were examined. When isolated from the cultures of Clostridium botulinum, type A NT is a fully toxic dichain (nicked) protein, type E is a mildly toxic single chain (unnicked) protein, and type B NT is a mixture of single and dichain proteins and near fully toxic. Trypsin nicks the single chain protein to the dichain and increases its toxicity (up to about 100 fold in type E). A strong difference spectrum peak at approximately 296 nm was found when types A, B or E NT were in the alkaline pH region. This peak was not observed at pH 4.0. For types A and B NT plots of difference absorptivity vs. pH were simple sigmoidal curves. The pK of phenolic moieties of tyrosine residues in both proteins were 10.9. Nearly all tyrosine residues in both proteins were ionized. The single chain type E, unlike type A and B NT, yielded a two step titration curve and pK values 11.3 and less than 7.5; about 60% of the total tyrosine residues present were ionized. The two step titration curve was not observed when the single chain protein was nicked with trypsin to the dichain type E NT. The titration curve of dichain type E NT, although complex, was more like those of type A and B NT.

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Botulinum neurotoxin type B (strain 657): partial sequence and similarity with tetanus toxin

DasGupta

Datta

1988

Biochimie

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Asit Datta

2-Acetylthiamin pyrophosphate (acetyl-TPP) pH-rate profile for hydrolysis of acetyl-TPP and isolation of acetyl-TPP as a transient species in pyruvate dehydrogenase catalyzed reactions

Mapping the Lipoyl Groups of the Pyruvate Dehydrogenase Complex by Use of Gold Cluster Labels and Scanning Transmission Electron Microscopy

Characterization of the inhibition of Escherichia coli pyruvate dehydrogenase complex by pyruvate

Botulinum neurotoxin types A, B & E: pH induced difference spectra

Botulinum neurotoxin type B (strain 657): partial sequence and similarity with tetanus toxin

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