Rusty Kutny scite author profile

A facile purification has been devised for recombinantly produced Salmonella typhimurium acetolactate synthase isozyme II. Purification of the enzyme was made possible by determining the complex set of factors that lead to loss of enzymic activity with this rather labile enzyme. When complexed with thiamin pyrophosphate, FAD, and magnesium, acetolactate synthase is subject to oxygen-dependent inactivation, a property not shared by the enzyme-FAD complex. When divorced from all of its tightly bound cofactors, losses of the enzymic activity are encountered at low ionic strength, especially at low protein concentrations. If purified and stored as the enzyme-FAD complex, acetolactate synthase is quite stable. The enzyme is composed of two types of subunits, a result that was not anticipated from previous studies of ilvG (the gene that codes for the large subunit of acetolactate synthase). These subunits were determined to be in equal molar ratio in the purified enzyme from the distribution of radioactivity between the two subunits after carboxymethylation with iodo[14C]acetate and their respective amino acid compositions. Besides the expected ilvG gene product (59.3 kDa), purified acetolactate synthase contained a smaller subunit (9.7 kDa; designated here as the ilvM gene product). On the basis of sequence homology of the small subunit with that coded for by the corresponding Escherichia coli gene sequence [Lawther, R. P., Calhoun, D. H., Adams, C. W., Hauser, C. A., Gray, J., & Hatfield, G. W. (1981) Proc. Natl. Acad. Sci. U.S.A. 78, 922-925], it is encoded by the region between ilvG and ilvE, beginning at base-pair (bp) 1914 (relative to the point of transcription initiation).(ABSTRACT TRUNCATED AT 250 WORDS)

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Purification and partial sequence analysis of human T-cell growth factor.

Robb¹,

Kutny²,

Chowdhry³

1983

Proc. Natl. Acad. Sci. U.S.A.

117

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A murine monoclonal antibody directed against human T-cell growth factor (TCGF) from the JURKAT cell line was used for affinity column.purification of the factor. Bound TCGF was eluted nearly quantitatively at low pH, and the recovered factor appeared homogeneous by two-dimensional gel electrophoresis. The molecule is markedly hydrophobic, with a high content of leucine. A single NH2-terminal sequence of 36 residues was obtained by automated Edman degradation, further supporting the homogeneity of the material. Thus, significant quantities of purified TCGF have been prepared in a single step, making possible detailed analysis of its molecular structure and biological role.

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Amino acid sequence and post-translational modification of human interleukin 2.

Robb¹,

Kutny²,

Panico³

et al. 1984

Proc. Natl. Acad. Sci. U.S.A.

105

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Human interleukin 2 was separated into multiple molecular forms by selective immunoaffinity chromatography and chromatofocusing. For the most part, this heterogeneity was attributed to variations in glycosylation of the threonine residue in position 3 of the polypeptide chain. The various molecular forms of interleukin 2 had nearly identical specific activities in the in vitro proliferation assay, indicating that the glycosylation had no significant effect on this response. The entire primary sequence of interleukin 2, including the location of the intramolecular disulfide bridge, was determined by a combination of peptide mapping and protein sequencing. This information should aid in the determination of the active site(s) of the molecule.

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Escherichia coli S-adenosylmethionine decarboxylase. Subunit structure, reductive amination, and NH2-terminal sequences.

Anton¹,

Kutny²

1987

Journal of Biological Chemistry

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Mechanism of substrate inactivation of Escherichia coli S-adenosylmethionine decarboxylase

Anton¹,

Kutny²

1987

Biochemistry

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S-Adenosylmethionine decarboxylase, a pyruvoyl-containing decarboxylase, is inactivated in a time-dependent process under turnover conditions. The inactivation is dependent on the presence of both substrate and Mg2+, which is also required for enzyme activity. The rate of inactivation is dependent on the concentration of substrate and appears to be saturable. Inactivation by [methionyl-3,4-14C]-adenosylmethionine results in stoichiometric labeling of the protein. In contrast, when either S-[methyl-3H]adenosylmethionine or [8-14C]adenosylmethionine is used, there is virtually no incorporation of radioactivity. Automated Edman degradation of the alpha (pyruvoyl-containing) subunit reveals that substrate inactivation results in the conversion of the pyruvoyl group to an alanyl residue. These data suggest a mechanism of inactivation which involves the transamination of the nascent product to the pyruvoyl group, followed by the elimination of methylthioadenosine and the generation of a 2-propenal equivalent which could undergo a Michael addition to the enzyme. This is the first evidence for a transamination mechanism for substrate inactivation of a pyruvoyl enzyme.

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Rusty Kutny

Purification and properties of Salmonella typhimurium acetolactate synthase isozyme II from Escherichia coli HB101/pDU9

Purification and partial sequence analysis of human T-cell growth factor.

Amino acid sequence and post-translational modification of human interleukin 2.

Escherichia coli S-adenosylmethionine decarboxylase. Subunit structure, reductive amination, and NH2-terminal sequences.

Mechanism of substrate inactivation of Escherichia coli S-adenosylmethionine decarboxylase

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