Thomas J. Kowalski scite author profile

Thomas J. Kowalski

2Publications

57Citation Statements Received

2Citation Statements Given

How they've been cited

138

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Affiliations

Emory University

Publications

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THE MAJOR SITE OF GUINEA‐PIG MYELIN BASIC PROTEIN ENCEPHALITOGENIC IN LEWIS RATS¹²

Chou

Kowalski

et al. 1977

Journal of Neurochemistry

109

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In the Lewis rat, fragment 4>88 of the highly encephalitogenic guinea-pig basic protein has been previously shown to retain the full activity of the parent protein. In the present studies this fragment was subjected to controlled chymotryptic digestion so that cleavage occurred only at tyrosine 67, generating two peptides, residues 4 3 4 7 and residues 68-88. When compared on an equimolar basis peptide 68-88 had the same encephalitogenic activity as the intact fragment and induced the same degree of immunologically specific cell response as measured by the in uitro lymphocyte stimulation test. Peptide 68-88 was further fragmented by selective tryptic cleavage at arginine 78 after blocking lysine 73 with citraconic anhydride. The two peptides, residues 68-78 and residues 79-88, were not encephalitogenic, indicating that residues adjacent to the point of cleavage contribute to the active site.Encephalitogenic peptide CI P

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IDENTITY OF MYELIN BASIC PROTEIN FROM MULTIPLE SCLEROSIS AND HUMAN CONTROL BRAINS: DISCOVERY OF A GENETIC VARIANT¹

Chou

Kowalski

et al. 1978

Journal of Neurochemistry

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Abstract— Myelin basic protein was isolated from the brains of 7 multiple sclerosis and 5 control patients. When acid extracts of the delipidated brains were chromatographed on carboxymethylcellulose at alkaline pH the elution profiles were the same for the two groups of patients. Component I, the most basic species of the protein, from 2 multiple sclerosis and one control brains was fragmented by limited pepsin digestion. Tryptic peptide maps were prepared from the three major products, fragment 1–38, 39–89 plus 45–89 and 90–170. The amino acid compositions of corresponding peptides were identical except for a 50:50 substitution of serine for glycine in tryptic peptide 44–49 from one (N.L.) of the 2 patients with multiple sclerosis. Peptide 44–49. isolated from intact component 1 from the other 6 multiple sclerosis and 5 control brains, did not show this substitution. In both multiple sclerosis and control basic proteins phosphorus was present only in fragment 90–170 of component 3 in the amount of 0.22 mol of phosphorus/mol of protein. These data suggest that there is no difference in either the amino acid sequence or in the modification of basic protein from control and multiple sclerosis patients. The amino acid substitution in patient N.L. represents the first example of a mutation in basic protein.

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