Chi-Chin Wang scite author profile

Chi-Chin Wang

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57Citation Statements Given

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Characterization of the reaction of methyl acetimidate with sperm whale myoglobin

DiMarchi¹,

Garner²,

Wang³

et al. 1978

Biochemistry

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The effects of pH, acetimidate concentration, temperature, and reaction time of methyl acetimidate with sperm whale myoglobulin have been assessed. Reaction at pH 9.8 and 15 degrees C for 30 min with a sixfold excess of methyl acetimidate relative to each amino group yielded six acetimidomyoglobin derivatives which were separated and purified. Reaction with tetrahydrophthalic anhydride revealed the number of amino groups that remained unreacted in each separated component and made possible further subractionation. Modification at the NH2 terminus was quantitated by automated stepwise Edman degradation. The acetimidyl and tetrahydrophthalyl groups, were readily removable. The potentiometric titration of three of the completely deprotected components showed identity with the parent untreated sperm whale myoglobin. The first of two major products was acetimidated at all 19 epsilon-amino groups but not at the NH2 terminus. The second major product bore a blocked NH2 terminus but retained one unmodified epsilon-amino group, identified after modification by trinitrobenzenesulfonate as lysine residue 77. Of the minor components, one was identified as completely acetimidated at all 20 amino groups. The other three minor components appeared to contain irreversible by-products.

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Coordination complexes and catalytic properties of proteins and related substances. 93. Complete amino acid sequence of the major component myoglobin of finback whale (Balaenoptera physalus)

DiMarchi¹,

Wang²,

Hemenway³

et al. 1978

Biochemistry

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The complete amino acid sequence of the major component myoglobin from finback whale, Balaenoptera physalus, was determined by the automated Edman degradation of several large peptides obtained by specific cleavages of the protein. Three easily separable peptides were obtained by cleaving with cyanogen bromide at the two methionine residues and one large peptide was isolated after cleavage with (2-p-nitrophenylsulfenyl)-3-methyl-3'-bromoindolenine. More than 60% of the covalent structure was established by the sequential degradation of three of these peptides and the apomyoglobin. An additional 30% of the primary sequence was established with peptides obtained from tryptic digestion of both the apomyoglobin and the acetimidoapomyoglobin, and the final 10% of the sequence was completed after digestion of the two larger cyanogen bromide peptides with S. aureus strain V8 protease. This myoglobin differs from that of the sperm whale, Physeter catodon, at 15 positions, from that of the arctic minke whale, Balaenoptera acutorostrata, at 3 positions, and from that of the California gray whale, Eschrichtius gibbosus, at 4 positions. All of the substitutions observed in this sequence fit easily into the three-dimensional structure of the sperm whale myoglobin.

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Chi-Chin Wang

Characterization of the reaction of methyl acetimidate with sperm whale myoglobin

Coordination complexes and catalytic properties of proteins and related substances. 93. Complete amino acid sequence of the major component myoglobin of finback whale (Balaenoptera physalus)

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