Anna I. Yuan scite author profile

The analysis of thrombin-alpha 2M reaction mixtures by two-dimensional SDS-PAGE has allowed us to assign several probable molecular species to the mixture of complexes formed. These include structures previously described in, or predicted from, the literature, as well as two types of novel species: Divalent cross-linking of two inhibitor chains by a single enzyme molecule. Very high molecular weight species that are attributed to intermolecular cross-linking of more than one inhibitor molecule. Species containing enzyme monovalently linked to an intact subunit are not supported by our data, but are not excluded and additional study will be required to determine if they exist.

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Kinetics of the reaction of thrombin and α2-macroglobulin

Feinman¹,

Yuan²,

Windwer³

et al. 1985

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The kinetics of the reaction of alpha 2-macroglobulin (alpha 2M) with human thrombin were studied by recording the appearance of thiol groups spectrophotometrically and by measuring the distribution of protein species by denaturing non-reducing gel electrophoresis. The goals were to study the relation between the formation of various covalent enzyme-inhibitor complex species and the appearance of free thiol, and from the kinetic analysis, to try to characterize the chemical nature of the protein complexes. The kinetics of thiol-group release were observed to be biphasic, the early phase showing second-order behaviour, results consistent with previous reports in the literature. The observed second-order rate constant for thiol-group release was found to be faster than the second-order rate constant for the disappearance of the band corresponding to native alpha 2M on gel electrophoresis. This may be a reflection of the multiple products formed from the thioester. Alternatively, it is possible that covalent-bond formation is slower than some enzyme-induced change in the thioester centre, and this may be suggestive evidence for a reactive alpha 2M centre that does not contain an intact thioester. The kinetics of covalent-bond formation were found to be consistent with the internal cross-link of several alpha 2M chains by the bound proteinase, providing further evidence that the very-high-Mr species seen on gels may arise from dimers of the alpha 2M molecule held together by covalent bonds to the enzyme.

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Covalent thrombin-.alpha.2-macroglobulin complexes. Evidence for bivalent crosslinking of inhibitor chains by a single enzyme molecule

Wang¹,

Yuan²,

Feinman³

1984

Biochemistry

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Complexes formed between thrombin and alpha 2-macroglobulin (alpha 2M) were studied by polyacrylamide gel electrophoresis. The results provide evidence for the existence of a recently proposed novel enzyme-inhibitor species in which a single thrombin molecule forms two or more covalent bonds to two or more different alpha 2M chains. At least one of several slowly migrating bands (greater than 375K on nonreduced gels) that have previously been observed in the literature but not well characterized can be assigned to the new species. The involvement of the lysyl amino groups of thrombin is shown by the observation that methylation of these groups reduces the higher molecular weight bands. In addition, increasing the thrombin:alpha 2M ratio causes a relative decrease in the higher molecular weight species, suggesting that these complexes arise by intramolecular reactions that are susceptible to competition by solution thrombin. The data provide support for our previous proposal [Wang, D., Yuan, A., & Feinman, R.D. (1983) Ann. N.Y. Acad. Sci. 421, 90-97] that the 260K band seen in reduced gels is composed of two proteolyzed inhibitor subunits linked to one thrombin molecule. This intersubunit link maintains the integrity of the alpha 2M in sodium dodecyl sulfate, accounting for the high molecular weight bands under nonreducing conditions. Comparison with a synthetically cross-linked alpha 2M molecule allows a tentative but not unambiguous assignment of one of the bands to this novel structure.

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Two major allelic forms of myosin light chain‐1 in strains of normal and dystrophic chickens

1982

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Evidence is presented from electrophoresis and peptide-mapping for the existence of two major allelic forms of myosin light chain-1 in the fast white muscle fibers of domestic chickens. One form predominates in birds of White Leghorn stock, the other in birds of New Hampshire Red stock. The two light chain-1 forms were invariant during development. Variability was not detected in light chains-2 or -3. The distribution of the two forms in two strains homozygous for the am gene for muscular dystrophy--Connecticut dystrophic and line 413--and their controls, White Leghorn and line 412, respectively, while clearly unrelated to avian dystrophy, emphasizes the heterogeneity in background genes of these non-inbred lines and indicates caution in their use in studies of avian dystrophy.

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Abnormal myosin heavy chain variant associated with avian muscular dystrophy

Rushbrook¹,

Yuan²,

Stracher³

1981

Cell Motility

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Avian muscular dystrophy is characterized by the degeneration of fast white skeletal muscle fibers, with onset during development. Using a one-dimensional peptide mapping technique, we have detected two forms of the myosin heavy chain in the fast white fibers of adult domestic chickens, one form characteristic of birds homozygous for muscular dystrophy, the other of their normal controls. Four dystrophic strains carrying the same gene for muscular dystrophy were examined. No differences were detected in the embryonic heavy chain peptide maps of normal and dystrophic chickens, consistent with the developmental onset of the condition. Differences were also absent from the peptide maps of heavy chains from slow red fibers, which are unaffected in dystrophy. No dystrophy-specific peptide map differences were detected in the three light chains. Analysis of peptide maps of rod and the heavy chain component of subfragment-1 from normal and dystrophic heavy chains indicates the presence of amino acid sequence differences in the two proteins.

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Anna I. Yuan

STRUCTURE OF α₂‐MACROGLOBULIN‐PROTEASE COMPLEXES

Kinetics of the reaction of thrombin and α2-macroglobulin

Covalent thrombin-.alpha.2-macroglobulin complexes. Evidence for bivalent crosslinking of inhibitor chains by a single enzyme molecule

Two major allelic forms of myosin light chain‐1 in strains of normal and dystrophic chickens

Abnormal myosin heavy chain variant associated with avian muscular dystrophy

Contact Info

Product

Resources

About

Anna I. Yuan

STRUCTURE OF α2‐MACROGLOBULIN‐PROTEASE COMPLEXES

Kinetics of the reaction of thrombin and α2-macroglobulin

Covalent thrombin-.alpha.2-macroglobulin complexes. Evidence for bivalent crosslinking of inhibitor chains by a single enzyme molecule

Two major allelic forms of myosin light chain‐1 in strains of normal and dystrophic chickens

Abnormal myosin heavy chain variant associated with avian muscular dystrophy

Contact Info

Product

Resources

About

STRUCTURE OF α₂‐MACROGLOBULIN‐PROTEASE COMPLEXES