M
Mary Milam
Researcher at University of Texas Southwestern Medical Center
Publications - 6
Citations - 370
Mary Milam is an academic researcher from University of Texas Southwestern Medical Center. The author has contributed to research in topics: Baby hamster kidney cell & Cell adhesion. The author has an hindex of 6, co-authored 6 publications receiving 370 citations. Previous affiliations of Mary Milam include United States Department of Veterans Affairs & University of Texas System.
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Journal ArticleDOI
Elevated beta thromboglobulin in peripheral venous blood of patients with acute myocardial ischemia: Direct evidence for enhanced platelet reactivity in vivo☆
Thomas C. Smitherman,Thomas C. Smitherman,Mary Milam,Jannie Woo,Jannie Woo,James T. Willerson,James T. Willerson,Eugene P. Frenkel,Eugene P. Frenkel +8 more
TL;DR: Assay of beta thromboglobulin appears to be suitable as an indicator of enhanced platelet reactivity in patients with ischemic heart disease, and use obviates many of the difficulties in interpretation of the various in vitro analyses of platelet function and platelet survival studies.
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Studies on cell adhesion: II. Adhesion of cells to surfaces of diverse chemical composition and inhibition of adhesion by sulfhydryl binding reagents
TL;DR: Rat hepatoma cells are able to adhere to many surfaces of diverse chemical compositions, but inhibition of adhesion by p -mercuribenozate and arsenite was reversible; inhibition by HgCl 2, iodoacetate and N -ethylmaleimide was not reversible.
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Attachment of normal and transformed hamster kidney cells to substrata varying in chemical composition
TL;DR: Normal, suspension culture-adapted, and polyoma-transformed baby hamster kidney cells were observed to attach to different substrata according to the wettability of the substrata surfaces.
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STUDIES ON CELL ADHESION : III. Adhesion of Baby Hamster Kidney Cells
TL;DR: Normal and transformed baby hamster kidncy (BHK) cells attach to Falcon polystyrene with the same first order rate constant and recovery of adhesiveness of trypsin-trcated cells is inhibitcd by cycloheximidc.
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Cyclic AMP Does Not Affect the Rate at which Cells Attach to a Substratum
TL;DR: It is shown here that although dbcAMP does decrease cell detachability, it does not increase the “stickiness” of either transformed (BHK-py) or normal (B HK-21-13s) baby hamster kidney cells.