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F C Church

Showing results (61-70 of 75) with videos related to

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The Journal of Biological Chemistry|November 13, 1998
Role of thrombin anion-binding exosite-I in the formation of thrombin-serpin complexesT Myles, F C Church, H C Whinna, et al.
The Journal of Biological Chemistry|May 5, 1991
Role of lysine 173 in heparin binding to heparin cofactor IIH C Whinna, M A Blinder, M Szewczyk, et al.
Thrombosis Research|October 1, 1988
Calcium enhances factor Xa activity independent of gamma-carboxyglutamic acid residuesG B Sherrill, J B Meade, T Kalayanamit, et al.
Biochemistry|October 10, 1995
Intermolecular interactions between protein C inhibitor and coagulation proteasesS T Cooper, H C Whinna, T P Jackson, et al.
Thrombosis and Haemostasis|May 1, 1996
Role of the A+ helix in heparin binding to protein C inhibitorM G Elisen, M H Maseland, F C Church, et al.
The Journal of Biological Chemistry|February 15, 1993
Inhibition of dysthrombins Quick I and II by heparin cofactor II and antithrombinJ E Phillips, R A Shirk, H C Whinna, et al.
The Journal of Biological Chemistry|April 6, 2000
Altered dermatan sulfate structure and reduced heparin cofactor II-stimulating activity of biglycan and decorin from human atherosclerotic plaqueR A Shirk, N Parthasarathy, J D San Antonio, et al.
Annals of the New York Academy of Sciences|January 1, 1989
Physicochemical aspects of heparin cofactor IIC W Pratt, H C Whinna, J B Meade, et al.
The Journal of Biological Chemistry|June 15, 1987
Identification of a lysyl residue in antithrombin which is essential for heparin bindingC B Peterson, C M Noyes, J M Pecon, et al.
Journal of Thrombosis and Haemostasis : JTH|June 29, 2004
Role of the gamma-carboxyglutamic acid domain of activated factor X in the presence of calcium during inhibition by antithrombin-heparinH C Whinna, E B Lesesky, D M Monroe, et al.
Pageof 8

Showing results (61-70 of 75) with videos related to

Sort By:
Pageof 8
The Journal of Biological Chemistry|November 13, 1998
Role of thrombin anion-binding exosite-I in the formation of thrombin-serpin complexesT Myles, F C Church, H C Whinna, et al.
The Journal of Biological Chemistry|May 5, 1991
Role of lysine 173 in heparin binding to heparin cofactor IIH C Whinna, M A Blinder, M Szewczyk, et al.
Thrombosis Research|October 1, 1988
Calcium enhances factor Xa activity independent of gamma-carboxyglutamic acid residuesG B Sherrill, J B Meade, T Kalayanamit, et al.
Biochemistry|October 10, 1995
Intermolecular interactions between protein C inhibitor and coagulation proteasesS T Cooper, H C Whinna, T P Jackson, et al.
Thrombosis and Haemostasis|May 1, 1996
Role of the A+ helix in heparin binding to protein C inhibitorM G Elisen, M H Maseland, F C Church, et al.
The Journal of Biological Chemistry|February 15, 1993
Inhibition of dysthrombins Quick I and II by heparin cofactor II and antithrombinJ E Phillips, R A Shirk, H C Whinna, et al.
The Journal of Biological Chemistry|April 6, 2000
Altered dermatan sulfate structure and reduced heparin cofactor II-stimulating activity of biglycan and decorin from human atherosclerotic plaqueR A Shirk, N Parthasarathy, J D San Antonio, et al.
Annals of the New York Academy of Sciences|January 1, 1989
Physicochemical aspects of heparin cofactor IIC W Pratt, H C Whinna, J B Meade, et al.
The Journal of Biological Chemistry|June 15, 1987
Identification of a lysyl residue in antithrombin which is essential for heparin bindingC B Peterson, C M Noyes, J M Pecon, et al.
Journal of Thrombosis and Haemostasis : JTH|June 29, 2004
Role of the gamma-carboxyglutamic acid domain of activated factor X in the presence of calcium during inhibition by antithrombin-heparinH C Whinna, E B Lesesky, D M Monroe, et al.
Pageof 8