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Frontiers in Bioscience : a Journal and Virtual Library
|
October 20, 1999
Potential regulation of cartilage metabolism in osteoarthritis by fibronectin fragments
G A Homandberg
Clinical Orthopaedics and Related Research
|
October 18, 2001
Cartilage damage by matrix degradation products: fibronectin fragments
G A Homandberg
Biopolymers
|
December 1, 1987
Characterization of the interactions of an amino-terminal fibronectin fragment with the native molecule: implications for polymerization of fibronectin
G A Homandberg
Thrombosis Research
|
November 1, 1987
Inaccessibility to ligands of the amino-terminal region of plasma fibronectin
G A Homandberg
Biochemical and Biophysical Research Communications
|
April 14, 1982
Chemical modification of mouse beta-glucuronidase implicates lysyl, carboxyl and tyrosyl residues as catalytically essential and causes a reversible dissociation of the subunits
G A Homandberg
Journal of Orthopaedic Research : Official Publication of the Orthopaedic Research Society
|
June 11, 1998
Exposure of cartilage to a fibronectin fragment amplifies catabolic processes while also enhancing anabolic processes to limit damage
G A Homandberg, C Wen
Inflammation Research : Official Journal of the European Histamine Research Society ... [Et Al.]
|
August 19, 2004
Fibronectin fragments elevate nitric oxide (NO) and inducible NO synthetase (iNOS) levels in bovine cartilage and iNOS inhibitors block fibronectin fragment mediated damage and promote repair
R Pichika, G A Homandberg
Archives of Biochemistry and Biophysics
|
June 1, 1994
High concentrations of fibronectin fragments cause short-term catabolic effects in cartilage tissue while lower concentrations cause continuous anabolic effects
G A Homandberg, F Hui
Thrombosis Research
|
May 15, 1990
Insertion of fibrin peptides into urokinase enhances fibrin affinity
G A Homandberg, T Wai
Biochemistry
|
February 20, 1979
Enzymatic resynthesis of the hydrolyzed peptide bond(s) in ribonuclease S
G A Homandberg, M Laskowski
Page
of 8
Search research articles
Search
Showing results (1-10 of 73) with videos related to
Sort By:
Page
of 8
Frontiers in Bioscience : a Journal and Virtual Library
|
October 20, 1999
Potential regulation of cartilage metabolism in osteoarthritis by fibronectin fragments
G A Homandberg
Clinical Orthopaedics and Related Research
|
October 18, 2001
Cartilage damage by matrix degradation products: fibronectin fragments
G A Homandberg
Biopolymers
|
December 1, 1987
Characterization of the interactions of an amino-terminal fibronectin fragment with the native molecule: implications for polymerization of fibronectin
G A Homandberg
Thrombosis Research
|
November 1, 1987
Inaccessibility to ligands of the amino-terminal region of plasma fibronectin
G A Homandberg
Biochemical and Biophysical Research Communications
|
April 14, 1982
Chemical modification of mouse beta-glucuronidase implicates lysyl, carboxyl and tyrosyl residues as catalytically essential and causes a reversible dissociation of the subunits
G A Homandberg
Journal of Orthopaedic Research : Official Publication of the Orthopaedic Research Society
|
June 11, 1998
Exposure of cartilage to a fibronectin fragment amplifies catabolic processes while also enhancing anabolic processes to limit damage
G A Homandberg, C Wen
Inflammation Research : Official Journal of the European Histamine Research Society ... [Et Al.]
|
August 19, 2004
Fibronectin fragments elevate nitric oxide (NO) and inducible NO synthetase (iNOS) levels in bovine cartilage and iNOS inhibitors block fibronectin fragment mediated damage and promote repair
R Pichika, G A Homandberg
Archives of Biochemistry and Biophysics
|
June 1, 1994
High concentrations of fibronectin fragments cause short-term catabolic effects in cartilage tissue while lower concentrations cause continuous anabolic effects
G A Homandberg, F Hui
Thrombosis Research
|
May 15, 1990
Insertion of fibrin peptides into urokinase enhances fibrin affinity
G A Homandberg, T Wai
Biochemistry
|
February 20, 1979
Enzymatic resynthesis of the hydrolyzed peptide bond(s) in ribonuclease S
G A Homandberg, M Laskowski
Page
of 8