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A Quinlan

Showing results (11-20 of 268) with videos related to

Pageof 27
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Experimental Eye Research|April 5, 2016
Small molecules, both dietary and endogenous, influence the onset of lens cataractsStephen Barnes, Roy A Quinlan
Experimental Cell Research|November 24, 2005
Lenticular chaperones suppress the aggregation of the cataract-causing mutant T5P gamma C-crystallinVilius Pigaga, Roy A Quinlan
Gene|December 31, 1997
Gene structure and sequence comparisons of the eye lens specific protein, filensin, from rat and mouse: implications for protein classification and assemblyS Masaki, R A Quinlan
The Journal of Cell Biology|July 1, 1987
Crystalline tubes of myosin subfragment-2 showing the coiled-coil and molecular interaction geometryR A Quinlan, M Stewart
Experimental Eye Research|February 26, 2022
The eye lens as an aging paradigm par excellenceRoy A Quinlan, Frank Giblin
Experimental Neurology|March 29, 2017
Spinal cord injury in hypertonic newborns after antenatal hypoxia-ischemia in a rabbit model of cerebral palsyAlexander Drobyshevsky, Katharina A Quinlan
Bioessays : News and Reviews in Molecular, Cellular and Developmental Biology|November 1, 1991
Molecular interactions in intermediate filamentsR A Quinlan, M Stewart
European Journal of Biochemistry|May 16, 1983
Molecular interactions in intermediate-sized filaments revealed by chemical cross-linking. Heteropolymers of vimentin and glial filament protein in cultured human glioma cellsR A Quinlan, W W Franke
Current Biology : CB|February 1, 1996
Mapping vertebrate embryosP P Tam, G A Quinlan
Proceedings of the National Academy of Sciences of the United States of America|June 1, 1982
Heteropolymer filaments of vimentin and desmin in vascular smooth muscle tissue and cultured baby hamster kidney cells demonstrated by chemical crosslinkingR A Quinlan, W W Franke
Pageof 27

Showing results (11-20 of 268) with videos related to

Sort By:
Pageof 27
Experimental Eye Research|April 5, 2016
Small molecules, both dietary and endogenous, influence the onset of lens cataractsStephen Barnes, Roy A Quinlan
Experimental Cell Research|November 24, 2005
Lenticular chaperones suppress the aggregation of the cataract-causing mutant T5P gamma C-crystallinVilius Pigaga, Roy A Quinlan
Gene|December 31, 1997
Gene structure and sequence comparisons of the eye lens specific protein, filensin, from rat and mouse: implications for protein classification and assemblyS Masaki, R A Quinlan
The Journal of Cell Biology|July 1, 1987
Crystalline tubes of myosin subfragment-2 showing the coiled-coil and molecular interaction geometryR A Quinlan, M Stewart
Experimental Eye Research|February 26, 2022
The eye lens as an aging paradigm par excellenceRoy A Quinlan, Frank Giblin
Experimental Neurology|March 29, 2017
Spinal cord injury in hypertonic newborns after antenatal hypoxia-ischemia in a rabbit model of cerebral palsyAlexander Drobyshevsky, Katharina A Quinlan
Bioessays : News and Reviews in Molecular, Cellular and Developmental Biology|November 1, 1991
Molecular interactions in intermediate filamentsR A Quinlan, M Stewart
European Journal of Biochemistry|May 16, 1983
Molecular interactions in intermediate-sized filaments revealed by chemical cross-linking. Heteropolymers of vimentin and glial filament protein in cultured human glioma cellsR A Quinlan, W W Franke
Current Biology : CB|February 1, 1996
Mapping vertebrate embryosP P Tam, G A Quinlan
Proceedings of the National Academy of Sciences of the United States of America|June 1, 1982
Heteropolymer filaments of vimentin and desmin in vascular smooth muscle tissue and cultured baby hamster kidney cells demonstrated by chemical crosslinkingR A Quinlan, W W Franke
Pageof 27