Up-regulation of novel intermediate filament proteins in primary fibercells: An indicator of all vertebrate lens fiber differentiation?
(2000)
Journal Article
Ireland, M., Wallace, P., Sandilands, A., Poosch, M., Kasper, M., Graw, J., …Quinlan, R. (2000). Up-regulation of novel intermediate filament proteins in primary fibercells: An indicator of all vertebrate lens fiber differentiation?
All Outputs (134)
The cardiomyopathy and lens cataract mutation in αB-crystallin alters its protein structure, chaperone activity, and interaction withintermediate filaments in vitro (1999)
Journal Article
Der Perng, M., Muchowski, P., van den IJssel, P., Wu, G., Hutcheson, A., Clark, J., & Quinlan, R. (1999). The cardiomyopathy and lens cataract mutation in αB-crystallin alters its protein structure, chaperone activity, and interaction withintermediate filaments in vitro. Journal of Biological Chemistry, 274(47), 33235-33243. https://doi.org/10.1074/jbc.274.47.33235Desmin-related myopathy and cataract are both caused by the R120G mutation in αB-crystallin. Desmin-related myopathy is one of several diseases characterized by the coaggregation of intermediate filaments with αB-crystallin, and it identifies interme... Read More about The cardiomyopathy and lens cataract mutation in αB-crystallin alters its protein structure, chaperone activity, and interaction withintermediate filaments in vitro.
Intermediate filament interactions can be altered by HSP27 and alphaB-crystallin (1999)
Journal Article
Perng, M., Cairns, L., van den IJssel, P., Prescott, A., Hutcheson, A., & Quinlan, R. (1999). Intermediate filament interactions can be altered by HSP27 and alphaB-crystallin. Journal of Cell Science, 112(13), 2099-2112
Gap junctions containing alpha 8-connexin (MP70) in the adult mammalianlens epithelium suggests a re-evaluation of its role in the lens (1999)
Journal Article
Dahm, R., Van Marle, J., Prescott, A., & Quinlan, R. (1999). Gap junctions containing alpha 8-connexin (MP70) in the adult mammalianlens epithelium suggests a re-evaluation of its role in the lens. Experimental Eye Research, 69(1), 45-56
Use of a drug-resistant mutant of stress-activated protein kinase2a/p38 to validate the in vivo specificity of SE 203580 (1999)
Journal Article
Eyers, P., van den Ijssel, P., Quinlan, R., Goedert, M., & Cohen, P. (1999). Use of a drug-resistant mutant of stress-activated protein kinase2a/p38 to validate the in vivo specificity of SE 203580. FEBS Letters, 451(2), 191-196
cDNA Cloning, Expression, and Assembly Characteristics of Mouse Keratin 16 (1998)
Journal Article
Porter, R., Hutcheson, A., Rugg, E., Quinlan, R., & Lane, E. (1998). cDNA Cloning, Expression, and Assembly Characteristics of Mouse Keratin 16. Journal of Biological Chemistry, 273(48), 32265-32272. https://doi.org/10.1074/jbc.273.48.32265There has been speculation as to the existence of the mouse equivalent of human type I keratin 16 (K16). The function of this keratin is particularly intriguing because, in normal epidermis, it is usually confined to hair follicles and only becomes e... Read More about cDNA Cloning, Expression, and Assembly Characteristics of Mouse Keratin 16.
Three murine cataract mutants (Cat2) are defective in differentgamma-crystallin genes (1998)
Journal Article
Klopp, N., Loster, J., Lutz, R., Neuhaauser-Klaus, A., Prescott, A., Pretsch, W., …Graw, J. (1998). Three murine cataract mutants (Cat2) are defective in differentgamma-crystallin genes. Genomics, 52(2), 152-158
Identification and functional analysis of the mouse lens filensin genepromoter (1998)
Journal Article
Masaki, S., Kamachi, Y., Quinlan, R., Yonezawa, S., & Kondoh, H. (1998). Identification and functional analysis of the mouse lens filensin genepromoter. Gene, 214(1-2), 77-86
Changes in the nucleolar and coiled body compartments precede laminaand chromatin reorganization during fibre cell denucleation in thebovine lens (1998)
Journal Article
Dahm, R., Gribbon, C., Quinlan, R., & Prescott, A. (1998). Changes in the nucleolar and coiled body compartments precede laminaand chromatin reorganization during fibre cell denucleation in thebovine lens. European Journal of Cell Biology, 75(3), 237-246. https://doi.org/10.1016/s0171-9335%2898%2980118-0
Gene structure and sequence comparisons of the eye lens specificprotein, filensin, from rat and mouse: implications for proteinclassification and assembly (1997)
Journal Article
Masaki, S., & Quinlan, R. (1997). Gene structure and sequence comparisons of the eye lens specificprotein, filensin, from rat and mouse: implications for proteinclassification and assembly. Gene, 201(1-2), 11-20
Distinct nuclear assembly pathways for lamins A and C lead to theirincrease during quiescence in Swiss 3T3 cells (1997)
Journal Article
Pugh, G., Coates, P., Lane, E., Raymond, Y., & Quinlan, R. (1997). Distinct nuclear assembly pathways for lamins A and C lead to theirincrease during quiescence in Swiss 3T3 cells. Journal of Cell Science, 110, 2483-2493
Cell cycle changes in A-type lamin associations detected in humandermal fibroblasts using monoclonal antibodies (1997)
Journal Article
Dyer, J., Kill, I., Pugh, G., Quinlan, R., Lane, E., & Hutchison, C. (1997). Cell cycle changes in A-type lamin associations detected in humandermal fibroblasts using monoclonal antibodies. Chromosome Research, 5(6), 383-394
Expression of crystallins, Pax6, filensin, CP49, MIP, and MP20 inlens-derived cell lines (1996)
Journal Article
Krausz, E., Augusteyn, R., Quinlan, R., Reddan, J., Russell, P., Sax, C., & Graw, J. (1996). Expression of crystallins, Pax6, filensin, CP49, MIP, and MP20 inlens-derived cell lines. Investigative Ophthalmology & Visual Science, 37(10), 2120-2128
The relative roles of specific N- and C-terminal phosphorylation sitesin the disassembly of intermediate filament in mitotic BHK-21 cells (1996)
Journal Article
Chou, Y., Opal, P., Quinlan, R., & Goldman, R. (1996). The relative roles of specific N- and C-terminal phosphorylation sitesin the disassembly of intermediate filament in mitotic BHK-21 cells. Journal of Cell Science, 109, 817-826
FILENSIN IS PROTEOLYTICALLY PROCESSED DURING LENS FIBERCELL-DIFFERENTIATION BY MULTIPLE INDEPENDENT PATHWAYS (1995)
Journal Article
Sandilands, A., Prescott, A., Hutcheson, A., QUINLAN, R., Casselman, J., & Fitzgerald, P. (1995). FILENSIN IS PROTEOLYTICALLY PROCESSED DURING LENS FIBERCELL-DIFFERENTIATION BY MULTIPLE INDEPENDENT PATHWAYS. European Journal of Cell Biology, 67(3), 238-253
VIMENTIN AND CP49 FILENSIN FORM DISTINCT NETWORKS IN THE LENS WHICH AREINDEPENDENTLY MODULATED DURING LENS FIBER CELL-DIFFERENTIATION (1995)
Journal Article
Sandilands, A., Prescott, A., Carter, J., Hutcheson, A., QUINLAN, R., Richards, J., & Fitzgerald, P. (1995). VIMENTIN AND CP49 FILENSIN FORM DISTINCT NETWORKS IN THE LENS WHICH AREINDEPENDENTLY MODULATED DURING LENS FIBER CELL-DIFFERENTIATION. Journal of Cell Science, 108, 1397-1406
IN-VITRO STUDIES ON THE ASSEMBLY PROPERTIES OF THE LENS PROTEINS CP49,CP115 - COASSEMBLY WITH ALPHA-CRYSTALLIN BUT NOT WITH VIMENTIN (1995)
Journal Article
Carter, J., Hutcheson, A., & QUINLAN, R. (1995). IN-VITRO STUDIES ON THE ASSEMBLY PROPERTIES OF THE LENS PROTEINS CP49,CP115 - COASSEMBLY WITH ALPHA-CRYSTALLIN BUT NOT WITH VIMENTIN. Experimental Eye Research, 60(2), 181-192
IDENTIFICATION OF 2 N-TERMINAL NON-ALPHA-HELICAL DOMAIN MOTIFSIMPORTANT IN THE ASSEMBLY OF GLIAL FIBRILLARY ACIDIC PROTEIN (1994)
Journal Article
Ralton, J., Lu, X., Hutcheson, A., & QUINLAN, R. (1994). IDENTIFICATION OF 2 N-TERMINAL NON-ALPHA-HELICAL DOMAIN MOTIFSIMPORTANT IN THE ASSEMBLY OF GLIAL FIBRILLARY ACIDIC PROTEIN. Journal of Cell Science, 107, 1935-1948
CHAPERONE ACTIVITY OF ALPHA-CRYSTALLINS MODULATES INTERMEDIATE FILAMENTASSEMBLY (1994)
Journal Article
Nicholl, I., & QUINLAN, R. (1994). CHAPERONE ACTIVITY OF ALPHA-CRYSTALLINS MODULATES INTERMEDIATE FILAMENTASSEMBLY. The EMBO Journal, 13(4), 945-953
NETWORK INCORPORATION OF INTERMEDIATE FILAMENT MOLECULES DIFFERSBETWEEN PREEXISTING AND NEWLY ASSEMBLING FILAMENTS (1993)
Journal Article
Lu, X., QUINLAN, R., Steel, J., & Lane, E. (1993). NETWORK INCORPORATION OF INTERMEDIATE FILAMENT MOLECULES DIFFERSBETWEEN PREEXISTING AND NEWLY ASSEMBLING FILAMENTS. Experimental Cell Research, 208(1), 218-225