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Full-Text Articles in Dermatology
Abca12-Mediated Lipid Transport And Snap29-Dependent Trafficking Of Lamellar Granules Are Crucial For Epidermal Morphogenesis In A Zebrafish Model Of Ichthyosis., Qiaoli Li, Michael Frank, Masashi Akiyama, Shiu-Ying Ho, Hiroshi Shimizu, Christine Thisse, Bernard Thisse, Eli Sprecher, Jouni Uitto
Abca12-Mediated Lipid Transport And Snap29-Dependent Trafficking Of Lamellar Granules Are Crucial For Epidermal Morphogenesis In A Zebrafish Model Of Ichthyosis., Qiaoli Li, Michael Frank, Masashi Akiyama, Shiu-Ying Ho, Hiroshi Shimizu, Christine Thisse, Bernard Thisse, Eli Sprecher, Jouni Uitto
Department of Dermatology and Cutaneous Biology Faculty Papers
Zebrafish (Danio rerio) can serve as a model system to study heritable skin diseases. The skin is rapidly developed during the first 5-6 days of embryonic growth, accompanied by expression of skin-specific genes. Transmission electron microscopy (TEM) of wild-type zebrafish at day 5 reveals a two-cell-layer epidermis separated from the underlying collagenous stroma by a basement membrane with fully developed hemidesmosomes. Scanning electron microscopy (SEM) reveals an ordered surface contour of keratinocytes with discrete microridges. To gain insight into epidermal morphogenesis, we have employed morpholino-mediated knockdown of the abca12 and snap29 genes, which are crucial for secretion of lipids and …
R992c (P.R1192c) Substitution In Collagen Ii Alters The Structure Of Mutant Molecules And Induces The Unfolded Protein Response., Hye Jin Chung, Deborah A. Jensen, Katarzyna Gawron, Andrzej Steplewski, Andrzej Fertala
R992c (P.R1192c) Substitution In Collagen Ii Alters The Structure Of Mutant Molecules And Induces The Unfolded Protein Response., Hye Jin Chung, Deborah A. Jensen, Katarzyna Gawron, Andrzej Steplewski, Andrzej Fertala
Department of Dermatology and Cutaneous Biology Faculty Papers
We investigated the molecular bases of spondyloepiphyseal dysplasia (SED) associated with the R992C (p.R1192C) substitution in collagen II. At the protein level, we analyzed the structure and integrity of mutant molecules, and at the cellular level, we specifically studied the effects of the presence of the R992C collagen II on the biological processes taking place in host cells. Our studies demonstrated that mutant collagen II molecules were characterized by altered electrophoretic mobility, relatively low thermostability, the presence of atypical disulfide bonds, and slow rates of secretion into the extracellular space. Analyses of cellular responses to the presence of the mutant …