Add to ORKGThe elements regulating lens-specific expression of the mouse γF-crystallin gene were examined. Here we show that mouse γF-crystallin sequences -67 to +45 contain a low basal level of lens-specific promoter activity and that sequences -67 to -25, which are highly conserved among different γ-crystallin genes, are able to function as a strong transcriptional activator when duplicated and placed upstream of the TATA box. We also show that nuclear factors from lens and nonlens cells are able to form different complexes with sequences centered at -46 to -36 and demonstrate that binding of the factor from lens cells correlates with lens-specific promoter activity of the mouse γF-crystallin gene.link_to_OA_fulltex
Using the polymerase chain reaction (PCR) and RNA blot analysis. we have examined the differential e...
During hominoid evolution the γ-crystallins of the lens have decreased in quantity as well as comple...
AbstractThe transcriptional activation of tissue-specific genes during terminal differentiation must...
Previous studies have shown that mouse γF-crystallin sequences -759 to +45, which include the core p...
Crystallins are the major water-soluble proteins in vertebrate eye lenses. These lens-specific prote...
Rat lens nuclear extracts contain a factor that binds to position- 57 to- 46 of the rat 7D-crystalli...
Using gene-specific probes derived from four mouse γ-crystallin cDNAs, we have examined the regulati...
γ-Crystallin genes are specifically expressed in the eye-lens. Their promoters constitute excellent ...
Cell lines derived from the lens generally fail to maintain synthesis of crystallins in long-term cu...
Gene regulation by enhancers is important for precise temporal and spatial gene expression. Enhancer...
Gamma-crystallin genes are specifically expressed in the eye lens. Their promoters constitute excell...
The promoter of the murine γE-crystallin (γE-Cry) encoding gene (γ(E-cry) was anal...
The vertebrate lens is a classical system for examining mechanisms of tissue determination and diffe...
The tumor suppressor, p53 regulates a large number of target genes to control cell proliferation and...
The 5 ' flanking regions of the six rat 7-crystallln genes (7A-7F) are all capable of conferrin...
Using the polymerase chain reaction (PCR) and RNA blot analysis. we have examined the differential e...
During hominoid evolution the γ-crystallins of the lens have decreased in quantity as well as comple...
AbstractThe transcriptional activation of tissue-specific genes during terminal differentiation must...
Previous studies have shown that mouse γF-crystallin sequences -759 to +45, which include the core p...
Crystallins are the major water-soluble proteins in vertebrate eye lenses. These lens-specific prote...
Rat lens nuclear extracts contain a factor that binds to position- 57 to- 46 of the rat 7D-crystalli...
Using gene-specific probes derived from four mouse γ-crystallin cDNAs, we have examined the regulati...
γ-Crystallin genes are specifically expressed in the eye-lens. Their promoters constitute excellent ...
Cell lines derived from the lens generally fail to maintain synthesis of crystallins in long-term cu...
Gene regulation by enhancers is important for precise temporal and spatial gene expression. Enhancer...
Gamma-crystallin genes are specifically expressed in the eye lens. Their promoters constitute excell...
The promoter of the murine γE-crystallin (γE-Cry) encoding gene (γ(E-cry) was anal...
The vertebrate lens is a classical system for examining mechanisms of tissue determination and diffe...
The tumor suppressor, p53 regulates a large number of target genes to control cell proliferation and...
The 5 ' flanking regions of the six rat 7-crystallln genes (7A-7F) are all capable of conferrin...
Using the polymerase chain reaction (PCR) and RNA blot analysis. we have examined the differential e...
During hominoid evolution the γ-crystallins of the lens have decreased in quantity as well as comple...
AbstractThe transcriptional activation of tissue-specific genes during terminal differentiation must...