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Query: EC:2.3.1.28 (
chloramphenicol acetyltransferase
)
5,100
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previous transfection experiments have shown that 162 base pairs (bp) of the 5' flanking sequence of the chicken alpha A-crystallin gene are required for promoter activity in primary chicken lens epithelial cells (PLE), while only 111 bp of the 5' flanking sequence are needed for activity of the mouse alpha A-crystallin promoter in transfected chicken PLE cells or in a SV40 T-antigen-transformed transfected mouse lens epithelial cell line (alpha TN4-1). The effect of site-directed mutations covering positions -111 to -34 of the mouse alpha A-crystallin promoter fused to the bacterial
chloramphenicol acetyltransferase
(
CAT
) gene was compared in transfected chicken PLE cells and mouse alpha TN4-1 cells; selected mutations were also examined in a nontransformed rabbit lens epithelial cell line (N/N1003A). In general, the same mutations reduced promoter activity in the transfected lens cells from all three species, although differences were noted. The mutations severely affected regions -111/-106 and -69/-40 regions in all the transfected cells examined; by contrast, mutations at positions -105/-99 and -87/-70 had a somewhat greater effect in the chicken PLE than the mouse alpha TN4-1 cells, while mutations of the -93/-88 sequence reduced expression in the alpha TN4-1 but not the PLE cells. A partial cDNA with sequence similarity to alpha A-CRYPB1 of the mouse has been isolated from a chicken lens library; mouse alpha A-
CRYBP1
is a putative transcription factor which binds to the -66/-55 sequence of the mouse alpha A-crystallin promoter.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Conservation of mouse alpha A-crystallin promoter activity in chicken lens epithelial cells. 140 19
Previous studies have implicated the DE-1 (-111/-106) and alpha A-
CRYBP1
(-66/-57) sites for activity of the mouse alpha A-crystallin promoter in transiently transfected lens cells. Here we have used the bacterial
chloramphenicol acetyltransferase
(
CAT
) reporter gene to test the functional importance of the putative DE-1 and alpha A-
CRYBP1
regulatory elements by site-specific and deletion mutagenesis in stably transformed alpha TN4-1 lens cells and in transgenic mice. FVB/N and C57BL/6 x SJL F2 hybrid transgenic mice were assayed for
CAT
activity in the lens, heart, lung, kidney, spleen, liver, cerebrum, and muscle. F0, F1, and F2 mice from multiple lines carrying single mutations of the DE-1 or alpha A-
CRYBP1
sites showed high levels of
CAT
activity in the lens, but not in any of the non-lens tissues. By contrast, despite activity of the wild-type promoter, none of the mutant promoter/
CAT
constructs were active in the transiently transfected and stably transformed lens cells. The mice carrying transgenes with either site-specific mutations in both the DE-1 and alpha A-
CRYBP1
sites or a deletion of the entire DE-1 and part of the alpha A-
CRYBP1
site (-60/+46) fused to the
CAT
gene did not exhibit
CAT
activity above background in any of the tissues examined, including the lens. Our results thus indicate that the DE-1 and alpha A-
CRYBP1
sites are functionally redundant in transgenic mice. Moreover, the present data coupled with previous transfection and transgenic mouse experiments suggest that this functional redundancy is confined to lens expression within the mouse and is not evident in transiently transfected and stably transformed lens cells, making the cultured lens cells sensitive indicators of functional elements of crystallin genes.
...
PMID:Functional redundancy of the DE-1 and alpha A-CRYBP1 regulatory sites of the mouse alpha A-crystallin promoter. 833 60
alpha A-crystallin is an abundant soluble protein of the vertebrate eye lens. In addition to the TATA box, four positive cis-regulatory elements of the chicken alpha A-crystallin gene have been identified by linker scanning mutagenesis, DNase I footprinting, and gel mobility shift experiments. The regulatory elements described here have been named DE2A (at positions -144 to -134), DE2B (at positions -128 to -118), and DE1A (at positions -114 to -103). DE2A and DE2B form a dyad of symmetry between positions -141 and -118 (5'-AGACTGTCAT....AGGTCAGTCT-3'), consistent with the close similarity in the mobility of complexes formed with lens nuclear proteins by these two elements. Mutations in DE2A, DE2B, and DE1A leading to loss of promoter activity using the bacterial
chloramphenicol acetyltransferase
reporter gene transfected into primary embryonic chicken lens epithelial cells resulted in a corresponding loss in the ability to compete for complex formation with lens nuclear proteins in gel mobility shift assays. Mutation of the alpha A-
CRYBP1
-like site (-67/-57), necessary for function of the mouse alpha A-crystallin promoter, did not affect the activity of the chicken promoter. The DNase I footprinting and gel mobility shift experiments confirmed the previously noted binding of nuclear proteins to a dyad of symmetry at positions -153 to -140. In contrast to DE2A, DE2B, and DE1A, mutagenesis and gel mobility shift experiments failed to correlate function and protein binding for the -153/-140 dyad. DE2A, DE2B, and DE1A agree well with the regulatory elements alpha CE1 (-162/-134), alpha CE3 (-135/-121), and alpha CE2 (-119/-99) (Matsuo, I., and Yasuda, K. (1992) Nucleic Acids Res. 20, 3701-3712) for this gene. The present results suggest, however, that the lens enhancer activity of alpha CE1 is due to the sequence -141/-134, which forms the upper half of the DE2A/DE2B dyad of symmetry, rather than the -153/-140 dyad as previously suspected.
...
PMID:Functional elements DE2A, DE2B, and DE1A and the TATA box are required for activity of the chicken alpha A-crystallin gene in transfected lens epithelial cells. 845 50
