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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)
The
aldolase C
gene product is a glycolytic isoenzyme specifically detected in brain. We have previously defined a short 115-base pair promoter fragment able to confer on a reporter
chloramphenicol acetyltransferase
(
CAT
) gene a specific expression in brain of transgenic mice. In this promoter fragment, two GC-rich regions (A/A' and B boxes) were detected by in vitro DNase1 footprinting experiments with brain, fibroblast, or liver nuclear extracts. Both A/A' and B boxes, sharing structural homology, are able to interact with Sp1, Krox20/Krox24 factors and with other proteins (Thomas, M., Makeh, I., Briand, P., Kahn, A., and Skala, H. (1993) Eur. J. Biochem. 218, 143-151). In this paper, we describe a new ubiquitous factor termed Ub able to bind the A/A' box. We also delimit a third element (box C) binding a hepatocyte-enriched protein displaced by a hepatocyte nuclear factor 3-specific oligonucleotide. The functional involvement of each binding site in brain-specific transcription of the
aldolase C
gene has been tested in transgenic mice carrying different mutant promoters cloned in front of the
CAT
gene. A promoter containing only box C was totally inactive, suggesting an essential role of the region containing A/A' and B boxes. However, mutations or deletions of either the A/A' or the B box have no significant effect on the
CAT
gene expression. We therefore hypothesize that the A/A' and B sites may be functionally redundant. Indeed, constructs harboring only one of these two boxes (A/A' or B) linked to the C box displayed a brain-specific
CAT
activity similar to that obtained with the wild-type promoter. Furthermore, a transgene with disruption of the C box, keeping intact the A/A' and B boxes, was totally inactive, suggesting a crucial role of the hepatocyte nuclear factor 3 binding site in activation of the
aldolase C
gene.
...
PMID:Functional dissection of the brain-specific rat aldolase C gene promoter in transgenic mice. Essential role of two GC-rich boxes and an HNF3 binding site. 765 3
The glycosomes of trypanosomes are related to eukaryotic peroxisomes. For many glycosomal and peroxisomal proteins, a C-terminal SKL-like tripeptide known as PTS-1 serves as the targeting signal. For peroxisomes, a second N-terminal signal (PTS-2) was demonstrated on rat 3-ketoacyl-CoA thiolase. Several glycosomal proteins do not bear a PTS-1. One such protein,
fructose bisphosphate aldolase
, has a PTS-2 homology at its N-terminus. To find out whether the PTS-2 pathway exists in trypanosomes, we expressed
chloramphenicol acetyltransferase
fusion proteins bearing N-terminal segments of either rat thiolase or trypanosome aldolase. The mammalian PTS-2 clearly mediated glycosomal import. The aldolase N-terminus mediated import with variable efficiency depending on the length of the appended sequence. These results provide evidence for the existence of the PTS-2 pathway in trypanosomes.
...
PMID:Function of N-terminal import signals in trypanosome microbodies. 788 54
Aldolase C mRNA is detected by Northern blot in all fetal tissues in rat; it is very abundant in the adult brain and undetectable in the other adult tissues. However, reverse transcriptase polymerase chain reaction amplification indicates that this gene is not totally repressed in these tissues. A DNase-I hypersensitivity site located in a 115-base pair proximal promoter fragment is detectable in the brain as well as in other adult tissues. Two MspI/HpaII restriction sites located at -3800 and -450 base pairs are demethylated in the brain and totally or partially methylated in other tissues. In transgenic mice, a 12.5-kilobase genomic fragment is strongly and tissue specifically expressed in different lines, with conservation of a methylation pattern similar to that of the endogenous gene. A
chloramphenicol acetyltransferase
gene directed by either 800 or 115 base pairs of
aldolase C
5'-flanking sequences is tissue specifically expressed in transgenic mice, but the level of expression is very low. This level is greatly increased when the transgene consists of a
chloramphenicol acetyltransferase
hybrid gene directed by 5.5 kilobases of
aldolase C
5'-flanking sequences. We propose therefore that the chromatin structure around the
aldolase C
promoter is accessible in fetal tissues, then remains open in the adult brain, where the gene is very active, as well as in tissues in which it is practically inactive. The specificity of expression in the brain is conferred by a short 115-base pair proximal promoter fragment that needs more upstream sequences to be fully active.
...
PMID:Analysis of a brain-specific isozyme. Expression and chromatin structure of the rat aldolase C gene and transgenes. 830 81
The rat
aldolase C
gene encodes a glycolytic enzyme strongly expressed in adult brain. We previously reported that a 115-base pair (bp) promoter fragment was able to ensure the brain-specific expression of the
chloramphenicol acetyltransferase
(
CAT
) reporter gene in transgenic mice, but only at a low level (Thomas, M., Makeh, I., Briand, P., Kahn, A., and Skala, H. (1993) Eur. J. Biochem. 218, 143-151). Here we show that in vivo activation of this promoter at a high level requires cooperation between an upstream 0.6-kilobase pair (kb) fragment and far upstream sequences. In the 0.6-kb region, a 28-bp DNA element is shown to include overlapping in vitro binding sites for POU domain regulatory proteins and for the Winged Helix hepatocyte nuclear factor-3beta factor. An hepatocyte nuclear factor-3beta-binding site previously described in the short proximal promoter fragment is also shown to interact in vitro with POU proteins, although with a lower affinity than the 28-bp motif. Additional binding sites for POU factors were detected in the upstream 0.6-kb sequences. Progressive deletion in this region resulted in decreased expression levels of the transgenes in mice, suggesting synergistic interactions between these multiple POU-binding sites. We propose that DNA elements characterized by a dual binding specificity for both POU domain and Winged Helix transcription factors could play an essential role in the brain-specific expression of the
aldolase C
gene and other neuronal genes.
...
PMID:Upstream elements involved in vivo in activation of the brain-specific rat aldolase C gene. Role of binding sites for POU and winged helix proteins. 982 47
We previously reported that the rat
aldolase C
115 bp promoter is sufficient to ensure the brain specific expression of the
chloramphenicol acetyltransferase
reporter gene in transgenic mice. We identify in a further reduced 84 bp promoter several putative binding sites for the transcriptional factors Sp1, USF, AP1, and AP2. Deletion or mutation of these partially overlapping binding sites results in inactivation of the cognate transgenes. Moreover, we show that the 115 bp sequence is able to direct bidirectional transcription in vivo but, surprisingly, transcriptional activity in the opposite direction is no more brain specific.
...
PMID:Bidirectional activity and orientation-dependent specificity of the rat aldolase C promoter in transgenic mice. 1141 29
The rat
aldolase C
gene encodes a glycolytic enzyme strongly expressed in adult brain. We previously reported that a combination of distal and proximal 5' flanking sequences, the A + C + 0.8 kilobase (kb) pairs fragments, ensured high brain-specific expression in vivo (Skala et al. 1998). We show here that the expression pattern conferred by these sequences, when placed in front of the
chloramphenicol acetyltransferase
(
CAT
) or the enhanced green fluorescent protein (EGFP) reporter genes in transgenic mice, is similar to the distribution of the endogenous mRNA and protein. Double immunostaining for neuronal or glial cell-specific markers and for the EGFP protein indicates that the A + C + 0.8 kb genomic sequences from the rat
aldolase C
gene direct a predominant expression in neuronal cells of adult brain.
...
PMID:Neuronal expression of enhanced green fluorescent protein directed by 5' flanking sequences of the rat aldolase C gene in transgenic mice. 1471 81
