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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)
To further define the transcriptional regulation of the
P38
promoter in the minute virus of mice (MVM) genome, we constructed a series of internal deletion and linker scanning mutations. The mutant
P38
constructs were assayed for transcriptional activity in vitro by primer extension analysis with nuclear extracts from murine A92L fibroblasts. Mutations which disrupted the GC box and TATA box severely reduced transcription in vitro. DNase I footprinting analysis confirmed that the murine transcription factor Sp1 bound to the GC box; however, no factors were observed interacting with a putative transcriptional activation regulatory element, termed the TAR element. The linker scanning mutations were analyzed in vivo by using a
chloramphenicol acetyltransferase
expression assay system, in both the presence and absence of constructs expressing the viral nonstructural protein, NS1. The ability of NS1 to transactivate the
P38
promoter (up to 1,000-fold) depended entirely on the presence of intact GC and TATA box sequences. Disruption of the TAR element by either linker insertion mutations or an internal deletion did not inhibit transactivation of the
P38
promoter. These results suggest that NS1 transactivates the
P38
promoter indirectly by interacting with one or more components of the
P38
core-transcription complex.
...
PMID:The GC box and TATA transcription control elements in the P38 promoter of the minute virus of mice are necessary and sufficient for transactivation by the nonstructural protein NS1. 158 30
A consensus sequence in parvovirus nonstructural protein NS1 has been predicted to be an ATP-binding domain associated with an ATPase and a DNA helicase activity. To investigate the function of NS1 in viral gene expression, a site-directed mutagenesis converting NS1 lysine 405 to serine in parvovirus H-1 was carried out by the polymerase chain reaction. As shown previously, a parvovirus genome containing a deleted NS1 gene was excised from a bacterial plasmid and replicated when a wild-type NS1 gene was provided in trans but failed to be excised and replicate when the mutant NS1 gene was supplied. Interestingly, the serine 405 mutation totally lost the activity of trans activation on the virus late promoter (
P38
) in a
chloramphenicol acetyltransferase
(
CAT
) assay and it lost evidence for cytotoxicity in two tumor cell lines (HeLa Gey and NB324K). The serine 405 NS1 protein was translocated normally to the nucleus. These results suggest that the NS1 lysine 405 of H-1 in its putative purine nucleotide-binding site is essential for viral DNA replication and that this domain may be involved in the regulation of the
P38
promoter by an unknown mechanism. The loss of NS1 cytotoxicity on tumor cells suggests that NS1 expression is the major cause of cell killing by parvoviruses, which may facilitate further study of the mechanism of oncosuppression by parvoviruses.
...
PMID:Mutation of lysine 405 to serine in the parvovirus H-1 NS1 abolishes its functions for viral DNA replication, late promoter trans activation, and cytotoxicity. 214 94
The cotransfection of selectable marker genes and the gene for the nonstructural proteins NS1 and NS2 of the autonomous parvovirus H-1 failed to produce cell lines that constitutively expressed NS1. A plasmid, pP38NS1cat, was constructed that expressed the NS1-NS2 gene from the H-1
P38
coat protein promoter in place of the natural P4 promoter. The
P38
promoter is constitutively weak and is trans-activated by NS1. Stable cell lines were isolated that contained pP38NS1cat that was constitutively silent, but inducible with exogenous NS1 by superinfection or by treatment with sodium butyrate. The cells that were induced for this self-stimulatory genetic circuit did not remain in the culture, suggesting that expression of NS1-NS2 is cytotoxic or that the expression is not sustained. The properties of these cell lines and an example of the construction of a cell line inducible for expression of the viral coat protein gene and the bacterial gene for
chloramphenicol acetyltransferase
(cat) are described.
...
PMID:Construction of a genetic switch for inducible trans-activation of gene expression in eucaryotic cells. 303 74
The parvovirus early protein NS1 positively regulates the expression of the
P38
promoter for the viral capsid protein gene. We have examined the trans-activation of
P38
by NS1 by using fusions of
P38
to the reporter gene,
chloramphenicol acetyltransferase
(cat). Maximal trans-activation requires a small 5' cis element (tar) between -137 and -116. The tar element has activity in both orientations when 5' to the
P38
promoter, but no activity has been detected 3' to the promoter. The wild-type
P38
has a biphasic response to NS1 depending on the dosage of the NS1-expressing plasmid. Promoters lacking the tar also have a biphasic response that is reduced about 10-fold, and they can be inhibited by larger doses of the NS1 plasmid. Heterologous promoters from other viruses and the Harvey-ras oncogene promoter are inhibited by NS1. Truncated and internally deleted versions of NS1 lose the trans-activation, but some of them retain the inhibitory properties. Thus transactivation can be uncoupled from inhibition. The tar element has shown no activity with the heterologous simian virus 40 early promoter. In contrast, the
P38
promoter responds to a heterologous enhancer, but the enhanced promoter loses activity to trans-activation by NS1. In summary, the
P38
tar element has some of the properties of an enhancer with a high preference for a 5' position and a stringent requirement for the
P38
promoter.
...
PMID:Characterization of the trans-activation-responsive element of the parvovirus H-1 P38 promoter. 361 51
The autonomously replicating parvoviruses contain a 5-kilobase linear single-stranded DNA genome that produces two noncapsid proteins, N1 and N2, and two overlapping capsid proteins, VP1 and VP2. To characterize the regulation of viral transcription, we began with a study of the promoter for the coat proteins (
P38
) at map unit 38. Various constructions containing the
P38
promoter were fused to the bacterial gene for
chloramphenicol acetyltransferase
(cat), and the relative efficiency of expression was determined in the presence and absence of parvovirus gene products. Our results show that the
P38
promoter is a weak promoter without a trans-activation mediated by the 76,000-molecular-weight (76K) N1 protein. The N1 protein, supplied either by superinfection with virus or cotransfection with the cloned N1 gene, increased greatly the expression of the
P38
promoter. In addition, sequences 3' to the promoter, within the region + 127 to + 648 (assuming an mRNA start site at 2008), were required for optimal expression but not for trans-activation. These results suggest that the production of parvovirus capsid proteins is under the indirect control of the P4 promoter and one of its gene products.
...
PMID:trans-Activation of parvovirus P38 promoter by the 76K noncapsid protein. 402 Sep 72
In this work, we report the transduction of a
chloramphenicol acetyltransferase
(
CAT
) reporter gene into a variety of normal and transformed human cells of various tissue origins. The vector used was MVM/P38cat, a recombinant of the prototype strain of the autonomous parvovirus minute virus of mice (MVMp). The
CAT
gene was inserted into the capsid-encoding region of the infectious molecular clone of MVMp genome, under the control of the MVM
P38
promoter. When used to transfect permissive cells, the MVM/P38cat DNA was efficiently replicated and expressed the foreign
CAT
gene at high levels. By cotransfecting with a helper plasmid expressing the capsid proteins, it was possible to produce mixed virus stocks containing MVM/P38cat infectious particles and variable amounts of recombinant MVM. MVM/P38cat viral particles were successfully used to transfer the
CAT
gene and to express it in a variety of human cells. Both viral DNA replication and
P38
-driven
CAT
expression were achieved in fibroblasts, epithelial cells, T lymphocytes, and macrophages in a transformation-dependent way, but with an efficiency depending on the cell type. In transformed B lymphocytes, however, the vector was not replicated, nor did it express the
CAT
gene.
...
PMID:Use of an autonomous parvovirus vector for selective transfer of a foreign gene into transformed human cells of different tissue origins and its expression therein. 810 3
Aleutian mink disease parvovirus (ADV) infection causes both acute and chronic disease in mink, and we have previously shown that it is the level of viral gene expression that determines the disease pattern. To study the gene regulation of ADV, we have cloned the P3 ADV and P36 ADV promoters in front of a reporter gene, the
chloramphenicol acetyltransferase
(
CAT
) gene, and analyzed these constructs by transient transfection in a feline kidney cell line and mouse NIH 3T3 cells. The genes for ADV structural proteins (VP1 and VP2) and the nonstructural proteins (NS-1, NS-2, and NS-3) were cloned into a eukaryotic expression vector, and their functions in regulation of the P3 ADV and P36 ADV promoters were examined in cotransfection experiments. The ADV NS-1 protein was able to transactivate the P36 ADV promoter and, to a lesser degree, the P3 ADV promoter. Constitutive activities of the P3 ADV and P36 ADV promoters were weaker than those of the corresponding promoters from the prototypic parvovirus minute virus of mice (MVM) and canine parvovirus (CPV). Also, the level of transactivation of the P36 ADV promoter was much lower than those of the corresponding
P38
MVM and
P38
CPV promoters transactivated with MVM NS-1. Moreover, the ADV NS-1 gene product could transactivate the
P38
MVM promoter to higher levels than it could transactivate the P36 ADV promoter, while the P36 ADV promoter could be transactivated by MVM NS-1 and ADV NS-1 to similar levels. Taken together, these data indicated that cis-acting sequences in the P36 ADV promoter play a major role in determining the low level of transactivation observed. The P3 ADV and P4 MVM promoters could be transactivated to some degree by their respective NS-1 gene products. However, in contrast to the situation for the late promoters, switching NS-1 proteins between the two viruses was not possible. This finding may indicate a different mechanism of transactivation of the early promoters (P3 ADV and P4 MVM) compared with the late (P36 ADV and
P38
MVM) promoters. In summary, the constitutive levels of expression from the ADV promoters are weaker than the levels from the corresponding promoters of MVM and CPV. Moreover, the level of NS-1-mediated transactivation of the late ADV promoter is impaired compared with the level of transactivation of the late promoters of MVM and CPV.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Comparison of promoter activity in Aleutian mink disease parvovirus, minute virus of mice, and canine parvovirus: possible role of weak promoters in the pathogenesis of Aleutian mink disease parvovirus infection. 838 15
