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Target Concepts:
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Query: EC:3.1.30.1 (
S1 nuclease
)
3,660
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
beta 1,4-Galactosyltransferase (GalTase) is present on the plasma membrane of many cell types in addition to its traditional location within the Golgi compartment. Recently, the GalTase gene has been shown to encode two proteins that are identical throughout their length except that one has an additional 13-amino acid extension in its amino-terminal cytoplasmic domain. We present evidence here suggesting that the longer GalTase protein, containing this unique 13-amino acid peptide, is preferentially targeted to the plasma membrane, and the shorter GalTase protein resides primarily within the Golgi compartment.
S1 nuclease
protection assays of RNA from a variety of cells and tissues show that the relative abundance of the short and long GalTase mRNAs correlates with GalTase-specific activities in the Golgi and plasma membranes, respectively. Furthermore, transfection of cDNAs encoding either the long or short GalTase protein into F9
embryonal carcinoma
cells suggests that the long GalTase protein is preferentially expressed on the cell surface. These results propose a molecular distinction between the Golgi and cell surface forms of GalTase as well as a novel mechanism for targeting glycoproteins to the cell surface.
...
PMID:Evidence for a molecular distinction between Golgi and cell surface forms of beta 1,4-galactosyltransferase. 171 3
Expression of cytokeratin endo A has been analyzed during mouse blastocyst formation and
embryonal carcinoma
cell differentiation. To study the regulation of endo A expression,
nuclease S1
mapping experiments have been performed on RNA extracted from two-cell to 7.5-day embryos. Low levels of endo A mRNA begin to be detectable in eight-cell embryos. The amount of this mRNA increases at the blastocyst stage, suggesting that endo A expression is regulated at the mRNA level during blastocyst formation. At this stage, in situ hybridization studies show that endo A mRNA is present in the trophectoderm but not in the inner cell mass. In 7.5-day embryos, endo A mRNAs are also detectable in the endoderm layer and in the amnion.
...
PMID:Expression of the cytokeratin endo A gene during early mouse embryogenesis. 241 24
The transcriptional activity of five intracisternal A-particle (IAP) long terminal repeats (LTRs) in mouse
embryonal carcinoma
PCC3-A/1 cells and in Ltk- cells was determined. We tested the promoter activity of the LTRs by coupling them to the reporter gene chloramphenicol acetyltransferase (CAT) or guanosine-xanthine phosphoribosyltransferase (gpt). Each LTR was tested for promoter function in both the sense (5' to 3') and antisense (3' to 5') orientation preceding the reporter gene. The transcriptional activity of individual IAP gene LTRs varied considerably, and the LTR from IAP81 possessed promoter activity in both directions. The bidirectional activity of the IAP81 LTR confirmed by monitoring Ecogpt expression in stably transfected Ltk- cells, with the initiation sites for sense and antisense transcription being localized to within the IAP81 LTR by
S1 nuclease
mapping. Deletions of LTR81 show that for normal 5'-to-3' gene transcription (sense direction), the 3'U3/R region determines the basal level of transcription, whereas sequences within the 5'U3 region enhance transcription four- to fivefold. Deletion mapping for antisense transcription indicates that a 64-base-pair region (nucleotides 47 to 110) within the U3 region is essential for activity. These data indicate that the U3 region contains all the regulatory elements for bidirectional transcription in IAP LTRs.
...
PMID:Functional analysis of the long terminal repeats of intracisternal A-particle genes: sequences within the U3 region determine both the efficiency and direction of promoter activity. 245 71
The early gene product of simian virus 40, large tumor antigen (T antigen), is required for the onset of viral replication. This protein has also been reported to transactivate viral late gene expression, independently of replication. In this study I have used a vector that permits simultaneously a precise quantitation of simian virus 40 early and late promoter activity with a single
nuclease S1
mapping probe. The results show that T antigen can activate the early promoter as well as the late promoter and that only on replicating templates does a shift occur in the ratio of late-to-early transcription. This simultaneous transactivation of early and late promoters occurs in human (HeLa) and monkey (CV-1) cells but does not occur in mouse
embryonal carcinoma
cells. It is seen with either wild-type T antigen or with a T antigen protein that carries a mutation in the nuclear localization signal. The mutant protein cannot bring about an early-to-late shift, consistent with its inability to support viral replication.
...
PMID:Transactivation of both early and late simian virus 40 promoters by large tumor antigen does not require nuclear localization of the protein. 253 31
Hox-1.6, a mouse homeo-box-containing gene member of the Hox-1 complex, is described. The Hox-1.6 homeo-box shows more divergence than the other members of the complex with the Drosophila Antennapedia-like homeo-box class. This previously undescribed gene was studied with respect to its transcription pattern and was found to be expressed during mouse fetal development in an intestine-specific manner in adults, and in tumours or cell types exhibiting early endodermal-like differentiation. The study of embryonic partial Hox-1.6 cDNA clones revealed structural features common to other Drosophila and vertebrate homeo-box-containing genes, but also indicated that Hox-1.6 transcripts might display splicing patterns more complex than those known for other vertebrate homeo-genes. One of these cDNA clones contains a rather short open reading frame which would encode a protein of approximately 14.5 kd. The use of this clone as a probe for
S1 nuclease
mapping confirmed that different Hox-1.6 transcripts were present both in embryonic total RNA and in
embryonal carcinoma
cell cytoplasmic RNA. These various transcripts are probably generated by an alternative splicing mechanism and may thus encode a set of related proteins.
...
PMID:Hox-1.6: a mouse homeo-box-containing gene member of the Hox-1 complex. 289 3
Mouse Hoxb-4 (Hox-2.6) is a homeobox gene that belongs to a family which also includes Hoxa-4, Hoxc-4, and Hoxd-4 and that is related to the Deformed gene in Drosophila melanogaster. We have determined the sequence of 1.2 kb of 5' flanking DNA of mouse Hoxb-4 and by
nuclease S1
and primer extension experiments identified two transcription start sites, P1 and P2, 285 and 207 nucleotides upstream of the ATG initiator codon, respectively. We have shown that this region harbors two independent promoters which drive CAT expression in several different cell lines with various efficiencies, suggesting that they are subject to cell-type-specific regulation. Through detailed mutational analysis, we have identified several cis-regulatory elements, located upstream and downstream of the transcription start sites. They include two cell-type-specific negative regulatory elements, which are more active in F9
embryonal carcinoma
cells than in neuroblastoma cells (regions a and d at -226 to -186 and +169 to +205, respectively). An additional negative regulatory element has been delimited (region b between +22 and +113). Positive regulation is achieved by binding of HoxTF, a previously unknown factor, to the sequence GCCATTGG (+148 to +155) that is essential for efficient Hoxb-4 expression. We have also defined the minimal promoter sequences and found that they include two 12-bp initiator elements centered around each transcription start site. The complex architecture of the Hoxb-4 promoter provides the framework for fine-tuned transcriptional regulation during embryonic development.
...
PMID:Multiple positive and negative regulatory elements in the promoter of the mouse homeobox gene Hoxb-4. 796 51
ERK2 (extracellular-signal regulated kinase 2, also known as p42 mitogen-activated protein kinase) is an integral member of the mitogen-activated protein kinase cascade that is crucial for many cellular events such as proliferation and differentiation. Here, we determined the genomic organization of the Erk2 gene and characterized its promoter. The Erk2 gene spans over 60 kilobases, and the coding region is split into eight exons. In the coding region, exon-intron organization was exactly conserved between the two mouse genes for ERK2 and ERK1 except one junction shifted by one nucleotide. Primer extension and
S1 nuclease
analyses identified two major transcription start sites located at -219 and -223 relative to the translation start site. The 5'-flanking sequence lacked TATA box but contained a CCAAT box located approximately 60 base pairs upstream of transcription start sites. Sequencing of the 5'-flanking region also revealed potential cis-acting elements for multiple transcriptional regulatory factors including Sp1, zif268, Ets, CREB, and PuF sites. The promoter activity of the 5'-flanking region was examined using chloramphenicol acetyltransferase as a reporter gene. Transient transfection experiments using Chinese hamster ovary cells defined a maximal promoter activity in a 371-base pair region immediately upstream of the translation start site. Furthermore, we demonstrated, using mouse P19
embryonal carcinoma
cells, that this 371-base pair sequence is likely to be sufficient to confer the transcriptional activation of the ERK2 promoter during the retinoic acid-induced differentiation of P19 cells.
...
PMID:The mouse extracellular signal-regulated kinase 2 gene. Gene structure and characterization of the promoter. 926 Nov 78
