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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Single nucleotide changes to the sequence between two alternative 5' splice sites, separated by 25 nucleotides in a beta-globin gene derivative, caused substantial shifts in pre-mRNA splicing preferences, both in vivo and in vitro. An activating sequence for splicing was located. Models for the recognition by U1 small nuclear ribonucleoproteins (snRNPs) of competing 5' splice sites were tested by altering the distance separating the two sites. Use of the upstream splice site declined sharply when it was separated from the downstream (natural) site by distances of 40 nucleotides or more. This effect was reversed in vivo, but not in vitro, by altering the upstream sequence to that of a consensus 5' splice site sequence. Dilution of an extract used for splicing in vitro shifted preferences when the sites were close towards the downstream site. We conclude that the mechanism of selection depends on the distance apart of the potential splice sites and that with close sites steric interference between factors bound to both sites may impede splicing and affect splicing preferences.
J Mol Biol 1991 Jan 20
PMID:Influences of separation and adjacent sequences on the use of alternative 5' splice sites. 182 20

Transcription of the rabbit alpha-globin gene begins primarily at the cap site, although some upstream start sites are also observed. Analysis by RNA polymerase run-on assays in nuclei shows that transcription continues at a high level past the polyadenylation site, after which the polymerase density actually increases in a region of about 400 nucleotides, followed by a gradual decline over the 700 nucleotides. These features are also observed in the transcription unit of the rabbit beta-globin gene. The region with the unexpectedly high nascent RNA hybridization signal in the 3' flank contains a conserved sequence, KGCAGCWGGR (K = G or T, W = A or T, R = A or G), followed by an inverted repeat. The inverted repeat (perhaps with the conserved sequence) may be a pause site for RNA polymerase II, thus accounting for the increase in polymerase density. This sequence and inverted repeat are found in the 3' flank of several globin genes and the simian virus 40 (SV40) early genes, as well as in the regions implicated in pausing or termination of transcription of eight different genes. Deletion of the conserved sequence and inverted repeat from the 3' flank of the SV40 early region causes a small increase in the levels of transcription downstream from this site. Replacement with the conserved sequence and inverted repeat from the rabbit alpha-globin gene causes an accumulation of polymerases, supporting the hypothesis that polymerases pause at this site. This proposed pause site may affect the efficiency of termination at some sites further downstream, perhaps by loss of a processivity factor.
J Mol Biol 1991 Jul 20
PMID:An apparent pause site in the transcription unit of the rabbit alpha-globin gene. 185 60

The major positive regulatory activity of the human alpha-globin gene complex has been localized to an element associated with a strong erythroid-specific DNase I hypersensitive site (HS -40) located 40 kb upstream of the zeta 2-globin mRNA cap site. Footprint and gel shift analyses of the element have demonstrated the presence of four binding sites for the nuclear factor GATA-1 and two sites corresponding to the AP-1 consensus binding sequence. This region resembles one of the major elements of the beta-globin locus control region in its constitution and characteristics; this together with evidence from expression studies suggests that HS -40 is a primary element controlling alpha-globin gene expression.
Mol Cell Biol 1991 Sep
PMID:Characterization of the major regulatory element upstream of the human alpha-globin gene cluster. 187 46

A stable transfection assay was used to test the mechanism by which embryonic globin gene transcription is stimulated in adult erythroid cells exposed to butyric acid and its analogs. To test the appropriate expression and inducibility of chicken globin genes in murine erythroleukemia (MEL) cells, an adult chicken beta-globin gene construct was stably transfected. The chicken beta-globin gene was found to be coregulated with the endogenous adult mouse alpha-globin gene following induction of erythroid differentiation of the transfected MEL cells by incubation with either 2% dimethyl sulfoxide (DMSO) or 1 mM sodium butyrate (NaB). In contrast, a stably transfected embryonic chicken beta-type globin gene, rho, was downregulated during DMSO-induced MEL cell differentiation. However, incubation with NaB, which induces MEL cell differentiation, or alpha-amino butyrate, which does not induce differentiation of MEL cells, resulted in markedly increased levels of transcription from the stably transfected rho gene. Analysis of histone modification showed that induction of rho gene expression was not correlated with increased bulk histone acetylation. A region of 5'-flanking sequence extending from -569 to -725 bp upstream of the rho gene cap site was found to be required for both downregulation of rho gene expression during DMSO-induced differentiation and upregulation by treatment with NaB or alpha-amino butyrate. These data are support for a novel mechanism by which butyrate compounds can alter cellular gene expression through specific DNA sequences. The results reported here are also evidence that 5'-flanking sequences are involved in the suppression of embryonic globin gene expression in terminally differentiated adult erythroid cells.
Mol Cell Biol 1991 Sep
PMID:5'-flanking sequences mediate butyrate stimulation of embryonic globin gene expression in adult erythroid cells. 187 47

The nucleotide substitution rate in structural portions of the embryonic beta-globin genes of placental mammals is lower than that for the adult beta-globin genes. This difference occurs entirely within the class of substitutions that result in nonsynonymous (replacement) differences between these genes, and therefore represents a constraint on the structure of the mammalian embryonic beta-globin proteins relative to the adult proteins (Shapiro et al. 1983; Hardison 1984). A similar effect has also been observed in marsupial mammals (Koop and Goodman 1988). In an effort to determine whether the observed rates are evidence of a uniform degree of selective constraint on the embryonic beta-globin genes, analyses were performed that compared replacement substitution rates. The analyses reveal that embryonic beta-globin genes appear to have been fixing replacement substitutions at nearly the same average rate not only in placental and marsupial mammals but in avian and amphibian species as well. In contrast, the adult beta-globin genes from these organisms appear to have a more variable rate of replacement substitution with an especially low rate for birds. In the chicken (Gallus gallus), the adult beta-globin gene replacement substitution rate appears to be lower than the embryonic replacement substitution rate.
J Mol Evol 1991 Feb
PMID:Uniformity in the nonsynonymous substitution rates of embryonic beta-globin genes of several vertebrate species. 190 Oct 91

This paper is concerned with the divergence of synonymous codon usage and its bias in three homologous genes within vertebrate species. Genetic distances among species are described in terms of synonymous codon usage divergence and the correlation is found between the genetic distances and taxonomic distances among species under study. A codon usage clock is reported in alpha-globin and beta-globin. A method is developed to define the synonymous codon preference bias and it is observed that the bias changes considerably among species.
J Mol Evol 1991 Jan
PMID:Codon usage divergence of homologous vertebrate genes and codon usage clock. 190 69

An AU-rich sequence present within the 3' untranslated region has been shown to mark some short-lived mRNAs for rapid degradation. We demonstrate by label transfer and gel shift experiments that a 32-kDa polypeptide, present in nuclear extracts, specifically interacts with the AU-rich domains present within the 3' untranslated region of human granulocyte-macrophage colony-stimulating factor, c-fos, and c-myc mRNAs and a similar domain downstream of the poly(A) addition site of the adenovirus IVa2 mRNA. Competition experiments and partial protease analysis indicated that the same polypeptide interacts with all four RNAs. A single AUUUA sequence in a U-rich context was sufficient to signal binding of the 32-kDa polypeptide. Insertion of three copies of this minimal recognition site led to markedly reduced accumulation of beta-globin RNA, while the same insert carrying a series of U-to-G changes had little effect on RNA levels. Steady-state levels of beta-globin-specific nuclear RNA, including incompletely processed RNA, and cytoplasmic mRNA were reduced. Cytoplasmic mRNA containing the AU-rich recognition sites for the 32-kDa polypeptide exhibited a half-life shorter than that of mRNA with a mutated insert. We suggest that binding of the 32-kDa polypeptide may be involved in the regulation of mRNA half-life.
Mol Cell Biol 1991 Jun
PMID:A 32-kilodalton protein binds to AU-rich domains in the 3' untranslated regions of rapidly degraded mRNAs. 190 42

Model pre-mRNAs containing two introns and three exons, derived from the human beta-globin gene, were used to study the effects of internal exon length on splice site selection. Splicing was assayed in vitro in HeLa nuclear extracts and in vivo during transient expression in transfected HeLa cells. For substrates with internal exons 87, 104, and 171 nucleotides in length, in vitro splicing proceeded via a regular splicing pathway, in which all three exons were included in the spliced product. Primary transcripts with internal exons containing 23, 29, and 33 nucleotides were spliced by an alternative pathway, in which the first exon was joined directly to the third one. The internal exon was missing from the spliced product and together with two flanking introns was included in a large lariat structure. The same patterns of splicing were retained when transcripts containing 171-, 33-, and 29-nucleotide-long internal exons were spliced in vivo. A transcript containing a 51-nucleotide-long exon was spliced in vitro via both pathways but in vivo generated only a correctly spliced product. Skipping of short internal exons was reversed both in vitro and in vivo when purines in the upstream polypyrimidine tract were replaced by pyrimidines. The changes in the polypyrimidine tract achieved by these substitutions led in vitro to complete (transcripts containing 28 pyrimidines in a row) or partial (transcripts containing 15 pyrimidines in a row) restoration of a regular splicing pathway. Splicing in vivo of these transcripts led exclusively to the spliced product containing all three exons. These results suggest that a balance between the length of the uninterrupted polypyrimidine tract and the length of the exon is an important determinant of the relative strength of the splice sites, ensuring correct splicing patterns of multiintron pre-mRNAs.
Mol Cell Biol 1991 Dec
PMID:Selection of splice sites in pre-mRNAs with short internal exons. 194 77

The existence of torsional stress in eukaryotic chromatin has been controversial. To determine whether it could be detected, we probed the structure of an alternating AT tract. These sequences adopt cruciform geometry when the DNA helix is torsionally strained by negative supercoiling. The single-strand-specific nuclease P1 was used to determine the structure of an alternating AT sequence upstream of the Xenopus beta-globin gene when assembled into chromatin in microinjected Xenopus oocytes. The pattern of cleavage by P1 nuclease strongly suggests that the DNA in this chromatin template is under torsional stress. The cruciform was detected specifically in the most fully reconstituted templates at later stages of chromatin assembly, suggesting that negative supercoiling is associated with chromatin maturation. Furthermore, the number of torsionally strained templates increased dramatically at the time when transcription of assembled chromatin templates began. Transcription itself has been shown to induce supercoiling, but the requisite negative supercoiling for cruciform extrusion by (AT)n in oocytes was not generated in this way since the characteristic P1 cutting pattern was retained even when RNA polymerase elongation was blocked with alpha-amanitin. Thus, torsional stress is associated with transcriptional activation of chromatin templates in the absence of ongoing transcription.
Mol Cell Biol 1991 Dec
PMID:Evidence for torsional stress in transcriptionally activated chromatin. 194 80

In recent years it has become apparent that tropic hormones involved in steroidogenesis act to regulate the expression of the enzymes involved in the various steroidogenic pathways. This is particularly evident in the ovary where the episodic secretion of steroids throughout the ovarian cycle is regulated largely by changes in the levels of the particular enzymes involved in each step of the steroid biosynthetic pathways. Recently, the genes for the various cytochrome P450 species involved in ovarian steroidogenesis, namely cholesterol side-chain cleavage P450 (P450SCC), 17 alpha-hydroxylase P450 (P450(17 alpha], and aromatase cytochrome P450 (P450AROM) have been isolated and characterized, making it possible to study the regulation of expression at the molecular level. To this end, a series of chimeric constructs have been prepared in which fragments of the 5'-untranslated region of bovine P450(17 alpha) and P450SCC have been inserted upstream of the chloramphenicol acetyl transferase (CAT) and beta-globin reporter genes. These constructs have been used to transfect primary cultures of bovine luteal and thecal cells. The results indicate that cAMP responsiveness lies within defined regions of genes which do not contain a classical CRE, similar to previous results utilizing adrenal cells in culture. Furthermore, although constructs containing both the P450(17 alpha) and P450SCC 5'-upstream regions are expressed in both luteal and thecal cell cultures, only those containing the P450SCC sequences are expressed in luteal cells. Studies on the expression of P450AROM indicate that the promoter which is responsible for its expression in human placenta is not operative in the corpus luteum. Thus estrogen biosynthesis may be regulated by the differential use of tissue specific promoters, thus accounting for the complexity and multifactorial nature of the expression of this activity.
J Steroid Biochem Mol Biol 1991
PMID:Regulation of expression of the genes encoding steroidogenic enzymes. 195 46


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