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

We have altered the specificity of U1 small nuclear RNA by replacing its 5' splice site recognition sequence (nucleotides 3 to 11) with sequences complementary to other regions of either the adenovirus E1A or the rabbit beta-globin mRNA precursor. We then used a HeLa cell transient expression assay to test whether such altered U1 small nuclear ribonucleoprotein particles (snRNPs) could interfere with splicing of the targeted mRNA precursors. The altered U1 snRNPs were able to cause novel splicing of the E1A mRNA precursor, minor changes in the ratio of E1A 12 to 13S mRNAs, and modest nuclear accumulation of beta-globin mRNA precursors with either one of the two introns removed. Most of the altered U1 snRNPs did not affect the level of mature cytoplasmic mRNA significantly, but in one case an altered U1 snRNP (alpha 1) whose intended target was located downstream from the adenovirus E1A 12S 5' splice site was able to reduce the level of cytoplasmic 12S mRNA by approximately 60% and that of 13S mRNA by 90%. This alpha 1 snRNP induced an additional E1A splice, resulting in the appearance of 10 and 11S E1A mRNAs normally found only late in adenovirus infection. Thus, a trans-acting factor can induce alternative splicing. Surprisingly, the effects of alpha 1 on E1A splicing were not abolished by deleting the intended target sequence on the mRNA precursor.
Mol Cell Biol 1989 Aug
PMID:A U1 small nuclear ribonucleoprotein particle with altered specificity induces alternative splicing of an adenovirus E1A mRNA precursor. 247 85

Phylogenetic analysis of extensive nucleotide sequence data from primate beta-globin gene clusters elucidates the systematics and evolution of the order Primates and reveals that rates of accumulation of mutations vary by as much as a factor of seven among different primate lineages. The picture of primate phylogeny from DNA sequences clarifies many ambiguities of the morphological picture. In the molecular picture, dwarf and brown lemurs group together into superfamily Lemuroidea, Lemuroidea and Lorisoidea into suborder Strepsirhini, and Tarsius and Anthropoidea into suborder Haplorhini. The molecular picture also provides both significant evidence for a human-chimpanzee clade that narrowly excludes gorilla and overwhelming evidence for the gorilla-chimpanzee-human clade within Hominoidea. Rates of DNA sequence evolution appear to have been fastest in the early primates ancestral to Anthropoidea and next fastest on the lorisoid branch. Rates were slowest over the past 25 Myr of hominoid descent, suggesting that mechanisms lowering the mutation rate evolved in correlation with lengthened life spans.
Mol Biol Evol 1989 Nov
PMID:A molecular view of primate phylogeny and important systematic and evolutionary questions. 248 74

Domestic sheep have two common alleles at the adult beta-globin locus, beta A and beta B. Here we report the structure of the beta-globin locus of A-haplotype sheep. The locus consists of 12 genes, organized as a triplicated 4-gene set: 5' epsilon 1-epsilon II-psi beta I-beta C-epsilon III-epsilon IV-psi beta II-beta A-epsilon V-epsilon VI-psi beta III-beta F 3'. This arrangement is identical to that of the closely related goat locus. Sheep with the B haplotype have a locus arrangement consisting of a duplicated four-gene set, lacking the beta C gene as well as three other genes present in A sheep and goats. In order to understand the evolutionary history of the B sheep locus, we have sequenced the beta B gene from these sheep, and the beta C gene from A-haplotype sheep, and compared the sequences to those of the sheep beta A, goat beta C, and beta A, and cow adult beta genes. Our results indicate that the beta B gene has diverged recently from the beta A gene, and therefore the beta B locus structure may have resulted from a recent deletion from a triplicated locus.
J Mol Evol 1989 Mar
PMID:A comparison of the beta A-and beta B-globin gene clusters of sheep. 249 47

Vertebrate cells synthesize two forms of the 82- to 90-kilodalton heat shock protein that are encoded by distinct gene families. In HeLa cells, both proteins (hsp89 alpha and hsp89 beta) are abundant under normal growth conditions and are synthesized at increased rates in response to heat stress. Only the larger form, hsp89 alpha, is induced by the adenovirus E1A gene product (M. C. Simon, K. Kitchener, H. T. Kao, E. Hickey, L. Weber, R. Voellmy, N. Heintz, and J. R. Nevins, Mol. Cell. Biol. 7:2884-2890, 1987). We have isolated a human hsp89 alpha gene that shows complete sequence identity with heat- and E1A-inducible cDNA used as a hybridization probe. The 5'-flanking region contained overlapping and inverted consensus heat shock control elements that can confer heat-inducible expression on a beta-globin reporter gene. The gene contained 10 intervening sequences. The first intron was located adjacent to the translation start codon, an arrangement also found in the Drosophila hsp82 gene. The spliced mRNA sequence contained a single open reading frame encoding an 84,564-dalton polypeptide showing high homology with the hsp82 to hsp90 proteins of other organisms. The deduced hsp89 alpha protein sequence differed from the human hsp89 beta sequence reported elsewhere (N. F. Rebbe, J. Ware, R. M. Bertina, P. Modrich, and D. W. Stafford (Gene 53:235-245, 1987) in at least 99 out of the 732 amino acids. Transcription of the hsp89 alpha gene was induced by serum during normal cell growth, but expression did not appear to be restricted to a particular stage of the cell cycle. hsp89 alpha mRNA was considerably more stable than the mRNA encoding hsp70, which can account for the higher constitutive rate of hsp89 synthesis in unstressed cells.
Mol Cell Biol 1989 Jun
PMID:Sequence and regulation of a gene encoding a human 89-kilodalton heat shock protein. 252 34

The human trk oncogene was generated by a genetic rearrangement that replaced the extracellular domain of the normal trk tyrosine kinase receptor by sequences coding for the 221 amino-terminal residues of a nonmuscle tropomyosin. Molecular dissection of a cDNA clone of the trk oncogene indicated that both the tropomyosin and tyrosine kinase domains were required for proper transforming activity. Replacement of nonmuscle tropomyosin sequences with those of other tropomyosin isoforms had no deleterious effect. However, when tropomyosin sequences were replaced with those of another cytoskeletal gene, such as beta-actin or beta-globin, transforming activity was completely abolished. These results illustrate the important role of tropomyosin sequences in endowing the trk kinase with transforming properties. Functionally unrelated subdomains of the tropomyosin molecule were equally efficient in activating the trk gene. Moreover, the transforming activity of the trk oncogene was not affected when its subcellular localization was drastically altered. Therefore, tropomyosin sequences are likely to contribute to the malignant activation of the trk oncogene not by facilitating its interaction with defined cytoskeletal structures as initially suspected, but by allowing its kinase domain to fold into a constitutively active configuration.
Mol Cell Biol 1989 Jan
PMID:Mechanism of activation of the human trk oncogene. 253 16

A negative regulatory element has been found within a member of the African green monkey Alu family of interspersed repeated sequences. This "reducer" element decreased transcription in both directions from a cellular simian virus 40-like bidirectional promoter independently of both orientation and position. The reducer was not promoter specific since it also decreased expression from the simian virus 40 early and human beta-globin promoters. In addition, the reducer decreased transcription from a polymerase III promoter. The reducer was contained in 38 base pairs of an Alu family member and interacted specifically with a monkey cell nuclear protein.
Mol Cell Biol 1989 Feb
PMID:A negative regulatory element with properties similar to those of enhancers is contained within an Alu sequence. 254 Apr 18

To examine the role of human beta-globin enhancers in tissue-specific and developmental regulation, a hybrid beta-globin-simian virus 40 gene was analyzed in transgenic mice. A beta-globin DNA fragment containing two previously defined enhancers stimulated transcription from the simian virus 40 promoter in a tissue- and stage-specific pattern similar to that of the normal beta-globin gene. These results help to define the functions of beta-globin regulatory elements and suggest an approach for targeted expression of heterologous genes in erythroid cells in vivo.
Mol Cell Biol 1989 Oct
PMID:Beta-globin enhancers target expression of a heterologous gene to erythroid tissues of transgenic mice. 255 96

src, abl, and fps/fes are prototypes for a family of genes encoding nonreceptor protein-tyrosine kinases. The oncogenic potential of the v-fps protein-tyrosine kinase was investigated by introduction of the gag-fps coding sequence of Fujinami sarcoma virus into the mouse germ line. Transgenic mice with v-fps under the transcriptional control of a 5' human beta-globin promoter (GF) or with both 5' and 3' beta-globin regulatory sequences (GEF) were viable. Unexpectedly, both GF and GEF transgenes were expressed in a wide variety of tissues and induced a spectrum of benign and malignant tumors. These tumors, which included lymphomas, thymomas, fibrosarcomas, angiosarcomas, hemangiomas, and neurofibrosarcomas, developed with various frequencies after latent periods of 2 to 12 months. The majority of lymphoid neoplasms appeared to be of T-cell origin and were monoclonal, as judged by rearrangements of the T-cell receptor beta or immunoglobulin genes. Some tissues that expressed the v-fps oncogene, such as heart, brain, lung, and testes, developed no malignant tumors. The v-fps protein-tyrosine kinase therefore has a broad but not unrestricted range of oncogenic activity in cells of lymphoid and mesenchymal origin. The incomplete penetrance of the neoplastic phenotype and the monoclonality of lymphoid tumors suggest that tumor formation in v-fps mice requires genetic or epigenetic events in addition to expression of the P130gag-fps protein-tyrosine kinase.
Mol Cell Biol 1989 Dec
PMID:Lymphoid and mesenchymal tumors in transgenic mice expressing the v-fps protein-tyrosine kinase. 255 99

The transcriptional enhancer effect is used in many, if not all, organisms for remote control of gene transcription. An enhancer DNA can dramatically stimulate transcription of a linked gene from positions either 5' or 3' to the gene. Both the proximal promoter and the distal enhancer sequences are binding sites for transcription factors. Interaction between promoter and enhancer is mediated by these factors, presumably via looping out of the intervening DNA. Here we report that the extent of remote activation by an enhancer depends on characteristics of that intervening DNA. Using Beta-globin and SV40 T-antigen test genes, we show that the effect of an SV40 enhancer is transmitted to the responsive promoter, with little or no loss of efficiency, through certain segments of mammalian DNA derived from rabbit beta-globin or mouse alpha-globin gene regions. By contrast, a strong reduction of enhancer activity is observed with certain spacer segments of prokaryotic DNA (from plasmid pBR322 or phage lambda) or sequences of high (G + C) content from eukaryotic genes. We have analyzed more closely sequences that are more or less permissive for transmission of the transcriptional enhancer effect. It appears that these permissive sequences generally have a high (A + T) content and notably a very low abundance of CpG dinucleotides. By contrast, (G + C)-rich DNA segments with high local densities of CpG were the most deleterious for long-range enhancer action. We note that the latter sequence composition is typical for "CpG islands" of many mammalian genes, including housekeeping genes and the human alpha-globin gene. This may be related to the finding that promoters of most cell type-specific genes, whose activity depends on a strong enhancer, do not contain CpG islands. Most likely, the spacer DNAs of typical cell type-specific genes have evolved to allow maximal transmission of the enhancer effect.
Somat Cell Mol Genet 1989 Nov
PMID:Long-range activation of transcription by SV40 enhancer is affected by "inhibitory" or "permissive" DNA sequences between enhancer and promoter. 255 1

Using an in vitro mRNA decay system, we investigated how poly(A) and its associated poly(A)-binding protein (PABP) affect mRNA stability. Cell extracts used in the decay reactions were depleted of functional PABP either by adding excess poly(A) competitor or by passing the extracts over a poly(A)-Sepharose column. Polyadenylated mRNAs for beta-globin, chloramphenicol acetyltransferase, and simian virus 40 virion proteins were degraded 3 to 10 times faster in reactions lacking PABP than in those containing excess PABP. The addition of purified Saccharomyces cerevisiae or human cytoplasmic PABP to PABP-depleted reactions stabilized the polyadenylated mRNAs. In contrast, the decay rates of nonpolyadenylated mRNAs were unaffected by PABP, indicating that both the poly(A) and its binding protein were required for maintaining mRNA stability. A nonspecific single-stranded binding protein from Escherichia coli did not restore stability to polyadenylated mRNA, and the stabilizing effect of PABP was inhibited by anti-PABP antibody. The poly(A) tract was the first mRNA segment to be degraded in PABP-depleted reactions, confirming that the poly(A)-PABP complex was protecting the 3' region from nucleolytic attack. These results indicate that an important function of poly(A), in conjunction with its binding protein, is to protect polyadenylated mRNAs from indiscriminate destruction by cellular nucleases. A model is proposed to explain how the stability of an mRNA could be affected by the stability of its poly(A)-PABP complex.
Mol Cell Biol 1989 Feb
PMID:The poly(A)-poly(A)-binding protein complex is a major determinant of mRNA stability in vitro. 256 32


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