Showing papers by "Phillip A. Sharp published in 1986"

A nuclear factor that binds to a conserved sequence motif in transcriptional control elements of immunoglobulin genes.

Abstract: Trans-acting factors that mediate B-cell specific transcription of immunoglobulin genes have been postulated based on an analysis of the expression of exogenously introduced immunoglobulin gene recombinants in lymphoid and non-lymphoid cells. Two B-cell-specific, cis-acting transcriptional regulatory elements have been identified. One element is located in the intron between the variable (V) and constant (C) regions of both heavy and κ light-chain genes and acts as a transcriptional enhancer1–6. The second element is found upstream of both heavy and κ light-chain gene promoters. This element directs lymphoid-specific transcription even in the presence of viral enhancers7–10. We have sought nuclear factors that might bind specifically to these two regulatory elements by application of a modified gel electrophoresis DNA binding assay11–13. We report here the identification of a human B-cell nuclear factor (IgNF-A) that binds to DNA sequences in the upstream regions of both the mouse heavy and κ light-chain gene promoters and also to the mouse heavy-chain gene enhancer. This sequence-specific binding is probably mediated by a highly conserved sequence motif, ATTTGCAT, present in all three transcriptional elements. Interestingly, a factor showing similar binding specificity to IgNF-A is also present in human HeLa cells.

Splicing of Messenger RNA Precursors

Abstract: A general mechanism for the splicing of nuclear messenger RNA precursors in eukaryotic cells has been widely accepted. This mechanism, which generates lariat RNAs possessing a branch site, seems related to the RNA-catalyzed reactions of self-splicing introns. The splicing of nuclear messenger RNA precursors involves the formation of a multicomponent complex, the spliceosome. This splicing body contains at least three different small nuclear ribonucleoprotein particles (snRNPs), U2, U5, and U4 + U6. A complex containing precursor RNA and the U2 snRNP particle is a likely intermediate in the formation of the spliceosome.

A lymphoid-specific protein binding to the octamer motif of immunoglobulin genes.

Abstract: Immunoglobulin gene promoters are active only in lymphoid cells and this tissue-specific activity requires an octamer sequence, ATTTGCAT. Paradoxically, this same octamer motif seems to be a transcriptional control element in promoters which are active in all tissues. Using an electrophoretic mobility shift assay to identify DNA binding proteins, we have now detected two species of nuclear proteins which bind specifically to this octamer. One previously characterized form (NF-A1) was found in all cell lines tested while the other form (NF-A2) was restricted to lymphoid cell lines. NF-A2 was found in cell lines representing all stages of B-cell differentiation and in half of the T-lymphoma cell lines tested. The identification of a lymphoid-specific octamer binding protein may account for the lymphoid-specific activity of immunoglobulin promoters.

A single polypeptide possesses the binding and transcription activities of the adenovirus major late transcription factor.

Abstract: A simple approach has been developed for the unambiguous identification and purification of sequence-specific DNA-binding proteins solely on the basis of their ability to bind selectively to their target sequences. Four independent methods were used to identify the promoter-specific RNA polymerase II transcription factor MLTF as a 46-kilodalton (kDa) polypeptide. First, a 46-kDa protein was specifically cross-linked by UV irradiation to a body-labeled DNA fragment containing the MLTF binding site. Second, MLTF sedimented through glycerol gradients at a rate corresponding to a protein of native molecular weight 45,000 to 50,000. Third, a 46-kDa protein was specifically retained on a biotin-streptavidin matrix only when the DNA fragment coupled to the matrix contained the MLTF binding site. Finally, proteins from the most highly purified fraction which were eluted and renatured from the 44- to 48-kDa region of a sodium dodecyl sulfate-polyacrylamide gel exhibited both binding and transcription-stimulatory activities. The DNA-binding activity was purified 100,000-fold by chromatography through three conventional columns plus a DNA affinity column. Purified MLTF was characterized with respect to the kinetic and thermodynamic properties of DNA binding. These parameters indicate a high degree of occupancy of MLTF binding sites in vivo.

Heterogeneous nuclear ribonucleoproteins: role in RNA splicing.

Abstract: Splicing in vitro of a messenger RNA (mRNA) precursor (pre-mRNA) is inhibited by a monoclonal antibody to the C proteins (anti-C) of the heterogeneous nuclear RNA (hnRNA)-ribonucleoprotein (hnRNP) particles. This antibody, 4F4, inhibits an early step of the reaction: cleavage at the 3' end of the upstream exon and the formation of the intron lariat. In contrast, boiled 4F4, or a different monoclonal antibody (designated 2B12) to the C proteins, or antibodies to other hnRNP proteins (120 and 68 kilodaltons) and nonimmune mouse antibodies have no inhibitory effect. The 4F4 antibody does not prevent the adenosine triphosphate-dependent formation of a 60S splicing complex (spliceosome). Furthermore, the 60S splicing complex contains C proteins, and it can be immunoprecipitated with 4F4. Depletion of C proteins from the splicing extract by immunoadsorption with either of the two monoclonal antibodies to the C proteins (4F4 or 2B12) results in the loss of splicing activity, whereas mock-depletion with nonimmune mouse antibodies bodies has no effect. A 60S splicing complex does not form in a C protein-depleted nuclear extract. These results indicate an essential role for proteins of the hnRNP complex in the splicing of mRNA precursors.

Affinity chromatography of splicing complexes: U2, U5, and U4 + U6 small nuclear ribonucleoprotein particles in the spliceosome

Abstract: The splicing process, which removes intervening sequences from messenger RNA (mRNA) precursors is essential to gene expression in eukaryotic cells. This site-specific process requires precise sequence recognition at the boundaries of an intervening sequence, but the mechanism of this recognition is not understood. The splicing of mRNA precursors occurs in a multicomponent complex termed the spliceosome. Such an assembly of components is likely to play a key role in specifying those sequences to be spliced. In order to analyze spliceosome structure, a stringent approach was developed to obtain splicing complexes free of cellular contaminants. This approach is a form of affinity chromatography based on the high specificity of the biotin-streptavidin interaction. A minimum of three subunits: U2, U5, and U4 + U6 small nuclear ribonucleoprotein particles were identified in the 35S spliceosome structure, which also contains the bipartite RNA intermediate of splicing. A 25S presplicing complex contained only the U2 particle. The multiple subunit structure of the spliceosome has implications for the regulation of a splicing event and for its possible catalysis by ribozyme or ribozymes.

Recombinant retroviruses encoding simian virus 40 large T antigen and polyomavirus large and middle T antigens.

Abstract: We used a murine retrovirus shuttle vector system to construct recombinants capable of constitutively expressing the simian virus 40 (SV40) large T antigen and the polyomavirus large and middle T antigens as well as resistance to G418. Subsequently, these recombinants were used to generate cell lines that produced defective helper-free retroviruses carrying each of the viral oncogenes. These recombinant retroviruses were used to analyze the role of the viral genes in transformation of rat F111 cells. Expression of the polyomavirus middle T antigen alone resulted in cell lines that were highly tumorigenic, whereas expression of the polyomavirus large T resulted in cell lines that were highly tumorigenic, whereas expression of the polyomavirus large T resulted in cell lines that were unaltered by the criteria of morphology, anchorage-independent growth, and tumorigenicity. More surprisingly, SV40 large T-expressing cell lines were not tumorigenic despite the fact that they contained elevated levels of cellular p53 and had a high plating efficiency in soft agar. These results suggest that the SV40 large T antigen is not an acute transforming gene like the polyomavirus middle T antigen but is similar to the establishment genes such as myc and adenovirus EIa.

Large T antigens of simian virus 40 and polyomavirus efficiently establish primary fibroblasts.

Abstract: Recombinant retroviruses that transduce the simian virus 40 (SV40) large T antigen or the polyomavirus large T antigen as well as encoding resistance to antibiotic G418 were used to investigate whether these genes alone were sufficient for immortalization of primary cells. The results provided definitive evidence that either viral gene can efficiently establish primary fibroblasts. The capability of the SV40 large T antigen to establish primary fibroblasts was undiminished by a mutation that alters its binding to sequences within the origin of replication. Surprisingly, most of the primary cells established by the expression of the SV40 large T antigen did not have a transformed phenotype. This suggests that transformation by SV40 is not simply due to a high level of expression of the SV40 large T antigen and stabilization of cellular p53.

Distinct factors bind to apparently homologous sequences in the immunoglobulin heavy-chain enhancer.

Abstract: The intron separating the variable- and constant-region exons of the rearranged immunoglobulin heavy-chain locus contains a lymphocyte-specific transcriptional enhancer The enhancer is a member of a class of cis-acting, tissue-specific, transcriptional control elements which are characterized by orientation-independent and relatively position-independent function In vivo analysis of the position of DNA-binding factors, by assessing the availability of specific bases to chemical modification, has identified four sequence clusters within the heavy-chain enhancer, denoted E1 to E4 (refs 3, 4) These sites are protected (that is, occupied) only in B lymphocytes A consensus sequence relationship (consensus CAGGTGGC) between these four sites was suggested where three of the sites conformed to the consensus in seven of eight positions while the other was homologus in six of eight positions We proposed that a single trans-acting factor might recognize all four sites Using an assay involving gel electrophoresis of DNA-protein complexes to detect sequence-specific DNA binding factors that recognize these related motifs, we have now identified a mouse B-cell nuclear factor (NF-muE1) which binds specifically to one such motif within the mouse heavy-chain gene enhancer This factor binds poorly, if at all, to the other related motifs, and other factors have been identified which interact preferentially with some of these latter motifs Dimethyl sulphate interference experiments suggest that the NF-muE1 factor is in contact with at least the guanine residues in the sequence GATGGCCGATC This factor seems to be present in both lymphoid and non-lymphoid cell lines

Analysis of RNA cleavage at the adenovirus-2 L3 polyadenylation site.

Abstract: Processing at the L3 polyadenylation site of human adenovirus-2 involves endonucleolytic cleavage generating the 3' terminal sequence -UAOH to which adenosine residues are added. This dinucleotide is 19 nucleotides downstream of the AAUAAA polyadenylation signal. The ATP analog cordycepin triphosphate (3' dATP) inhibits poly(A) synthesis, but precursor RNA is processed to give a product terminating in -UAAH. Addition of only one adenosine analog demonstrates that the initial poly(A) tract is synthesized by polymerization of single residues rather than by ligation of preformed poly(A). Cleavage is not coupled to polyadenylation since incubation with an ATP analog containing a non-hydrolyzable alpha--beta bond generates a product with a 3' terminus coincident with the -UAOH) addition site. Addition of this accurately processed RNA to a nuclear extract results in efficient polyadenylation, suggesting that downstream sequences are not required for synthesis of the poly(A) tract. Finally, processing at the L3 poly(A) site may involve both endonucleolytic and exonucleolytic activities.

Introduction of UAG, UAA, and UGA nonsense mutations at a specific site in the Escherichia coli chloramphenicol acetyltransferase gene: use in measurement of amber, ochre, and opal suppression in mammalian cells.

Abstract: We have used oligonucleotide-directed site-specific mutagenesis to convert serine codon 27 of the Escherichia coli chloramphenicol acetyltransferase (cat) gene to UAG, UAA, and UGA nonsense codons. The mutant cat genes, under transcriptional control of the Rous sarcoma virus long terminal repeat, were then introduced into mammalian cells by DNA transfection along with UAG, UAA, and UGA suppressor tRNA genes derived from a human serine tRNA. Assay for CAT enzymatic activity in extracts from such cells allowed us to detect and quantitate nonsense suppression in monkey CV-1 cells and mouse NIH3T3 cells. Using such an assay, we provide the first direct evidence that an opal suppressor tRNA gene is functional in mammalian cells. The pattern of suppression of the three cat nonsense mutations in bacteria suggests that the serine at position 27 of CAT can be replaced by a wide variety of amino acids without loss of enzymatic activity. Thus, these mutant cat genes should be generally useful for the quantitation of suppressor activity of suppressor tRNA genes introduced into cells and possibly for the detection of naturally occurring nonsense suppressors.

Detection of a homologous series of C26-C38 polyenoic fatty acids in the brain of patients without peroxisomes (Zellweger's syndrome).

Abstract: The brains of patients with inherited abnormalities in peroxisomal structure and function contain greatly increased proportions of a homologous series of unique polyenoic fatty acids with carbon chain lengths ranging from 26 to 38. Based on evidence by chemical ionization and electron impact mass spectrometry before and after catalytic hydrogenation, and argentation t.l.c., these lipids have been tentatively identified as 26:5, 28:5, 30:5, 30:6, 30:7, 32:5, 32:6, 32:7, 34:5 and 34:6 fatty acids. A further two fatty acids eluting at very high temperatures from gas chromatography columns have been tentatively identified on the basis of their chemical ionization mass spectra as 36:6 and 38:6 fatty acids.

DNA Tumor Viruses: Control of Gene Expression and Replication

Abstract: This book contains eight sections, each consisting of several papers The sections are: Introduction, Transcription; Regulation of Transcription; RNA Processing and Translation; Transformation; Transforming Proteins; Replication; and Papillomaviruses