Mutation of a termination codon affects src initiation

Translation of the downstream ORF from bicistronic mRNAs by human cells: Impact of codon usage and splicing in the upstream ORF

Biochemistry textbooks describe eukaryotic mRNAs as monocistronic. However, increasing evidence reveals the widespread presence and translation of upstream open reading frames preceding the "main" ORF. DNA and RNA viruses infecting eukaryotes often produce polycistronic mRNAs and viruses have evolved multiple ways of manipulating the host's translation machinery. Here, we introduce an experimental model to study gene expression regulation from virus-like bicistronic mRNAs in human cells. The model consists of a short upstream ORF and a reporter downstream ORF encoding a fluorescent protein. We have engineered synonymous variants of the upstream ORF to explore large parameter space, including codon usage preferences, mRNA folding features, and splicing propensity. We show that human translation machinery can translate the downstream ORF from bicistronic mRNAs, albeit reporter protein levels are thousand times lower than those from the upstream ORF. Furthermore, synonymous recoding of the upstream ORF exclusively during elongation significantly influences its own translation efficiency, reveals cryptic splice signals, and modulates the probability of downstream ORF translation. Our results are consistent with a leaky scanning mechanism facilitating downstream ORF translation from bicistronic mRNAs in human cells, offering new insights into the role of upstream ORFs in translation regulation.

Rous sarcoma virus translation revisited: characterization of an internal ribosome entry segment in the 5' leader of the genomic RNA

The 5' leader of Rous sarcoma virus (RSV) genomic RNA and of retroviruses in general is long and contains stable secondary structures that are critical in the early and late steps of virus replication such as RNA dimerization and packaging and in the process of reverse transcription. The initiation of RSV Gag translation has been reported to be 5' cap dependent and controlled by three short open reading frames located in the 380-nucleotide leader upstream of the Gag start codon. Translation of RSV Gag would thus differ from that prevailing in other retroviruses such as murine leukemia virus, reticuloendotheliosis virus type A, and simian immunodeficiency virus, in which an internal ribosome entry segment (IRES) in the 5' end of the genomic RNA directs efficient Gag expression despite stable 5' secondary structures. This prompted us to investigate whether RSV Gag translation might be controlled by an IRES-dependent mechanism. The results show that the 5' leaders of RSV and v-Src RNA exhibit IRES properties, since these viral elements can promote efficient translation of monocistronic RNAs in conditions inhibiting 5' cap-dependent translation. When inserted between two cistrons in a canonical bicistronic construct, both the RSV and v-Src leaders promote expression of the 3' cistron. A genetic analysis of the RSV leader allowed the identification of two nonoverlapping 5' and 3' leader domains with IRES activity. In addition, the v-Src leader was found to contain unique 3' sequences promoting an efficient reinitiation of translation. Taken together, these data lead us to propose a new model for RSV translation.

The first and third uORFs in RSV leader RNA are efficiently translated: implications for translational regulation and viral RNA packaging

Rous sarcoma virus (RSV) RNA leader contains three short upstream open reading frames. We have shown recently that both uORFs 1 and 3 influence in vivo translation of the downstream gag gene and are involved in the virus RNA packaging process. In this report, we have studied the translational events occurring at the upstream AUGs in vivo. We show that (i) the first and third AUGs are efficient translational initiation sites; (ii) ribosomes reinitiate efficiently at AUG3; and (iii) deletions in the intercistronic distance between uORF1 and 3 (which is well conserved among avian strains) prevent ribosome initiation at AUG3, thus increasing translation efficiency at the downstream AUGgag. The roles of the uORFs in translation and packaging are discussed.

Alterations of the three short open reading frames in the Rous sarcoma virus leader RNA modulate viral replication and gene expression

The Rous sarcoma virus (RSV) leader RNA has three short open reading frames (ORF1 to ORF3) which are conserved in all avian sarcoma-leukosis retroviruses. Effects on virus propagation were determined following three types of alterations in the ORFs: (i) replacement of AUG initiation codons in order to prohibit ORF translation, (ii) alterations of the codon context around the AUG initiation codon to enhance translation of the normally silent ORF3, and (iii) elongation of the ORF coding sequences. Mutagenesis of the AUG codons for ORF1 and ORF2 (AUG1 and AUG2) singly or together delayed the onset of viral replication and cell transformation. In contrast, mutagenesis of AUG3 almost completely suppressed these viral activities. Mutagenesis of ORF3 to enhance its translation inhibited viral propagation. When the mutant ORF3 included an additional frameshift mutation which extended the ORF beyond the initiation site for the gag, gag-pol, and env proteins, host cells were initially transformed but died soon thereafter. Elongation of ORF1 from 7 to 62 codons led to the accumulation of transformation-defective virus with a delayed onset of replication. In contrast, viruses with elongation of ORF1 from 7 to 30 codons, ORF2 from 16 to 48 codons, or ORF3 from 9 to 64 codons, without any alterations in the AUG context, exhibited wild-type phenotypes. These results are consistent with a model that translation of the ORFs is necessary to facilitate virus production.

Mechanism of translation of monocistronic and multicistronic human immunodeficiency virus type 1 mRNAs

We have used a panel of cDNA clones expressing wild-type and mutant human immunodeficiency virus type 1 (HIV-1) mRNAs to study translation of these mRNAs in eucaryotic cells. The tat open reading frame (ORF) has a strong signal for translation initiation, while rev and vpu ORFs have weaker signals. The expression of downstream ORFs is inhibited in mRNAs that contain the tat ORF as the first ORF. In contrast, downstream ORFs are expressed efficiently from mRNAs that have rev or vpu as the first ORF. All env mRNAs contain the upstream vpu ORF. Expression of HIV-1 Env protein requires a weak vpu AUG, which allows leaky scanning to occur, thereby allowing ribosomes access to the downstream env ORF. We concluded that HIV-1 mRNAs are translated by the scanning mechanism and that expression of more than one protein from each mRNA was caused by leaky scanning at the first AUG of the mRNA.

Mechanism of translation of monocistronic and multicistronic human immunodeficiency virus type 1 mRNAs

We have used a panel of cDNA clones expressing wild-type and mutant human immunodeficiency virus type 1 (HIV-1) mRNAs to study translation of these mRNAs in eucaryotic cells. The tat open reading frame (ORF) has a strong signal for translation initiation, while rev and vpu ORFs have weaker signals. The expression of downstream ORFs is inhibited in mRNAs that contain the tat ORF as the first ORF. In contrast, downstream ORFs are expressed efficiently from mRNAs that have rev or vpu as the first ORF. All env mRNAs contain the upstream vpu ORF. Expression of HIV-1 Env protein requires a weak vpu AUG, which allows leaky scanning to occur, thereby allowing ribosomes access to the downstream env ORF. We concluded that HIV-1 mRNAs are translated by the scanning mechanism and that expression of more than one protein from each mRNA was caused by leaky scanning at the first AUG of the mRNA.

Protein truncation is required for the activation of the c-myb proto-oncogene

The protein product of the v-myb oncogene of avian myeloblastosis virus, v-Myb, differs from its normal cellular counterpart, c-Myb, by (i) expression under the control of a strong viral long terminal repeat, (ii) truncation of both its amino and carboxyl termini, (iii) replacement of these termini by virally encoded residues, and (iv) substitution of 11 amino acid residues. We had previously shown that neither the virally encoded termini nor the amino acid substitutions are required for transformation by v-Myb. We have now constructed avian retroviruses that express full-length or singly truncated forms of c-Myb and have tested them for the transformation of chicken bone marrow cells. We conclude that truncation of either the amino or carboxyl terminus of c-Myb is sufficient for transformation. In contrast, the overexpression of full-length c-Myb does not result in transformation. We have also shown that the amino acid substitutions of v-Myb by themselves are not sufficient for the activation of c-Myb. Rather, the presence of either the normal amino or carboxyl terminus of c-Myb can suppress transformation when fused to v-Myb. Cells transformed by c-Myb proteins truncated at either their amino or carboxyl terminus appear to be granulated promyelocytes that express the Mim-1 protein. Cells transformed by a doubly truncated c-Myb protein are not granulated but do express the Mim-1 protein, in contrast to monoblasts transformed by v-Myb that neither contain granules nor express Mim-1. These results suggest that various alterations of c-Myb itself may determine the lineage of differentiating hematopoietic cells.

Protein truncation is required for the activation of the c-myb proto-oncogene

The protein product of the v-myb oncogene of avian myeloblastosis virus, v-Myb, differs from its normal cellular counterpart, c-Myb, by (i) expression under the control of a strong viral long terminal repeat, (ii) truncation of both its amino and carboxyl termini, (iii) replacement of these termini by virally encoded residues, and (iv) substitution of 11 amino acid residues. We had previously shown that neither the virally encoded termini nor the amino acid substitutions are required for transformation by v-Myb. We have now constructed avian retroviruses that express full-length or singly truncated forms of c-Myb and have tested them for the transformation of chicken bone marrow cells. We conclude that truncation of either the amino or carboxyl terminus of c-Myb is sufficient for transformation. In contrast, the overexpression of full-length c-Myb does not result in transformation. We have also shown that the amino acid substitutions of v-Myb by themselves are not sufficient for the activation of c-Myb. Rather, the presence of either the normal amino or carboxyl terminus of c-Myb can suppress transformation when fused to v-Myb. Cells transformed by c-Myb proteins truncated at either their amino or carboxyl terminus appear to be granulated promyelocytes that express the Mim-1 protein. Cells transformed by a doubly truncated c-Myb protein are not granulated but do express the Mim-1 protein, in contrast to monoblasts transformed by v-Myb that neither contain granules nor express Mim-1. These results suggest that various alterations of c-Myb itself may determine the lineage of differentiating hematopoietic cells.

Molecular characterization of the vaccinia virus hemagglutinin gene

The vaccinia virus hemagglutinin (HA) is a glycoprotein found on the plasma membrane of infected cells and the envelope of extracellular virus. Two forms of HA (85 and 68 kDa) are detected by immunoblot analysis. Although hemagglutination activity is only readily detectable late in infection, the 85-kDa HA appears early and accumulates throughout infection, whereas the 68-kDa form appears only late in the cycle. Production of the 68-kDa HA but not the 85-kDa HA was inhibited by either cytosine arabinoside or rifampin. Analysis of HA gene expression reveals a complex pattern of expression. The HA gene is transcribed early to yield a 1.65-kb dicistronic early transcript, consisting of the 945-bp HA open reading frame (ORF) fused to a 453-bp downstream ORF. Transcription from this site initiates 7 bases upstream of the AUG initiating codon of the HA ORF. Due to the discrepancy between the calculated size of the HA protein (33 kDa) and that reported for the unglycosylated HA protein derived from in vitro translation (58 kDa), we placed an early transcription termination signal (TTTTTAT) directly downstream of the 945-bp HA ORF. This led to a reduction in size of the early HA mRNA to 1.2 kb, as expected, but had no effect on the formation of either the 85- or 68-kDa protein. Transcripts originating from the early promoter are found throughout the infection cycle. However, after DNA replication, transcription from a second, late promoter ensues. The transcriptional start site of the late promoter is within a consensus TAAATG sequence located 135 bases upstream of the transcriptional start site of the first promoter. The late transcriptional start site is also found within an upstream ORF.

A frame-shift mutation in the androgen receptor gene causes complete androgen insensitivity in the testicular-feminized mouse

The testicular feminized (Tfm) mouse lacks completely androgen responsiveness; and therefore, is unique for studying the role of androgenic steroids in different biological processes. In order to understand the molecular basis of this mutation, 2.8 kilobases of cDNA encoding the Tfm mouse androgen receptor (AR) were amplified with a polymerase chain reaction (PCR) technique. No large deletion in the coding region of the Tfm mouse AR was detected. However, sequence analysis revealed a single base deletion in the coding region of the Tfm AR mRNA. This mutation, which is located in the amino-terminus domain of the receptor, is predicted to cause a frame-shift in translation resulting in a premature termination of AR synthesis at amino acid 412. In vitro translation studies of the recombinant wild type and Tfm AR's demonstrated that the Tfm AR cDNA failed to produce a full-length receptor. Furthermore, the Tfm AR was demonstrated to lack transcriptional activation capability by cotransfection experiments using the Tfm AR with a reporter plasmid of mouse mammary tumor virus long terminal repeat linked to the chloramphenicol acetyltransferase gene. These studies provide evidence of the molecular defect which causes androgen insensitivity in the Tfm mouse.

Complementation between avirulent Newcastle disease virus and a fusion protein gene expressed from a retrovirus vector: requirements for membrane fusion

The cDNA derived from the fusion gene of the virulent AV strain of Newcastle disease virus (NDV) was expressed in chicken embryo cells by using a retrovirus vector. The fusion protein expressed in this system was transported to the cell surface and was efficiently cleaved into the disulfide-linked F1-F2 form found in infectious virions. The cells expressing the fusion gene grew normally and could be passaged many times. Monolayers of these cells would plaque, in the absence of trypsin, avirulent NDV strains (strains which encode a fusion protein which is not cleaved in tissue culture). Fusion protein-expressing cells would not fuse if mixed with uninfected cells or uninfected cells expressing the hemagglutinin-neuraminidase (HN) protein. However, the fusion protein-expressing cells, if infected with avirulent strains of NDV, would fuse with uninfected cells, suggesting that fusion requires both the fusion protein and another viral protein expressed in the same cell. Fusion was also seen after transfection of the HN protein gene into fusion protein-expressing cells. Thus, the expressed fusion protein gene is capable of complementing the virus infection, providing an active cleaved fusion protein required for the spread of infection. However, the fusion protein does not mediate cell fusion unless the cell also expresses the HN protein. Fusion protein-expressing cells would not plaque influenza virus in the absence of trypsin, nor would influenza virus-infected fusion protein-expressing cells fuse with uninfected cells. Thus, the influenza virus HA protein will not substitute for the NDV HN protein in cell-to-cell fusion.

Eukaryotic coupled translation of tandem cistrons: identification of the influenza B virus BM2 polypeptide

Previous nucleotide sequence analysis of RNA segment 7 of influenza B virus indicated that, in addition to the reading frame encoding the 248 amino acid M1 protein, there is a second overlapping reading frame (BM2ORF) of 585 nucleotides that has the coding capacity for 195 amino acids. To search for a polypeptide product derived from BM2ORF, a genetically engineered beta-galactosidase-BM2ORF fusion protein was expressed in Escherichia coli and a polyclonal rabbit antiserum was raised to the purified fusion protein. This antiserum was used to identify a polypeptide, designated BM2 protein (Mr approximately equal to 12,000), that is synthesized in influenza B virus-infected cells. To understand the mechanism by which the BM2 protein is generated from influenza B virus RNA segment 7, a mutational analysis of the cloned DNA was performed and the altered DNAs were expressed in eukaryotic cells. The expression patterns of the M1 and BM2 proteins from the altered DNAs indicate that the BM2 protein initiation codon overlaps with the termination codon of the M1 protein in an overlapping translational stop-start pentanucleotide, TAATG, and that the expression of the BM2 protein requires 5'-adjacent termination of M1 synthesis. Our data suggest that a termination-reinitiation scheme is used in translation of a bicistronic mRNA derived from influenza B virus RNA segment 7, and this strategy has some analogy to prokaryotic coupled stop-start translation of tandem cistrons.

Structure of germ line immunoglobulin alpha heavy-chain RNA and its location on polysomes

We describe the structure of the major germ line RNA transcribed from unrearranged immunoglobulin alpha heavy-chain genes in immunoglobulin M-expressing cells of the I.29 mu B-cell lymphoma, a cell line capable of switching to immunoglobulin A expression upon lipopolysaccharide treatment. This germ line alpha RNA has a small open reading frame that does not include the C alpha domain, and this RNA appears to be present on polysomes in I.29 mu cells.

Structure of germ line immunoglobulin alpha heavy-chain RNA and its location on polysomes

We describe the structure of the major germ line RNA transcribed from unrearranged immunoglobulin alpha heavy-chain genes in immunoglobulin M-expressing cells of the I.29 mu B-cell lymphoma, a cell line capable of switching to immunoglobulin A expression upon lipopolysaccharide treatment. This germ line alpha RNA has a small open reading frame that does not include the C alpha domain, and this RNA appears to be present on polysomes in I.29 mu cells.

A mutation in the short 5'-proximal open reading frame on Rous sarcoma virus RNA alters virus production

The 5'-proximal open reading frame on Rous sarcoma virus RNA encodes a seven-amino-acid peptide and is conserved in all avian sarcoma-leukosis retroviruses. Ribosome-binding site analysis in intact chick cells showed that the 5'-proximal AUG codon is a strong site for initiation of translation in vivo. Removal of the 5'-proximal AUG codon by site-specific mutagenesis resulted in a virus with a reduced ability either to replicate or to transform a population of chicken embryo fibroblasts. These results establish a procedure for determining sites of ribosome binding and initiation of translation on mRNAs in intact eucaryotic cells and strongly suggest that the 5'-proximal open reading frame (or its AUG codon) on Rous sarcoma virus RNA has an important role in regulating viral activity.

The scanning model for translation: an update

The small (40S) subunit of eukaryotic ribosomes is believed to bind initially at the capped 5'-end of messenger RNA and then migrate, stopping at the first AUG codon in a favorable context for initiating translation. The first-AUG rule is not absolute, but there are rules for breaking the rule. Some anomalous observations that seemed to contradict the scanning mechanism now appear to be artifacts. A few genuine anomalies remain unexplained.

Linker insertion-deletion mutagenesis of the v-src gene: isolation of host- and temperature-dependent mutants

The host cell regulators and substrates of the Rous sarcoma virus transforming protein pp60v-src remain largely unknown. Viral mutants which induce a host-dependent phenotype may result from mutations which affect the interaction of pp60v-src with host cell components. To isolate such mutants and to examine the role of different regions of src in regulating pp60v-src function, we generated 46 linker insertion and 5 deletion mutations within src. The mutant src genes were expressed in chicken embryo fibroblasts and in rat-2 cells by using retrovirus expression vectors. Most linker insertions within the kinase domain (residues 260 to 512) inactivated kinase activity and transforming capacity, while most insertions in the N-terminal domain and at the extreme C terminus were tolerated. A number of mutations generated a host-dependent phenotype. Insertions after residues 225 and 227, within the N-terminal regulatory domain (SH2), produced a fusiform transformation in chicken embryo fibroblasts and abolished transformation in rat-2 cells; a similar phenotype also resulted from two deletions affecting SH2 (residues 149 to 174 and residues 77 to 225). Insertions immediately C terminal to Lys-295, which is involved in ATP binding, also produced a conditional phenotype. Insertions after residues 299 and 300 produced a temperature-sensitive phenotype, while insertions after residues 304 and 306 produced a host cell-dependent phenotype. An insertion which removed the major tyrosine autophosphorylation site (Tyr-416) greatly reduced transformation of rat-2 cells, a property not previously observed with other mutations at this site. We conclude that mutations at certain sites within src result in conditional phenotypes. These sites may represent regions important in interactions with host cell components.

Investigation of factors that influence phosphorylation of pp60c-src on tyrosine 527

Phosphorylation at tyrosine 527 of the proto-oncogene product, pp60c-src, has been proposed to decrease the tyrosine kinase activity of the enzyme. We have investigated potential factors that might influence phosphorylation at this site by making mutant variants of the pp60c-src protein. By effectively eliminating the site of N-terminal myristylation, we demonstrated that stable membrane association is not necessary for tyrosine 527 phosphorylation. Furthermore, mutational elimination of the enzymatic activity of this mutant pp60c-src protein did not alter the efficiency of phosphorylation at tyrosine 527. These data are consistent with the proposal that pp60c-src may be phosphorylated at tyrosine 527 by a cellular tyrosine kinase distinct from pp60c-src. In addition, using detergent-permeabilized cells, we established conditions that allow efficient phosphorylation of tyrosine 527 in vitro.

Investigation of factors that influence phosphorylation of pp60c-src on tyrosine 527

Phosphorylation at tyrosine 527 of the proto-oncogene product, pp60c-src, has been proposed to decrease the tyrosine kinase activity of the enzyme. We have investigated potential factors that might influence phosphorylation at this site by making mutant variants of the pp60c-src protein. By effectively eliminating the site of N-terminal myristylation, we demonstrated that stable membrane association is not necessary for tyrosine 527 phosphorylation. Furthermore, mutational elimination of the enzymatic activity of this mutant pp60c-src protein did not alter the efficiency of phosphorylation at tyrosine 527. These data are consistent with the proposal that pp60c-src may be phosphorylated at tyrosine 527 by a cellular tyrosine kinase distinct from pp60c-src. In addition, using detergent-permeabilized cells, we established conditions that allow efficient phosphorylation of tyrosine 527 in vitro.

Effects of intercistronic length on the efficiency of reinitiation by eucaryotic ribosomes

Simian virus 40-based plasmids that direct the synthesis of preproinsulin during short-term transfection of COS cells have been used to probe the mechanism of reinitiation by eucaryotic ribosomes. Earlier studies from several laboratories had established that the ability of ribosomes to reinitiate translation at an internal AUG codon depends on having a terminator codon in frame with the preceding AUG triplet and upstream from the intended restart site. In the present studies, the position of the upstream terminator codon relative to the preproinsulin restart site has been systematically varied. The efficiency of reinitiation progressively improved as the intercistronic sequence was lengthened. When the upstream "minicistron" terminated 79 nucleotides before the preproinsulin start site, the synthesis of proinsulin was as efficient as if there were no upstream AUG codons. A mechanism is postulated that might account for this result, which is somewhat surprising inasmuch as bacterial ribosomes reinitiate less efficiently as the intercistronic gap is widened.

Effects of intercistronic length on the efficiency of reinitiation by eucaryotic ribosomes

Simian virus 40-based plasmids that direct the synthesis of preproinsulin during short-term transfection of COS cells have been used to probe the mechanism of reinitiation by eucaryotic ribosomes. Earlier studies from several laboratories had established that the ability of ribosomes to reinitiate translation at an internal AUG codon depends on having a terminator codon in frame with the preceding AUG triplet and upstream from the intended restart site. In the present studies, the position of the upstream terminator codon relative to the preproinsulin restart site has been systematically varied. The efficiency of reinitiation progressively improved as the intercistronic sequence was lengthened. When the upstream "minicistron" terminated 79 nucleotides before the preproinsulin start site, the synthesis of proinsulin was as efficient as if there were no upstream AUG codons. A mechanism is postulated that might account for this result, which is somewhat surprising inasmuch as bacterial ribosomes reinitiate less efficiently as the intercistronic gap is widened.

The erg gene: a human gene related to the ets oncogene

We have isolated a cDNA clone representing the complete coding sequence of a human gene named erg, related to the ets oncogene. Nucleotide sequence analysis of this cDNA (4.6 kilobases long) revealed that this gene encodes a 363-residue protein whose predicted amino acid sequence showed a homology of approximately equal to 40% and approximately equal to 70% to two domains corresponding to the 5' and 3' regions of v-ets oncogene, respectively. A 3.2- to 3.6-kilobase and approximately equal to 5-kilobase transcript of the erg gene, which differ in size from those of the previously described Hu-ets 1 and Hu-ets 2 genes, were observed in different cells. These results suggest that the erg gene is a member of the ets oncogene family.

3'-orf and sor genes of human immunodeficiency virus: in vitro transcription-translation and immunoreactive domains

An in vitro transcription and translation procedure was designed to translate multiple open reading frames from cloned DNAs. For human immunodeficiency virus (HIV) cloned DNA carrying three open reading frames (sor, tat, and 3'-orf), the approach yielded three authentic polypeptides. Clearly, the internal initiation codons can be used for reinitiation of translation of the downstream open reading frames. However, the downstream open reading frames were translated with relatively lower translational efficiencies. In general, the translational efficiency of RNAs depended significantly on their structures. The in vitro approach was utilized further to map the immunoreactive domains of the 3'-orf and sor gene products of HIV. Deletion clones were constructed with deletions within the open reading frames. Translation products of these clones reacted differentially with anti-3'-orf and anti-sor rabbit immune sera and human sera from individuals with acquired immunodeficiency syndrome and related disorders. Apparently, recombinant 3'-orf and sor polypeptides used to immunize rabbits express many more immunogenic epitopes and/or different set of epitopes than is the case for the native proteins in humans infected with HIV. Immunoreactivity and immunogenicity of these gene products were significantly dependent on their structure and/or conformation.

Selective translation initiation on bicistronic simian virus 40 late mRNA

We described previously a simian virus 40 (SV40) mutant, pSVAdL, that was defective in synthesis of the late viral protein VP1. This mutant, which contains a 100-base-pair fragment of adenovirus DNA encompassing the major late promoter inserted in the SV40 late promoter region (SV40 nucleotide 294), efficiently synthesizes agnoprotein, a protein encoded by the leader region of the same mRNA that encodes VP1. When the agnoprotein AUG initiation codon in pSVAdL was mutated to UUG, agnoprotein synthesis was abolished, and VP1 synthesis was elevated to wild-type levels. Because levels of late mRNA synthesis were not affected by this mutation, these results support a scanning model of translation initiation and suggest that internal translational reinitiation does not occur efficiently in this situation.

Morphf mutants of Rous sarcoma virus: nucleotide sequencing analysis suggests that a class of morphf mutants was generated through splicing of a cryptic intron

The nature of the lesions involved in producing the fusiform phenotype of three mutants (WO101, WO201, and tsST529) of the Schmidt-Ruppin A strain of Rous sarcoma virus (RSV) was determined by molecular cloning and DNA sequencing. WO101 and WO201 contained an in-frame deletion of the v-src region coding for amino acids 116 to 140 of p60v-src. The deleted segment was flanked by consensus splice donor and acceptor sequences and contained an appropriately positioned branchpoint acceptor consensus sequence, suggesting that the deletion occurred through an aberrant RNA splicing event. S1 mapping experiments performed on RNA isolated from chicken cells infected with molecularly cloned wild-type RSV DNA suggested that the splice acceptor involved in the generation of this deletion was utilized at a low frequency (less than 1.0%) in wild-type RSV-infected cells. These results suggested that stable mutations may have arisen in the coding sequence of a eucaryotic viral transforming gene as a result of a probable aberrant RNA splicing event followed by reverse transcription into DNA. ST529 was found to harbor the same deletion present in WO101 and WO201 but also contained a point mutation which resulted in the substitution of lysine for glutamic acid at position 93. This change and the resulting large change in local charge were presumably required for the temperature-sensitive transformation phenotype of ST529. These results, together with other known deletions that produce fusiform mutants, suggested that a region within the amino-terminal one-third coding region of the src gene contributed to a structural domain of p60v-src that was important for controlling some morphological parameters of transformation in cells infected with RSV.

A bicistronic Epstein-Barr virus mRNA encodes two nuclear proteins in latently infected, growth-transformed lymphocytes

EBNA2 is a nuclear protein expressed in all cells latently infected with and growth transformed by Epstein-Barr virus (EBV) infection (K. Hennessy and E. Kieff, Science 227:1230-1240, 1985). The nucleotide sequence of the EBNA2 mRNA (J. Sample, M. Hummel, D. Braun, M. Birkenbach, and E. Kieff, Proc. Natl. Acad. Sci. USA 83:5096-5100, 1986) revealed that it begins with a 924-base open reading frame that has an unusual potential translational initiation site (CAAATGG). This open reading frame is followed by 138 nucleotides with only one highly unlikely translational initiation site (TACATGC), which would translate a pentapeptide before the next stop codon. The last part of the mRNA is the open reading frame which encodes EBNA2. In this paper, we demonstrate that the 924-base open reading frame translates a 40-kilodalton protein in vitro or in murine cells transfected with the EBNA2 cDNA under control of the murine leukemia virus long terminal repeat. A protein of identical size was detected in EBV-transformed, latently infected human lymphocyte nuclei by using antibody specific for the leader open reading frame expressed in bacteria. Therefore, this is a rare example of a mRNA which translates two proteins from nonoverlapping open reading frames. Since the protein encoded by the leader of the EBNA mRNA is expressed in all nuclei of a latently infected cell line, it was designated EBNA-LP. EBNA-LP localizes to small intranuclear particles and differs in this respect from EBNA1, EBNA2, or EBNA3. EBNA-LP is not expressed in an EBV-transformed marmoset lymphocyte cell (B95-8) or in one EBV-infected Burkitt tumor cell line (Raji) but is expressed in three other Burkitt tumor cell lines (Namalwa, P3HR-1, and Daudi).

Role of the avian retrovirus mRNA leader in expression: evidence for novel translational control

Avian retroviral mRNAs contain a long 5' untranslated leader of approximately 380 nucleotides. The leader includes sequences required for viral replication and three AUG codons which precede the AUG codon used for translational initiation of the gag and env genes. We have used sensitive, quantitative assays of viral gene transcription and translation to analyze the role of this mRNA leader in viral gene expression. By substituting segments from related viruses, we had previously shown that the endogenous avian provirus ev-1 contained a defective leader segment (B. R. Cullen, A. M. Skalka, and G. Ju, Proc. Natl. Acad. Sci. USA 80:2946-2950, 1983). The sequence analysis presented here, followed by comparison with the nondefective ev-2 endogenous provirus segment, identified the critical changes at nucleotides 4 and 7 upstream of the initiator AUG. These differences do not alter the most conserved nucleotides within the consensus sequence which precedes eucaryotic initiation codons, but lie within a nine-nucleotide region that is otherwise highly conserved among avian retrovirus strains. Analysis of a series of deletion mutants indicated that other sequences within the leader are also required for efficient expression. Characterization of the altered transcripts demonstrated that the presence of the defective ev-1 segment or the deletion of a ca. 200-nucleotide leader segment did not affect the steady-state level or splicing efficiency of these mRNAs. Thus, we conclude that the reduced expression of these mRNAs is due to a translational deficiency. These results indicate that specific leader sequences, other than the previously identified consensus nucleotides which precede eucaryotic AUG initiator codons, can influence eucaryotic gene translation.

Effect of upstream reading frames on translation efficiency in simian virus 40 recombinants

In a previous report (S. Subramani, R. Mulligan, and P. Berg, Mol. Cell. Biol. 1:854-864, 1981), it was shown that mouse dihydrofolate reductase (DHFR) could be efficiently expressed from simian virus 40 recombinant viruses containing the DHFR cDNA in different locations in the viral late region. This was true even in the case of the SVGT7dhfr26 recombinant, which had the DHFR coding sequence 700 to 800 nucleotides from the 5' end of the mRNA, where it was preceded by the VP2 and VP3 initiator AUGs and a number of other noninitiator AUGs. To investigate the process of internal translation initiation in mammalian cells, we constructed a series of SVGT7dhfr recombinants in which the upstream VP2 and VP3 reading frame was terminated in various positions relative to the DHFR initiation codon. The efficient production of DHFR in infected CV1 cells depended on having the terminators of the VP2-VP3 reading frame positioned upstream or nearby downstream from the DHFR initiation codon. These results reinforce the notion that mammalian ribosomes are capable of translational reinitiation.

Overlapping cDNA clones define the complete coding region for the P210c-abl gene product associated with chronic myelogenous leukemia cells containing the Philadelphia chromosome

The Philadelphia chromosome, observed in greater than 90% of patients with chronic myelogenous leukemia, results from a reciprocal translocation between chromosomes 9 and 22. The translocation breakpoint on chromosome 9 occurs near the ABL gene and correlates with the production of a chronic myelogenous leukemia-specific 8.5-kilobase ABL-related mRNA species accompanied by a structurally altered ABL protein (P210c-abl). The N-terminal sequence of the protein is derived from the BCR gene on chromosome 22. We have isolated overlapping cDNA clones from the K-562 cell line corresponding to approximately 8.5 kilobases of mRNA and have sequenced 2550 nucleotides at the 5' end. Our results indicate that the 5' end of the 8.5-kilobase mRNA consists of greater than 400 nucleotides of noncoding sequence that are greater than 80% G + C rich. Based on our sequence analysis, we propose that initiation of translation occurs at nucleotide 471, such that the initial 927 amino acids of P210c-abl are derived from BCR sequences. Our cDNA clones thus define the complete coding sequences for the P210c-abl gene product.

Inducible expression of REP1 causes inducible expression of the 2 micron circle stability system

The yeast plasmid, 2 micron circle, encodes a stability system consisting of the plasmid replication origin, a cis-active locus designated REP3 and two trans-active functions--the products of the REP1 and REP2 genes. We have constructed 2 micron circle derivatives in which the expression of the REP1 gene is placed under the control of the yeast GAL10 promoter. We show that in such plasmids the stability-system is inducible, being turned off by glucose and turned on by galactose. Further, our results unequivocally demonstrate that, of the two potential in-frame ATG codons at which REP1 translation might initiate (as inferred from the 2 micron circle DNA sequence and from the cap site of the major REP1 transcript), the upstream ATG is dispensable without affecting REP1 function. We also illustrate here a simple and general method for constructing in vivo in yeast 2 micron circle analogs which contain desired alterations within specific regions of the 2 micron circle genome.

Regulation of cellular morphology by the Rous sarcoma virus src gene: analysis of fusiform mutants

We have been interested in how Rous sarcoma virus (RSV) influences transformed cell morphology and compared the molecular properties of chicken embryo cells (CEC) infected with mutants of RSV that induce the fusiform transformed cell morphology with those of CEC infected by wild-type RSV, which induces the more normal round transformed cell morphology. We looked for properties shared by all fusiform mutant-infected cells, because these may be responsible for maintaining the fusiform morphology. Five different fusiform mutants, two wild-type RSVs, and one wild-type back revertant of a fusiform mutant were studied. In the fusiform mutant-infected cells, the localization and myristylation of pp60src were determined and the extent of expression of the extracellular matrix protein fibronectin was examined at both the mRNA and protein levels. The phosphorylation of vinculin on tyrosine also was examined in the same CEC. Within all fusiform mutant-transformed CEC, pp60src was dramatically absent from the adhesion plaque sites normally seen in cells transformed with wild-type RSV, and these transformed CEC all expressed more fibronectin mRNA and protein in the extracellular matrix than did the wild-type RSV-transformed CEC. The absence of pp60src from the adhesion plaques was not due to lack of myristylation of the src protein, and tyrosine phosphorylation of vinculin was not related to fibronectin expression. These results suggest that the inverse relationship between pp60src in the adhesion plaques and fibronectin expression in the extracellular matrix may be interconnected phenomena and could be related to the maintenance of the fusiform transformed morphology.

Signals for transcription initiation and termination in the Saccharomyces cerevisiae plasmid 2 micron circle

By S1 nuclease protection experiments and primer extension analysis, we determined precisely the cap and polyadenylation sites of transcripts from the four genes of the yeast 2 micron circle plasmid, as well as those of other plasmid transcripts of unknown function. In addition, we used deletion analysis to identify sequences necessary for polyadenylation in plasmid transcripts. Our results indicate that plasmid genes constitute independent transcription units and that plasmid mRNAs are not derived by extensive processing of precursor transcripts. In addition, we found that the D coding region of 2 micron circle is precisely encompassed by a polyadenylated transcript, suggesting that this coding region constitutes a functional plasmid gene. Our identification of the position of plasmid polyadenylation sites and of sequences necessary for polyadenylation provides support for a tripartite signal for polyadenylation as proposed by Zaret and Sherman (K.S. Zaret and F. Sherman, Cell 28:563-573, 1982). Finally, these data highlight salient features of the transcriptional regulatory circuitry that underlies the control of plasmid maintenance in the cell.

Expression of molecular clones of v-myb in avian and mammalian cells independently of transformation

We demonstrated that molecular clones of the v-myb oncogene of avian myeloblastosis virus (AMV) can direct the synthesis of p48v-myb both in avian and mammalian cells which are not targets for transformation by AMV. To accomplish this, we constructed dominantly selectable avian leukosis virus derivatives which efficiently coexpress the protein products of the Tn5 neo gene and the v-myb oncogene. The use of chemically transformed QT6 quail cells for proviral DNA transfection or retroviral infection, followed by G418 selection, allowed the generation of cell lines which continuously produce both undeleted infectious neo-myb viral stocks and p48v-myb. The presence of a simian virus 40 origin of replication in the proviral plasmids also permitted high-level transient expression of p48v-myb in simian COS cells without intervening cycles of potentially mutagenic retroviral replication. These experiments establish that the previously reported DNA sequence of v-myb does in fact encode p48v-myb, the transforming protein of AMV.

Effect of upstream reading frames on translation efficiency in simian virus 40 recombinants

In a previous report (S. Subramani, R. Mulligan, and P. Berg, Mol. Cell. Biol. 1:854-864, 1981), it was shown that mouse dihydrofolate reductase (DHFR) could be efficiently expressed from simian virus 40 recombinant viruses containing the DHFR cDNA in different locations in the viral late region. This was true even in the case of the SVGT7dhfr26 recombinant, which had the DHFR coding sequence 700 to 800 nucleotides from the 5' end of the mRNA, where it was preceded by the VP2 and VP3 initiator AUGs and a number of other noninitiator AUGs. To investigate the process of internal translation initiation in mammalian cells, we constructed a series of SVGT7dhfr recombinants in which the upstream VP2 and VP3 reading frame was terminated in various positions relative to the DHFR initiation codon. The efficient production of DHFR in infected CV1 cells depended on having the terminators of the VP2-VP3 reading frame positioned upstream or nearby downstream from the DHFR initiation codon. These results reinforce the notion that mammalian ribosomes are capable of translational reinitiation.

Role of the avian retrovirus mRNA leader in expression: evidence for novel translational control

Avian retroviral mRNAs contain a long 5' untranslated leader of approximately 380 nucleotides. The leader includes sequences required for viral replication and three AUG codons which precede the AUG codon used for translational initiation of the gag and env genes. We have used sensitive, quantitative assays of viral gene transcription and translation to analyze the role of this mRNA leader in viral gene expression. By substituting segments from related viruses, we had previously shown that the endogenous avian provirus ev-1 contained a defective leader segment (B. R. Cullen, A. M. Skalka, and G. Ju, Proc. Natl. Acad. Sci. USA 80:2946-2950, 1983). The sequence analysis presented here, followed by comparison with the nondefective ev-2 endogenous provirus segment, identified the critical changes at nucleotides 4 and 7 upstream of the initiator AUG. These differences do not alter the most conserved nucleotides within the consensus sequence which precedes eucaryotic initiation codons, but lie within a nine-nucleotide region that is otherwise highly conserved among avian retrovirus strains. Analysis of a series of deletion mutants indicated that other sequences within the leader are also required for efficient expression. Characterization of the altered transcripts demonstrated that the presence of the defective ev-1 segment or the deletion of a ca. 200-nucleotide leader segment did not affect the steady-state level or splicing efficiency of these mRNAs. Thus, we conclude that the reduced expression of these mRNAs is due to a translational deficiency. These results indicate that specific leader sequences, other than the previously identified consensus nucleotides which precede eucaryotic AUG initiator codons, can influence eucaryotic gene translation.

Regulation of protein synthesis in virus-infected animal cells

This chapter summarizes the structural features that govern the translation of viral mRNAs: where the synthesis of a protein starts and ends, how many proteins can be produced from one mRNA, and how efficiently. It focuses on the interplay between viral and cellular mRNAs and the translational machinery. That interplay, together with the intrinsic structure of viral mRNAs, determines the patterns of translation in infected cells. It also points out some possibilities for translational regulation that can only be glimpsed at present, but are likely to come into focus in the future. The mechanism of selecting the initiation site for protein synthesis appears to follow a single formula. The translational machinery displays a certain flexibility that is exploited more frequently by viral than by cellular mRNAs. Although some of the parameters that determine efficiency have been identified, how efficiently a given mRNA will be translated cannot be predicted by summing the known parameters.

Characterization of ribosome binding on Rous sarcoma virus RNA in vitro

We determined the sites at which ribosomes form initiation complexes on Rous sarcoma virus RNA in order to determine how initiation of Pr76gag synthesis at the fourth AUG codon from the 5' end of Rous sarcoma virus strain SR-A RNA occurs. Ribosomes bind almost exclusively at the 5'-proximal AUG codon when chloride is present as the major anion added to the translational system. However, when chloride is replaced with acetate, ribosomes bind at the two 5'-proximal AUG codons, as well as at the initiation site for Pr76gag. We confirmed that the 5'-proximal AUG codon is part of a functional initiation site by identifying the seven-amino acid peptide encoded there. Our results suggest that (i) translation in vitro of Rous sarcoma virus virion RNA results in the synthesis of at least two polypeptides; (ii) the pattern of ribosome binding observed for Rous sarcoma virus RNA can be accounted for by the modified scanning hypothesis; and (iii) the interaction between 40S ribosomal subunits or 80S ribosomal complexes is stronger at the 5'-proximal AUG codon than at sites farther downstream, including the initiation site for the major viral proteins.

Regulation of cellular morphology by the Rous sarcoma virus src gene: analysis of fusiform mutants

We have been interested in how Rous sarcoma virus (RSV) influences transformed cell morphology and compared the molecular properties of chicken embryo cells (CEC) infected with mutants of RSV that induce the fusiform transformed cell morphology with those of CEC infected by wild-type RSV, which induces the more normal round transformed cell morphology. We looked for properties shared by all fusiform mutant-infected cells, because these may be responsible for maintaining the fusiform morphology. Five different fusiform mutants, two wild-type RSVs, and one wild-type back revertant of a fusiform mutant were studied. In the fusiform mutant-infected cells, the localization and myristylation of pp60src were determined and the extent of expression of the extracellular matrix protein fibronectin was examined at both the mRNA and protein levels. The phosphorylation of vinculin on tyrosine also was examined in the same CEC. Within all fusiform mutant-transformed CEC, pp60src was dramatically absent from the adhesion plaque sites normally seen in cells transformed with wild-type RSV, and these transformed CEC all expressed more fibronectin mRNA and protein in the extracellular matrix than did the wild-type RSV-transformed CEC. The absence of pp60src from the adhesion plaques was not due to lack of myristylation of the src protein, and tyrosine phosphorylation of vinculin was not related to fibronectin expression. These results suggest that the inverse relationship between pp60src in the adhesion plaques and fibronectin expression in the extracellular matrix may be interconnected phenomena and could be related to the maintenance of the fusiform transformed morphology.

Signals for transcription initiation and termination in the Saccharomyces cerevisiae plasmid 2 micron circle

By S1 nuclease protection experiments and primer extension analysis, we determined precisely the cap and polyadenylation sites of transcripts from the four genes of the yeast 2 micron circle plasmid, as well as those of other plasmid transcripts of unknown function. In addition, we used deletion analysis to identify sequences necessary for polyadenylation in plasmid transcripts. Our results indicate that plasmid genes constitute independent transcription units and that plasmid mRNAs are not derived by extensive processing of precursor transcripts. In addition, we found that the D coding region of 2 micron circle is precisely encompassed by a polyadenylated transcript, suggesting that this coding region constitutes a functional plasmid gene. Our identification of the position of plasmid polyadenylation sites and of sequences necessary for polyadenylation provides support for a tripartite signal for polyadenylation as proposed by Zaret and Sherman (K.S. Zaret and F. Sherman, Cell 28:563-573, 1982). Finally, these data highlight salient features of the transcriptional regulatory circuitry that underlies the control of plasmid maintenance in the cell.

Cloning and nucleotide sequences of cDNAs spanning the splice junctions of Rous sarcoma virus mRNAs

The cDNAs corresponding to the 5' ends of the mRNAs coding for the envelope protein precursor (gPr92env) of the B77 strain and the transforming protein (pp60src) of the Prague B strain of Rous sarcoma virus were cloned into pBR322, and the nucleotide sequences surrounding the splice junctions were determined. Both mRNAs are products of single splicing events from a common donor splice site at nucleotide 398 from the 5' end of the RNA to acceptor splice sites at nucleotides 5078 and 7054 for the env and src mRNAs, respectively. These results confirm and extend previous conclusions based on peptide mapping and single-strand nuclease mapping. Compared with the sequence of the Prague C genome RNA, the B77 strain contains a 6-nucleotide deletion in the sequence corresponding to the hydrophobic portion of the signal peptide of the envelope protein precursor.