Construction of human factor IX expression vectors in retroviral vector frames optimized for muscle cells

Development of a highly refined human factor IX (hFIX) expression vector system is critical for establishing a durable hemophilia B gene therapy. Here we report construction of a series of retroviral vectors and identification of an optimal basic structure and components for expressing hFIX in skeletal muscle cells. These vectors, which are derived from Moloney murine leukemia virus (MoMLV) with its enhancer sequence in the 3' long terminal repeat (LTR) deleted, contained internal hFIX expression units inserted in forward configuration without or with a viral vector intron sequence (pdL or pdLIn vector frame, respectively) or in inverted configuration without a viral vector intron sequence (pdLi frame). Internal expression units contained a hFIX cDNA or hFIX minigene (hIXm1 or hIXm2) derived from the hFIX cDNA by insertion of a shortened first intron sequence of the hFIX gene. Regardless of the promoter and vector frame used, both hIXm1 and hIXm2 gave 10- to 14-fold higher hFIX expression compared to those with hFIX cDNA. Internal hFIX transcriptional control units of these vectors were composed of various promoters linked with or without the muscle creatine kinase enhancer (Me) sequence. Promoters tested included those of alpha-actin (alpha A775), beta-actin (beta A280), cytochrome oxidase (CO1250 and CO650), myogenin (Mg1031 and Mg353), and Rous sarcoma virus (RSV). beta A200, which was derived from beta A280 by eliminating potential polyadenylation sites, was also tested. As extensively examined with the myogenin promoter, presence of one or multiple copies of Me in the vectors elevated the expression activity in myotubes by 4.5- to 19-fold over those without Me, but not significantly in myoblasts. Similar enhancements in expression activity with Me were also observed with other promoters, except those of RSV and CO. The latter two showed only modest enhancements in the presence of Me. As assayed with myotubes in culture, the general order of hFIX expression activity of various promoters with four copies of Me in the three different vector frames was beta A280 approximately beta A200 > Mg353 > Mg1031 approximately RSV approximately CO650 approximately alpha A775 > CO1250. One exception was that CO650 showed significantly less activity in pdLi-type vectors than in the pdLIn vectors. Based on the systematic analyses of various structural components, a group of pdLi vectors consisting of beta A200, two to four copies of Me, and hIXm2 was identified to have the optimal basic vector structure to be used in retrovirus for hFIX expression in differentiated skeletal muscle cells. The present studies provide the critical first step for establishing a highly refined hemophilia B gene therapy based on skeletal muscle-targeted hFIX gene transfer.

Molecular defects in TCRBV genes preclude thymic selection and limit the expressed TCR repertoire

A prerequisite for the assembly of a functional TCR is the rearrangement of gene segments to result in in-frame transcripts that can vary in length across the CDR3 region. Selection for in-frame 3-bp spaced rearrangements is observed for functional TCRB genes in thymocyte DNA and mRNA transcripts from PBMC. Previous analyses of the expressed human TCRBV gene repertoire have suggested that BV10S1 and BV19S1 gene segments may be expressed at very low levels or not at all in some individuals. CDR3 size analysis for BV10 and BV19 transcripts and thymic DNA rearrangements revealed no such selection of in-frame 3-bp spaced rearrangements. Comparison of the BV19 leader intron sequence with consensus 5'-splice signal sequences suggested that the mature mRNA for this gene would contain the unspliced leader intron. Sequencing of BV19 transcripts from PBMC confirmed that the intron was not spliced, resulting in a predicted translation product that terminates prematurely. Both genomic DNA and mRNA were analyzed for the BV10 gene. The leader sequence contained a single extra base, which would result in a shift in the V region reading frame upon conventional mRNA splicing. This gene is predicted to be nonfunctional due to the presence of a stop codon in the V gene segment just after the splice signal. A splice variant that uses an alternative 3'-splice site further downstream in the V region was also detected. This variant is predicted to be nonfunctional due to the presence of an in-frame stop codon in the V region. These processing defects are sufficient to abrogate positive selection. Therefore, the conclusions drawn from previous studies of the expressed T cell repertoire in normal and disease states based on the presumed functional status of these two genes need to be reassessed.

Protein structure and the sequential structure of mRNA: alpha-helix and beta-sheet signals at the nucleotide level

A direct comparison of experimentally determined protein structures and their corresponding protein coding mRNA sequences has been performed. We examine whether real world data support the hypothesis that clusters of rare codons correlate with the location of structural units in the resulting protein. The degeneracy of the genetic code allows for a biased selection of codons which may control the translational rate of the ribosome, and may thus in vivo have a catalyzing effect on the folding of the polypeptide chain. A complete search for GenBank nucleotide sequences coding for structural entries in the Brookhaven Protein Data Bank produced 719 protein chains with matching mRNA sequence, amino acid sequence, and secondary structure assignment. By neural network analysis, we found strong signals in mRNA sequence regions surrounding helices and sheets. These signals do not originate from the clustering of rare codons, but from the similarity of codons coding for very abundant amino acid residues at the N- and C-termini of helices and sheets. No correlation between the positioning of rare codons and the location of structural units was found. The mRNA signals were also compared with conserved nucleotide features of 16S-like ribosomal RNA sequences and related to mechanisms for maintaining the correct reading frame by the ribosome.

PetCR46, a gene which is essential for respiration and integrity of the mitochondrial genome

In the frame of the European Pilot Project for the functional analysis of newly discovered open reading frames (ORFs) from Saccharomyces cerevisiae chromosome III, we have deleted entirely the YCR46C ORF by a one-step polymerase chain reaction method and replaced it by the HIS3 marker in the strain W303. The deletion has been checked by meiotic segregation and Southern blot analyses. Characterization of the deleted strain indicates that YCR46C is essential for respiration and maintenance of the mitochondrial genome since its deletion leads to the appearance of 100% of cytoplasmic petites. Hybridization with molecular probes from mtDNA of individual clones of such petites showed that about 50% did hybridize (rho- clones) while others did not (possibly rho degrees clones). The wild-type gene has been cloned and shown to complement the deletion. The gene, which probably codes for a mitochondrial ribosomal protein, has been called petCR46.

Lack of correlation between Sendai virus P/C mRNA structure and its utilization of two AUG start sites from alternate reading frames: implications for viral bicistronic mRNAs

The polycistronic P/C mRNA of Sendai virus encodes five proteins (C', P, C, Y1, and Y2) each of which initiates from a distinct start site. Two major proteins, P and C, are expressed in approximately equimolar amounts from two consecutive AUGs in overlapping reading frames. To better understand the mechanism of expression of the C protein from a downstream AUG, site-directed mutants of the P/C mRNA were created and expressed in COS1 cells. The secondary structure of the mRNA was examined to determine whether the mRNA structure played any role in the synthesis of the C protein. Our results ruled out any significant involvement of the 5' UTR, sequence contexts, secondary structure, distance between the start sites, and sequences downstream to the C-AUG. However, they are consistent with the concept that the synthesis of the C protein is primarily dependent on the orientation of its reading frame, i.e., +1 in relation to the upstream P reading frame. The downstream reading frame was translated poorly when it occurred in +2 orientation in relation to the upstream reading frame. Interestingly, all the known functional bicistronic mRNAs with overlapping reading frames from cytoplasmic RNA viruses have their downstream reading frame in +1 orientation relative to the upstream frame. We propose that the evolutionary conservation of the downstream reading frame in +1 orientation in these bicistronic mRNAs is important for its efficient translation.

Alternative reading frames of the INK4a tumor suppressor gene encode two unrelated proteins capable of inducing cell cycle arrest

The INK4a (MTS1, CDKN2) gene encodes an inhibitor (p16INK4a) of the cyclin D-dependent kinases CDK4 and CDK6 that blocks them from phosphorylating the retinoblastoma protein (pRB) and prevents exit from the G1 phase of the cell cycle. Deletions and mutations involving INK4a occur frequently in cancers, implying that p16INK4a, like pRB, suppresses tumor formation. An unrelated protein (p19ARF) arises in major part from an alternative reading frame of the mouse INK4a gene, and its ectopic expression in the nucleus of rodent fibroblasts induces G1 and G2 phase arrest. Economical reutilization of coding sequences in this manner is practically without precedent in mammalian genomes, and the unitary inheritance of p16INK4a and p19ARF may underlie their dual requirement in cell cycle control.

In-frame recombination between the yeast H(+)-ATPase isogenes PMA1 and PMA2: insights into the mechanism of recombination initiated by a double-strand break

Chimeric PMA1::PMA2 sequences, placed under the control of the PMA1 promoter, were constructed by in vivo recombination between a gapped linearized plasmid containing the PMA2 gene and four different fragments of the PMA1 gene. Correct in-frame assembly of the PMA sequences was screened by the expression of the lacZ reporter gene fused to the PMA2 coding region. Restriction and sequencing analysis of 35 chimeras showed that in all cases, the hybrid sequences was obtained as fusions between continuous sequences specific to PMA1 and PMA2, separated by a region of identity. In all but three cases, the junction sequences were not located at regions of greatest identity. Strikingly, depending on the PMA1 fragment used, junction distribution fell into two categories. In the first, the junctions were scattered over several hundreds of nucleotides upstream of the extremity of the PMA1 fragment, while in the second, they were concentrated at this extremity. Analysis of the alignment of the PMA1 and PMA2 sequences suggests that the distribution is not related to the size of the region of identity at the PMA1-PMA2 boundary but depends on the degree of identity of the PMA genes upstream of the region of identity, the accumulation of successive mismatches leading to a clustered distribution of the junctions. Moreover, the introduction of seven closely spaced mismatches near the end of a PMA1 segment with an otherwise-high level of identity with PMA2 led to a significantly increased concentration of the junctions near this end. These data show that a low level of identity in the vicinity of the common boundary stretch is a strong barrier to recombination. In contrast, consecutive mismatches or regions of overall moderate identity which are located several hundreds of nucleotides upstream from the PMA1 end do not necessarily block recombination.

A frameshift error detection algorithm for DNA sequencing projects

During the determination of DNA sequences, frameshift errors are not the most frequent but they are the most bothersome as they corrupt the amino acid sequence over several residues. Detection of such errors by sequence alignment is only possible when related sequences are found in the databases. To avoid this limitation, we have developed a new tool based on the distribution of non-overlapping 3-tuples or 6-tuples in the three frames of an ORF. The method relies upon the result of a correspondence analysis. It has been extensively tested on Bacillus subtilis and Saccharomyces cerevisiae sequences and has also been examined with human sequences. The results indicate that it can detect frameshift errors affecting as few as 20 bp with a low rate of false positives (no more than 1.0/1000 bp scanned). The proposed algorithm can be used to scan a large collection of data, but it is mainly intended for laboratory practice as a tool for checking the quality of the sequences produced during a sequencing project.

Two novel missense mutations in the cystathionine beta-synthase gene in homocystinuric patients

Direct sequencing of the coding region of the cystathionine beta-synthase (CBS) gene in two homocystinuric patients revealed the presence of two novel missense mutations. The first mutation, a 1111G-->A transition, resulted in the substitution of the evolutionary conserved valine-371 by a methionine residue (V371M) and created a new NlaIII restriction site. The second mutation, a G-->A transition at base-pair 494, resulted in an amino acid change from cysteine to tyrosine (C165Y) and abolished a BsoFI restriction site. Both mutations were found in a compound heterozygous state with the previously described 833T-->C transition.

Investigating hypothetical products from noncoding frames (HyPNoFs)

Hypothetical Products from Noncoding Frames (i.e., HyPNoFs) are hypothetical, not-coded proteins, translated from alternate reading frames (i.e., coding + 1 and coding + 2) of cDNAs. HyPNoFs of CD4, PKC, oncostatin, bcl-2 proto-oncogene, tumor suppressor p53, cystic fibrosis transmembrane regulator (CFTR), and tumor necrosis factors alpha and beta were searched as query sequences vs the SWISS-PROT data bank. Homology searchers carried out revealed that hypothetical products (i.e., HyPNoFs) may share high similarity with real protein products actually coded. Sequence similarity of hypothetical products to real proteins is sometimes very high, suggesting common conformational features, according to the Sander and Schneider cutoff value. This finding supports the hypothesis that eukaryotic DNA, currently considered to be monocistronic, might occasionally have polycistronic regions, carrying different protein messages on overlapping frames. As yet, polycistronic genes have been observed in viral genomes only. The presence of polycistronic regions in eukaryotic genes is likely reminiscent of an ancient strategy, rather than a present feature of the genome in eukaryotes. These data suggest that thorough investigation of HyPNoFs is likely to improve our ability to trace genes' evolution and to investigate structure-function relationships of protein and DNA sequences.

Identification of a locus required for the regulation of bvg-repressed genes in Bordetella pertussis

In Bordetella pertussis, the coordinate regulation of virulence factor expression is controlled by the products of the bvgAS locus. In the presence of modulating signals such as MgSO4, nicotinic acid, or reduced temperature, the expression of bvg-activated genes is reduced while the expression of bvg-repressed genes is induced. One model for the regulation of bvg-repressed genes predicts the existence of a repressor protein encoded by a bvg-activated gene. Once activated, the product of this bvg-activated gene would bind to and repress transcription from the bvg-repressed genes. We isolated five genetically independent transposon insertion mutants of B. pertussis that have a phenotype consistent with the knockout of a putative bvg-regulated repressor. These mutants constitutively expressed a vrg6-phoA transcriptional fusion but demonstrated normal bvgAS function. Genomic mapping and DNA sequence analysis of the sites of transposon insertion demonstrated that these mutants define a locus downstream of bvgAS. Introduction of an in-frame, 12-bp insertion within this locus also conferred the mutant phenotype, confirming that the phenotype seen in the transposon mutants is the result of disruption of a distinct gene, which we have designated bvgR, and is not a consequence of polar effects on bvgAS.

Ribosomal frameshifting at the Gag-Pol junction in avian leukemia sarcoma virus forms a novel cleavage site

The Gag and Gag-Pol precursors of avian sarcoma leukemia virus (ASLV) are translated from viral genomic-size mRNA at a molar ratio of about 20:1. Translation of Gag is terminated at the stop codon UAG located at the carboxyl-terminus of the viral protease (PR), whereas a ribosomal frameshift occurring at the carboxyl-terminus of Gag allows translation of the Gag-Pol precursor. To determine how PR is released from the Gag-Pol precursor, a single base (A or T) was inserted at the Gag-Pol junction in order to adjust the translation into a single reading frame. These mutations allow processing of the viral precursor when expressed in bacterial cells, but cause cessation of viral production after transfection of avian cells. The viral PR released from the large precursor is one amino acid longer than PR cleaved from the Gag polyprotein and is terminated by an Ile instead of a Leu residue.

The smaller of two overlapping cheA gene products is not essential for chemotaxis in Escherichia coli

The cheA locus of Escherichia coli encodes two similar proteins, CheAL (654 amino acids) and CheAS (557 amino acids), which are made by initiating translation from different in-frame start sites [start(L) and start(S)]. CheAL plays an essential role in chemotactic signaling. It autophosphorylates at a histidine residue (His-48) and then donates this phosphate to response regulator proteins that modulate flagellar rotation and sensory adaptation. CheAS lacks the first 97 amino acids of CheAL, including the phosphorylation site at His-48. Although it is unable to autophosphorylate, CheAS can form heterodimers with mutant CheAL subunits to restore kinase function and chemoreceptor control of autophosphorylation activity. To determine whether these or other activities of CheAS are important for chemotaxis, we constructed cheA lesions that abrogated CheAS expression. Mutants in which the CheAS start codon was changed from methionine to isoleucine (M98I) or glutamine (M98Q) retained chemotactic ability, ranging from 50% (M98Q) to 80% (M98I) of wild-type function. These partial defects could not be alleviated by supplying CheAS from a specialized transducing phage, indicating that the lesions in CheAL--not the lack of CheAS--were responsible for the reduced chemotactic ability. In other respects, the behavior of the M98I mutant was essentially normal. Its flagellar rotation pattern was indistinguishable from wild type, and it exhibited wild-type detection thresholds and peak positions in capillary chemotaxis assays. The lack of any substantive defect in this start(S) mutant argues that CheAS makes a negligible contribution to chemotactic ability in the laboratory. Whether it has functional significance in other settings remains to be seen.

Molecular study of pyruvate kinase deficient patients with hereditary nonspherocytic hemolytic anemia

DNA analysis was performed on 30 unrelated patients with hereditary nonspherocytic hemolytic anemia (HNSHA) who had been found to be pyruvate kinase (PK) deficient by enzyme assay. 19 different mutations were identified among 58 of the 60 alleles at risk. 13 of these were missense mutations that caused single amino acid changes. Included were the following nucleotide substitutions: 401A, 464C, 993A, 1022C, 1076A, 1178G, 1179A, 1373A, 1378A, 1456T, 1484T, 1493A, 1529A. The remaining six mutations were as follows: two nonsense mutations, 721T and 808T; a nucleotide deletion, 307C; a nucleotide insertion, 1089GG; a three nucleotide in frame deletion, 391-392-393 and a deletion of 1149 bp from the PKLR gene that resulted in the loss of exon 11. All the patients were studied for two polymorphic sites, nucleotide (nt) 1705 A/C and a microsatellite in intron 11, to better understand the origin of the mutations. The 1529A mutation, which is the most common mutation in the European population, was found in 25 alleles. With a single exception this mutation was in linkage disequilibrium with both of the polymorphic markers, i.e., found with 1705C and 14 repeats in the microsatellite. This finding is consistent with a single origin of this common mutation. Other mutations occurring more than once were of much lower frequency than the 1529A mutation.

DH element reading frame selection is influenced by an Ig heavy chain transgene, but not by bcl-2

Mouse B cell precursors containing Ig DHJH junctions in one particular reading frame are selectively lost during B cell development. In this register, arbitrarily referred to as reading frame 2, DHJH junctions give rise to an open reading frame starting upstream of the DH element and including the DHJH-peptide fused to the constant region of IgM. Expression of this protein, called D mu, has been strongly implicated in the loss of B cell precursors containing reading frame 2 DHJH junctions. In an attempt to elucidate the means of D mu counterselection, we have examined the reading frame distribution of DHJH junctions in peripheral B cells from mice transgenic for either the human bcl-2 oncogene or for a functionally rearranged Ig mu heavy chain. In bcl-2 transgenic mice, reading frame 2 accounted for < 5% of the DHJH junctions in peripheral B cells, a value not significantly different from controls. Reading frames 1 and 3 were equally represented among the remaining junctions. By contrast, the reading frame distribution of endogenous DHJH junctions in splenic B cells from Ig mu heavy chain transgenic mice showed no evidence of bias against D mu encoding DHJH junctions. Reading frames 2 and 3 accounted for 27% and 30% of the sequenced DHJH junctions, respectively, and the remaining 43% were reading frame 1. Thus although the presence of BCL-2 cannot prevent the selective loss of reading frame 2 DHJH B cells, a functional mu heavy chain can. These results suggest that D mu-expressing B cell precursors may be selectively lost because of the premature and inappropriate cessation of heavy chain gene rearrangement rather than because of the induction of an apoptotic process which can be blocked by BCL-2.

A reassessment of the relationship between aroK- and aroL-encoded shikimate kinase enzymes of Escherichia coli

In the course of sequencing the aroK gene, a number of errors were found in the published sequence. The corrected sequence alters the length of the aroK coding region such that the AroK and AroL proteins are now of comparable length and the homology between them extends the entire length of the two enzymes.

Phosphoglycerate kinase and triosephosphate isomerase from the hyperthermophilic bacterium Thermotoga maritima form a covalent bifunctional enzyme complex

Phosphoglycerate kinase (PGK) from the hyperthermophilic bacterium Thermotoga maritima has been purified to homogeneity. A second larger enzyme with PGK activity and identical N-terminal sequence was also found. Surprisingly, this enzyme displayed triosephosphate isomerase (TIM) activity. No other TIM is detectable in T. maritima crude extracts. As shown by ultracentrifugal analysis, PGK is a 43 kDa monomer, whereas the bifunctional PGK-TIM fusion protein is a homotetramer of 240-285 kDa. SDS-PAGE indicated a subunit size of 70 kDa for the fusion protein. Both enzymes show high thermostability. Measurements of the catalytic properties revealed no extraordinary results. pH optima, Km values and activation energies were found to be in the range observed for other PGKs and TIMs investigated so far. The corresponding pgk and tpi genes are part of the apparent gap operon of T. maritima. This gene segment contains two overlapping reading frames, where the 43 kDa PGK is encoded by the upstream open reading frame, the pgk gene. On the other hand, the 70 kDa PGK-TIM fusion protein is encoded jointly by the pgk gene and the overlapping downstream open reading frame of the tpi gene. A programmed frameshift may be responsible for this fusion. A comparison of the amino acid sequence of both the PGK and the TIM parts of the fusion protein with those of known PGKs and TIMs reveals high similarity to the corresponding enzymes from different procaryotic and eucaryotic organisms.

Analysis of errors in finished DNA sequences: the surfactin operon of Bacillus subtilis as an example

Increased productivity in DNA sequencing would not be valid without a straightforward detection and estimation of errors in finished sequences. The sequence of the surfactin operon from Bacillus subtilis was obtained by two different groups and by chance we were also working on the same chromosome region. Taking advantage of this situation we report in this paper, the number and nature of errors found in the overlapping part of the DNA sequences obtained by the three laboratories. The coincidence of some of the errors with compression in sequence ladders and with secondary DNA structures as well as the detection of frameshift errors using computer programs, are demonstrated. Finally we discuss the definition of a new sequencing strategy that might minimize both the error rate and the cost of sequencing.

The octopine-type Ti plasmid pTiA6 of Agrobacterium tumefaciens contains a gene homologous to the chromosomal virulence gene acvB

Although the majority of genes required for the transfer of T-DNA from Agrobacterium tumefaciens to plant nuclei are located on the Ti plasmid, some chromosomal genes, including the recently described acvB gene, are also required. We show that AcvB shows 50% identity with the product of an open reading frame, designated virJ, that is found between the virA and virB genes in the octopine-type Ti plasmid pTiA6. This reading frame is not found in the nopaline-type Ti plasmid pTiC58. acvB is required for tumorigenesis by a strain carrying a nopaline-type Ti plasmid, and virJ complements this nontumorigenic phenotype, indicating that the products of these genes have similar functions. A virJ-phoA fusion expressed enzymatically active alkaline phosphatase, indicating that VirJ is at least partially exported. virJ is induced in a VirA/VirG-dependent fashion by the vir gene inducer acetosyringone. Primer extension analysis and subcloning of the virJ-phoA fusion indicate that the acetosyringone-inducible promoter lies directly upstream of the virJ structural gene. Although the roles of the two homologous genes in tumorigenesis remain to be elucidated, strains lacking acvB and virJ (i) are proficient for induction of the vir regulon, (ii) are able to transfer their Ti plasmids by conjugation, and (iii) are resistant to plant wound extracts. Finally, mutations in these genes cannot be complemented extracellularly.

A maximum-likelihood approach to analyzing nonoverlapping and overlapping reading frames

A model is presented for sequence evolution on the basis of which one can analyze combinations of noncoding, singly coding, and multiply coding regions of aligned homologous DNA sequences. It is a generalization of Kimura's (J. Mol. Evol. 16:111-120, 1980) and Li et al.'s (J. Mol. Evol. 36:96-99, 1985) transition-transversion models with selection on replacement substitutions. Based on a hierarchy of hypotheses, one will be able to estimate selection factors and transition and transversion distances for different combinations of regions ranging from many regions, each with their private set of parameters, to one set of parameters for all regions. The method is demonstrated on two aligned HIV1 retroviruses.

Active gypsy/Ty3 retrotransposons or retroviruses in Caenorhabditis elegans

A gypsy/Ty3-class retrotransposon (Cer1) is integrated in the DNA of Caenorhabditis elegans chromosome III. It is 8865 nt in length and has 492-nt long terminal repeats that are identical in DNA sequence. There is an exceptionally long (6819 nt) open reading frame uninterrupted by frame-shift mutations in the period since the insertion, which must therefore have been rather recent. Alignment with other gypsy-class elements and with retroviruses indicates that an env gene occupies the 3' 1.2 kb of the open reading frame. A search through GenBank has uncovered two additional gypsy-class elements from C. elegans that are very closely related in DNA sequence to this insert and are transcribed. Since gypsy of Drosophila has been shown to be an infectious element, it is possible that retrovirus-like gypsy elements are active in C. elegans.

The identity of the base following the stop codon determines the efficiency of in vivo translational termination in Escherichia coli

A statistical analysis of > 2000 Escherichia coli genes suggested that the base following the translational stop codon might be an important feature of the signal for termination. The strengths of each of 12 possible 'four base stop signals' (UAAN, UGAN and UAGN) were tested in an in vivo termination assay that measured termination efficiency by its direct competition with frameshifting. Termination efficiencies varied significantly depending on both the stop codon and the fourth base, ranging from 80 (UAAU) to 7% (UGAC). For both the UAAN and UGAN series, the fourth base hierarchy was U > G > A approximately C. UAG stop codons, which are used rarely in E. coli, showed efficiencies comparable with UAAN and UGAN, but differed in that the hierarchy of the fourth base was G > U approximately A > C. The rate of release factor selection varied 30-fold at UGAN stop signals, and 10-fold for both the UAAN and UAGN series; it correlated well with the frequency with which the different UAAN and UGAN signals are found at natural termination sites. The results suggest that the identity of the base following the stop codon determines the efficiency of translational termination in E. coli. They also provide a rationale for the use of the strong UAAU signal in highly expressed genes and for the occurrence of the weaker UGAC signal at several recording sites.

Liddle's syndrome: heritable human hypertension caused by mutations in the beta subunit of the epithelial sodium channel

Liddle's syndrome (pseudoaldosteronism) is an autosomal dominant form of human hypertension characterized by a constellation of findings suggesting constitutive activation of the amiloride-sensitive distal renal epithelial sodium channel. We demonstrate complete linkage of the gene encoding the beta subunit of the epithelial sodium channel to Liddle's syndrome in Liddle's original kindred. Analysis of this gene reveals a premature stop codon that truncates the cytoplasmic carboxyl terminus of the encoded protein in affected subjects. Analysis of subjects with Liddle's syndrome from four additional kindreds demonstrates either premature termination or frameshift mutations in this same carboxy-terminal domain in all four. These findings demonstrate that Liddle's syndrome is caused by mutations in the beta subunit of the epithelial sodium channel and have implications for the regulation of this epithelial ion channel as well as blood pressure homeostasis.

enod40, a gene expressed during nodule organogenesis, codes for a non-translatable RNA involved in plant growth

Rhizobium meliloti can interact symbiotically with Medicago plants, thereby inducing root nodules. However, certain Medicago plants can form nodules spontaneously, in the absence of rhizobia. A differential screening was performed using spontaneous nodule versus root cDNAs from Medicago sativa ssp. varia. Transcripts of a differentially expressed clone, Msenod40, were detected in all differentiating cells of nodule primordia and spontaneous nodules, but were absent in fully differentiated cells. Msenod40 showed homology to a soybean early nodulin gene, Gmenod40, although no significant open reading frame (ORF) or coding capacity was found in the Medicago sequence. Furthermore, in the sequences of cDNAs and a genomic clone (Mtenod40) isolated from Medicago truncatula, a species containing a unique copy of this gene, no ORFs were found either. In vitro translation of purified Mtenod40 transcripts did not reveal any protein product. Evaluation of the RNA secondary structure indicated that both msenod40 and Gmenod40 transcripts showed a high degree of stability, a property shared with known non-coding RNAs. The Mtenod40 RNA was localized in the cytoplasm of cells in the nodule primordium. Infection with Agrobacterium tumefaciens strains bearing antisense constructs of Mtenod40 arrested callus growth of Medicago explants, while overexpressing Mtenod40 embryos developed into teratomas. These data suggest that the enod40 genes might have a role in plant development, acting as 'riboregulators', a novel class of untranslated RNAs associated with growth control and differentiation.

The occurrence of heritable Mu excisions in starving cells of Escherichia coli

A strain of Escherichia coli constructed by Shapiro has a segment of Mu bacteriophage DNA inserted between the araC and lacZ genes. Excision events that produce an in-frame fusion of lacZ to araB result in a cell (here designated Ara-Lac+) that can grow on lactose if arabinose is present as an inducer. Whether or not these excision events occur in the absence of selection for the Ara-Lac+ phenotype has figured prominently in the debate of the phenomenon known as 'directed' or 'adaptive' mutation. In an attempt to settle the issue, we have used classic fluctuation tests to show that cells capable of producing a clone of descendants that are phenotypically Ara-Lac+ do, indeed, arise in stationary phase cultures kept starving in depleted minimal medium. We found that Ara-Lac+ progenitors arise rapidly under these conditions, in contrast to the delayed appearance of Ara-Lac+ mutants when cells are incubated on lactose-arabinose minimal plates. Similar results are reported in the accompanying paper by Maenhaut-Michel and Shapiro, who used indirect selection to isolate Ara-Lac+ cells in the absence of selection. However, their sequencing data have introduced a new unexpected complication to the interpretation of all such experiments, and it is no longer clear exactly when the fusions arise.

Reading-frame shift in Saccharomyces glucoamylases restores catalytic base, extends sequence and improves alignment with other glucoamylases

A recent article [Coutinho and Reilly (1994) Protein Engng, 7, 749-760] presented the alignment of 14 glucoamylases by hydrophobic cluster analysis. The catalytic bases of two of these glucoamylases, from Saccharomyces cerevisiae and Saccharomyces diastaticus, were not conserved, opening the possibility of a reading-frame shift error in a segment coding for amino acids near the apparent C-termini of the mature proteins. Indeed, an addition of one nucleotide restores the catalytic base, extends the sequence by 39 residues and greatly improves the amino acid alignment in this region.

SPE1 and SPE2: two essential genes in the biosynthesis of polyamines that modulate +1 ribosomal frameshifting in Saccharomyces cerevisiae

We previously showed that a mutant of Saccharomyces cerevisiae, which cannot make spermidine as a result of a deletion in the SPE2 gene (spe2 delta), exhibits a marked elevation in +1 ribosomal frameshifting efficiency in response to the Ty1 frameshift sequence, CUU AGG C. In the present study, we found that spermidine deprivation alone does not result in increased +1 ribosomal frameshifting efficiency. The high level of +1 ribosomal frameshifting efficiency in spe2 delta cells is the result of the combined effects of both spermidine deprivation and the large increase in the level of intracellular putrescine resulting from the derepression of the gene for ornithine decarboxylase (SPE1) in spermidine-deficient strains.

Identification and analysis of the site of -1 ribosomal frameshifting in red clover necrotic mosaic virus

The genomic RNA-1 of red clover necrotic mosaic dianthovirus (RCNMV) contains the heptanucleotide GGAUUUU that precedes the termination codon of the 5' proximal p27 open reading frame (ORF). This heptanucleotide is followed by a sequence with the potential to form a stable, complex secondary structure. Translation of RNA-1 is postulated to utilize a -1 ribosomal frameshifting mechanism to express the 88-kDa viral RNA polymerase. Using site-directed mutagenesis together with cell-free translation to monitor frameshifting and a biological assay of the mutants in plants, we establish the role of the GGAUUUU as the site where -1 ribosomal frameshifting occurs. The frameshifting signal sequence conforms to the simultaneous slippage model. Stop codons flanking the shifty signal are not required for frameshifting but the p27 ORF termination codon is necessary for maintaining optimal infectivity of the virus. Mutations abolishing the RCNMV RNA-1 internal p57 ORF initiation codon did not affect infectivity of the virus, suggesting that this cistron is only expressed in vivo as an 88-kDa ribosomal frameshifting product. Shifty heptanucleotide signals from a number of animal retroviruses and RNA plant viruses facilitate RCNMV frameshifting in vitro. However, only a limited number of the heterologous shifty heptanucleotides were functional in plant cells. We suggest that specific shifty tRNA populations in the cell facilitate viral -1 ribosomal frameshifting. This analysis also suggests that the slippery sequence requirements are not identical in mammalian and in plant systems.

Characterization of a herpes simplex virus type 1 deletion variant (1703) which under-produces Vmw63 during immediate early conditions of infection

The herpes simplex virus type 1 deletion variant 1703 apparently fails to synthesize the essential IE2 gene product Vmw63 despite the deletion leaving the gene intact. Sequence analysis revealed that the deletion removes a region to the right of IE2 comprising the 3' end of IE1, UL56 and the 3' part of UL55, stopping 555 bp downstream of the IE2 polyadenylation signal. Further DNA sequencing has shown that there is no secondary mutation in the IE2 gene. Western blot analysis demonstrated that Vmw63 is made at reduced levels compared to that produced by the wild-type virus during immediate early conditions of infection. S1 nuclease protection mapping has revealed that this reduction is also apparent at the level of mRNA synthesis. A direct link between the deletion and the change in mRNA synthesis was provided by the insertion of a deletion-spanning fragment from 1703 into a 17+ genome, which resulted in the recombinant having a 1703-like phenotype. Evidence that down-regulation of IE2 mRNA during immediate early conditions of infection could be due to antisense RNA initiating from the IE1 promoter was obtained by the insertion of a novel transcriptional termination signal between IE1 and IE2 in the variant and the subsequent detection of wild-type levels of IE2 mRNA and protein.

Structure and transcription of an immediate-early region in the human herpesvirus 6 genome

The unique segment of the human herpesvirus 6 (HHV-6) genome is essentially collinear to the unique long DNA segment of another betaherpesvirus, the human cytomegalovirus (HCMV). However, the HHV-6 genomic section that is analogous in position to the major immediate-early (IE) locus of HCMV does not exhibit recognizable sequence homologies. The respective HHV-6 region of 5.5 kbp is flanked on one side by 25 to 28 incomplete tandem repeats of 105 to 110 bp that contain, with one exception, a single KpnI restriction site (KpnI repeats). About 250 reiterations of the sequence motif CACATA are located on the other end. We identified two open reading frames of 375 and 2,595 nucleotides, respectively, on one strand. Strand-specific Northern blot analyses with RNA harvested from HHV-6 (strain U1102)-infected HSB-2 cells or cord blood lymphocytes revealed two transcripts of about 3.5 and 4.7 kb in the corresponding orientation. Sequence analyses of the respective cDNA clones and primer extension experiments were used to map the mRNAs. The two transcripts are coterminal and multiply spliced and code for the same putative 104.6-kDa protein, but they are initiated from different promoters. Characterization of smaller cDNA clones and Northern blotting with other strand-specific probes showed that singly spliced mRNAs of 1.0 and 1.5 kb are transcribed from the opposite strand; they could code for a 17.2-kDa polypeptide. Blocking experiments with cycloheximide led to the conclusion that only the 3.5-kb mRNA is synthesized in the absence of protein biosynthesis upon infection with cell-free virus. This identifies a single IE gene of HHV-6 at the genomic position corresponding to the major IE region of HCMV, although the coding content and transcriptional regulation are quite different for these two herpesvirus IE regions.

Expression of the Prevotella loescheii adhesin gene (plaA) is mediated by a programmed frameshifting hop

The 2.4-kb plaA gene, which encodes a Prevotella loescheii galactoside-specific adhesin, contains a programmed frameshifting hop. The frameshift region consists of two UAA termination codons, two repeats of four identical bases between the terminators, and a stem-loop structure that has the potential to form a pseudoknot located downstream from the second UAA. The stem-loop and pseudoknot are features found in a number of retroviruses where frameshifting is a more common occurrence. The terminators, sequence repeats, and secondary structures were identified in both the P. loescheii plaA gene and the mRNA transcript. An in-frame fusion of the entire plaA frameshift region between codons 9 and 10 of the lacZ gene permitted relatively efficient expression (4 to 25% of that of the control) of beta-galactosidase in Escherichia coli.

Cloning, characterization, and nucleotide sequence analysis of the argH gene from Campylobacter jejuni TGH9011 encoding argininosuccinate lyase

The complete structural gene for argininosuccinate lyase (argH) from Campylobacter jejuni TGH9011 has been cloned into Escherichia coli by complementation of an E. coli argH auxotrophic mutant. The gene has been subcloned for sequencing on a 4.1-kb DNA segment and localized by the complementing activity of deletion mutants. The complete DNA sequence of the C. jejuni argH gene was determined. The transcription start point for argH mRNA was determined by primer extension analysis and found to be within the coding sequence of the upstream gene, identified as the phosphoenolpyruvate carboxykinase gene (ppc). The argininosuccinate lyase and the phosphoenolpyruvate carboxykinase reading frames overlap by one base, the second example of this phenomenon in C. jejuni chromosomal genes. The enzyme has a deduced subunit molecular weight of 51,831. Recombinant plasmids containing the argH gene generate a 56-kDa protein and a 43-kDa protein in E. coli maxicells. An alternate translation initiation producing a polypeptide with a deduced molecular mass of 42 kDa may account for the smaller protein observed in sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The C. jejuni argH gene shows nucleotide homology to both yeast and human argininosuccinate lyase genes, and conserved amino acid domains are evident between the corresponding proteins.

Translational frameshifting at the gag-pol junction of human immunodeficiency virus type 1 is not increased in infected T-lymphoid cells

A frameshift event is necessary for expression of the products of the pol gene in a number of retroviruses, including human immunodeficiency virus type 1 (HIV-1). The basic signals necessary for frameshifting consist of a shifty sequence in which the ribosome slips and a downstream stimulatory structure which can be either a stem-loop or a pseudoknot. In HIV-1, much attention has been paid to the frameshift site itself, and only recently has the role of the downstream structure been examined. Here we used a luciferase-based experimental system to analyze in vivo the cis and trans factors potentially involved in controlling frameshifting efficiency at the gag-pol junction of HIV-1. We demonstrated that high-level frameshifting is dependent on the presence of a palindromic region located downstream of the site where the frameshift event takes place. Frameshifting efficiencies were found to be identical in mouse fibroblasts and the natural host cells of the virus, i.e., CD4+ human lymphoid cells. Furthermore, no increase in frameshifting was observed upon virus infection. Previous observations have shown that viral infection leads to specific alteration of tRNAs involved in translation of shifty sites (D. Hatfield, Y.-X. Feng, B.J. Lee, A. Rein, J.G. Levin, and S. Oroszlan, Virology 173:736-742, 1989). The results presented here strongly suggest that these modifications do not affect frameshifting efficiency.

New overlapping gene encoded by the cucumber mosaic virus genome

Cucumber mosaic virus (CMV) contains three genomic RNAs (RNAs 1, 2, and 3) and a subgenomic RNA (RNA 4), a shared feature of the Bromoviridae family which includes cucumoviruses, bromoviruses, alfalfa mosaic virus, and ilarviruses. We describe in this paper the molecular characterization of a novel subgenomic RNA of the Q strain of CMV (Q-CMV), RNA 4A, which was first reported in 1973 (K. W. C. Peden and R. H. Symons, Virology 53, 487-492, 1973). RNA 4A is 682 nucleotides and is identical in sequence to the 3'-terminal 682 nucleotides of RNA 2. RNA 4A encodes a small open reading frame (ORF) of 100 codons, which, in RNA 2, overlaps the C-terminal portion of the major 2a gene; thus it is likely that RNA 4A functions as the mRNA for the in vivo expression of the ORF, called ORF 2b. Polyclonal antibodies raised against a 2b fusion protein expressed in Escherichia coli specifically detected the 2b gene product in Q-CMV-infected cucumber plants by Western immunoblotting. Examination of published viral RNA sequences revealed the conservation of ORF 2b in all of the four other cucumoviruses sequenced to date; however, it is absent from the rest of the Bromoviridae. We suggest that the proposed ORF 2b may be expressed in other cucumoviruses, most likely via 4A-like subgenomic RNAs, and that the predicted gene product may have a unique functional role in the infection process of cucumoviruses.

A frame-specific symmetry of complementary strands of DNA suggests the existence of genes on the antisense strand

The bacterial DNA sequence in GenBank database were divided into coding and noncoding regions and examined for the base-trimer distribution in every triplet frame on the sense and antisense strands. The results revealed that for the noncoding region, both strands have very similar base-trimer distributions and have no frame specificity; that is, DNA is symmetric in the noncoding region. For the coding region, on the other hand, the symmetry is broken only in the triplet framework, and we found a special triplet-frame-specific symmetry which appears when the two complementary strands of the coding region are read from their 5' ends. In addition, the following frame specificity was also observed in the distribution of stop codons on the antisense strand of the coding region. When the antisense sequences of the open reading frames (ORFs) in the database are read in the three reading frames, the same reading frame as the corresponding ORF contains a significantly larger amount of long open frames without stop codons (i.e., nonstop frames [NSFs]) than expected, while the number of NSFs in the other two reading frames is similar to that of the expected one. That is, NSFs as well as ORFs are maintained in a frame-specific manner, and in this sense, DNA becomes symmetrical even in the coding region. These two kinds of frame-specific symmetries indicate that only an ORF and its complementary triplets are specifically recognized and maintained in DNA.(ABSTRACT TRUNCATED AT 250 WORDS)

RNA editing in Newcastle disease virus

The co-transcriptional editing of the Newcastle disease virus (NDV) P gene has been studied by sequence analysis of cloned viral genomic RNA and mRNA. Evidence has been obtained for the specific insertion of non-templated G nucleotides, the consequence of which is the generation of three populations of P gene-derived mRNAs. The three populations encode proteins (P, V and W) which have a common N-terminal region, but which utilize three different reading frames at their C termini. Paradoxically, NDV edits its P gene mRNA by the insertion of non-templated G residues in a manner similar to Sendai and measles viruses (P-->V editing) despite its apparent closer evolutionary relationship to the simian virus type 5, mumps and related group of viruses which edit a V genomic sequence to generate an mRNA to encode a functional P protein (V-->P editing).

FGF3 from Xenopus laevis

Fibroblast growth factor 3 (FGF3) was first identified as the product of a cellular oncogene activated by mouse mammary tumour virus but its normal role appears to be in the developing embryo. To gain further insights into its function, we have isolated sequences encoding the FGF3 homologue in Xenopus laevis, XFGF3. COS-1 cells transfected with XFGF3 cDNA express a 31 kDa product, p31, generated by signal peptide cleavage and Asn-linked glycosylation at the single consensus site. This product is secreted and becomes associated with the cell surface and extracellular matrix. Proteolytic cleavage of p31 in the extracellular compartment results in an amino-terminally truncated product, p27, that is also glycosylated. Both p31 and p27 bind quantitatively to heparin-Sepharose and can be displaced from the cell surface and extracellular matrix by soluble heparin. Conditioned medium containing these two proteins is capable of inducing transient morphological transformation of NIH3T3 cells and of stimulating DNA synthesis in quiescent C57MG and BALB/MK cells which express different isoforms of FGF receptors 1 and 2. Since XFGF3 behaves very differently from its mouse counterpart, we constructed chimeras in which amino-terminal sequences from XFGF3 were fused with carboxy-terminal sequences from mouse FGF3. Increasing the contribution from mouse FGF3 led to a more restricted host range for the chimeric ligand.

Binding and transcriptional activation of the promoter for the neural cell adhesion molecule by HoxC6 (Hox-3.3)

Scores of homeobox gene-encoded transcription factors are expressed in a definite spatiotemporal pattern during embryogenesis and regulate a series of as yet unidentified target genes to help coordinate the morphogenetic process. We have suggested that homeobox gene products modulate the expression of adhesion molecule genes and have shown in cotransfection experiments that the promoters for the neural cell adhesion molecule (N-CAM) and cytotactin/tenascin genes respond to cues from different homeobox-containing genes. In this study, we show that the HoxC6 (Hox-3.3)-encoded homeoprotein binds to a DNA sequence in the N-CAM promoter CCTAATTATTAA, designated homeodomain binding site I (HBS-I). To test whether HoxC6 regulated N-CAM promoter activity, we cotransfected the Long and Short reading frame variants of Xenopus HoxC6 (CMV-HoxC6-L and CMV-HoxC6-S) driven by the human cytomegalovirus (CMV) promoter together with a chloramphenicol acetyltransferase (CAT) reporter gene driven by the mouse N-CAM promoter (N-CAM-Pro-CAT). Cotransfection of NIH 3T3 cells with either of the CMV-HoxC6 expression vectors stimulated N-CAM promoter-driven CAT expression. A 47-bp region from the N-CAM promoter that included HBS-I and an adjacent potential HBS, HBS-II, conferred HoxC6 regulation on a simian virus 40 minimal promoter. HBS-I was sufficient for transactivation of the minimal promoter by CMV-HoxC6-S. However, transcriptional activation by CMV-HoxC6-L required both HBS-I and HBS-II, inasmuch as mutation of either HBS-I, HBS-II, or both motifs abolished the response. These studies suggest that HBS-I is a target site for binding and transcriptional control of the N-CAM promoter by homeoproteins, although accessory DNA sequences (such as HBS-II) may also be required. Together with previous studies, these results support the notion that N-CAM gene expression may be controlled by different combinations of homeoproteins that appear in a place-dependent manner during embryogenesis.

A small highly basic protein is encoded in overlapping frame within the P gene of vesicular stomatitis virus

Vesicular stomatitis virus (VSV) has served for several decades as the prototype rhabdovirus and a model RNA virus. Extensive studies upheld the original view of VSV genetics with simply five genes (N, P, M, G, and L), each encoding a single unique protein. We now report the first unambiguous demonstration of the existence of an additional unique protein encoded in an overlapping frame within the virus P gene. Experiments using antipeptide sera specific for the predicted second open reading frame have demonstrated the synthesis of two N-terminally nested forms of the protein in virus-infected cells. The major form is 55 amino acids in length, whereas the minor form has 10 additional N-terminal amino acids. Ribosome initiation of synthesis of these proteins appears to occur at AUG codons, 68 and 41 bases, respectively, downstream of the P protein AUG initiation codon. The proteins are found in the cytoplasm of the infected cell but are undetectable in purified virions, consistent with their being nonstructural proteins. Both the major and minor forms of the protein are highly basic and arginine rich, reminiscent of the C and C' proteins encoded in overlapping frame close to the 5' terminus of the P mRNA of several paramyxoviruses. The potential to encode small, highly basic proteins within the P mRNA 5' terminus is highly conserved among the vesiculoviruses.

The equine herpesvirus 1 (EHV-1) UL3 gene, an ICP27 homolog, is necessary for full activation of gene expression directed by an EHV-1 late promoter

We have previously reported that the equine herpesvirus 1 (EHV-1) XbaI G restriction fragment (nucleotides 1436 to 7943 relative to the left terminus of the EHV-1 genome [Kentucky A strain]) is required in combination with the EHV-1 immediate-early (IE) gene to achieve significant activation of two representative EHV-1 late promoter-chloramphenicol acetyltransferase (CAT) recombinants in transient expression assays. In this report, we demonstrate that the XbaI G-encoded UL3 gene (an ICP27 homolog) provides a trans-acting factor which acts (in combination with the EHV-1 IE gene product) to increase reporter gene expression directed by an EHV-1 late promoter-CAT recombinant plasmid. We show that cloned copies of UL3 can successfully substitute for the XbaI G fragment in CAT assays and that stop codon insertion within the UL3 open reading frame inhibits the ability of UL3 to activate reporter gene expression in trans.

Identification of a Bdellovibrio bacteriovorus genetic locus, hit, associated with the host-independent phenotype

Bdellovibrios invade and grow within the periplasmic space of suitable gram-negative bacteria. Wild-type bdellovibrios are obligately dependent on host cells for growth, but spontaneous host-independent (H-I) mutants that grow axenically on standard rich culture media can be isolated. Such mutants generally retain the ability to grow intraperiplasmically, although the plaques that they produce on lawns of host cells are smaller and more turbid than those produced by wild-type bdellovibrios. Here, we identify the first genetic locus associated with the H-I phenotype: hit (host interaction). We show that three individual H-I mutants suffered mutations at the hit locus and that recombination of wild-type hit sequences into the genomes of the H-I mutants greatly enhanced their plaquing ability. DNA sequence analysis localized the hit mutation in each of the H-I mutants to a 135-bp region of the genome. Mutations at hit may not fully account for the H-I phenotype, however, as recombination of wild-type hit sequences into the genomes of the H-I mutants had little effect on the axenic-growth phenotype of the mutants. Possible explanations for this result and potential roles for the hit locus are discussed.

Regulation of varicella-zoster virus gene expression in human T lymphocytes

Varicella-zoster virus (VZV), a neurotropic alphaherpesvirus, is the etiologic agent of chicken pox and shingles (zoster) in humans. Using an in vitro transient expression assay, we have evaluated the ability of the putative immediate early VZV genes, ORF4, ORF61, and ORF62 (the analogs of the herpes simplex virus alpha 27, alpha 0, and alpha 4 genes, respectively), to modulate the expression of VZV genes of different putative kinetic classes in a human T lymphocyte cell line. These cells are of the type in which VZV can be readily detected in the viremic phase of human infection. We present evidence to indicate that, in this system, the gene product of ORF62 (IE62) is a major regulatory protein in VZV and is capable of activating VZV genes of all putative kinetic classes. In addition, we demonstrate that the gene product of ORF4 and, unlike the apparent situation in Vero cells, the gene product of ORF61 may play an accessory regulatory role in synergizing the activation of VZV genes induced by the gene product of ORF62 in human T lymphocytes.

Identification of the Rev transactivation and Rev-responsive elements of feline immunodeficiency virus

Spliced messages encoded by two distinct strains of feline immunodeficiency virus (FIV) were identified. Two of the cDNA clones represented mRNAs with bicistronic capacity. The first coding exon contained a short open reading frame (orf) of unknown function, designated orf 2. After a translational stop, this exon contained the L region of the env orf. The L region resides 5' to the predicted leader sequence of env. The second coding exon contained the H orf, which began 3' to env and extended into the U3 region of the long terminal repeat. The in-frame splicing of the L and H orfs created the FIV rev gene. Site-directed antibodies to the L orf recognized a 23-kDa protein in infected cells. Immunofluorescence studies localized Rev to the nucleoli of infected cells. The Rev-responsive element (RRE) of FIV was initially identified by computer analysis. Three independent isolates of FIV were searched in their entirety for regions with unusual RNA-folding properties. An unusual RNA-folding region was not found at the Su-TM junction but instead was located at the end of env. Minimal-energy foldings of this region revealed a structure that was highly conserved among the three isolates. Transient expression assays demonstrated that both the Rev and RRE components of FIV were necessary for efficient reporter gene expression. Cells stably transfected with rev-deleted proviruses produced virion-associated reverse transcriptase activity only when FIV Rev was supplied in trans. Thus, FIV is dependent on a fully functional Rev protein and an RRE for productive infection.

A simple method for overproduction and purification of p24 Gag protein of human immunodeficiency virus type 1

A simple method for the overproduction in Escherichia coli and purification of major core protein p24 of human immunodeficiency virus type 1 (HIV-1) was described. The gag-pol region encoding p24, p15, and protease was fused to 3' end of lacZ gene on plasmid. A LacZ-Gag fusion protein, the major primary product, is designed to be cleaved by the HIV-1 protease coexpressed through frameshifting. In fact, p24 and its immediate precursor, p25, were produced in the cells grown at 25C, but not at 37C. When the gag and pol frames were fused in-frame to express the protease without frameshifting, the main product, a LacZ-Gag-Pol fusion protein, was efficiently processed to give p24 exclusively both at 37C and 25C, suggesting more efficient expression of the protease. Recombinant p24 was purified to near homogeneity by a simple three-step procedure. The amino-terminal sequence of the recombinant p24 was the same as that of p24 deduced from nucleotide sequence, indicating that correct processing occurred in E. coli by the coexpressed protease. The method described here provides a means to obtain a large amount of highly pure p24, which is useful for crystallographic and functional studies, preparation of specific antibody, and diagnostic and prognostic uses.

Spliced RNA of woodchuck hepatitis virus

Polymerase chain reaction was used to investigate RNA splicing in liver of woodchucks infected with woodchuck hepatitis virus (WHV). Two spliced species were detected, and the splice junctions were sequenced. The larger spliced RNA has an intron of 1300 nucleotides, and the smaller spliced sequence shows an additional downstream intron of 1104 nucleotides. We did not detect singly spliced sequences from which the smaller intron alone was removed. Control experiments showed that spliced sequences are present in both RNA and DNA in infected liver, showing that the viral reverse transcriptase can use spliced RNA as template. Spliced sequences were detected also in virion DNA prepared from serum. The upstream intron produces a reading frame that fuses the core to the polymerase polypeptide, while the downstream intron causes an inframe deletion in the polymerase open reading frame. Whereas the splicing patterns in WHV are superficially similar to those reported recently in hepatitis B virus, we detected no obvious homology in the coding capacity of spliced RNAs from these two viruses.

Indian hepatitis E virus shows a major deletion in the small open reading frame

Enterically transmitted non-A, non-B hepatitis virus (HEV), the causative agent for sporadic and large epidemic outbreaks in developing countries, contains a positive-sense single-stranded RNA genome. The genome of the virus encodes three open reading frames (ORF1, ORF2, and ORF3). The gene segment corresponding to the small open reading frame (ORF3), overlapping between ORF1 and ORF2, was synthesized by reverse transcription-polymerase chain reaction (RT-PCR) from a number of previously identified HEV-positive clinical specimens. A DNA fragment of 166 bp was consistently obtained from all the clinical specimens. This small fragment was cloned, sequenced, and found to contain an open reading frame encoding only 41 amino acid residues. Comparison of our results with that of geographically related Burma HEV suggests a major inframe deletion of 246 bp in the ORF3 of Indian strain. The protein encoded by ORF3 does not appear to be useful for early serodiagnosis as a synthetic peptide deduced from the truncated ORF3 failed to show any demonstrable immunoreactivity against HEV-infected acute phase sera in an enzyme-linked immunosorbent assay.

Increased synthesis of polycistronic mRNA associated with increased polyadenylation by vesicular stomatitis virus

Electron microscopy suggested that the mRNA produced in vitro by tsG16(I), a temperature-sensitive mutant of vesicular stomatitis virus, contained an increased proportion of polycistronic mRNAs. Using hybrid selection, we found that the poly(A)+ mRNA synthesized in vitro by tsG16(I) contained approximately two to three times more polycistronic mRNA than did poly(A)+ mRNA synthesized in vitro by the parental wild-type (wt) virus. The increase in polycistronic mRNA occurred at all intergenic junctions examined. In vitro, tsG16(I) has an increased polyadenylation phenotype and a temperature-sensitive transcriptase activity that appear to be due to different mutations. Partial revertants of tsG16(I), which have lost the aberrant polyadenylation phenotype but retain the in vitro thermosensitive transcriptase, produced wt amounts of polycistronic mRNA. This suggested that the increased production of polycistronic mRNA by tsG16(I) may be associated with the increased polyadenylation phenotype of this mutant. These data further support the hypothesis that an increase in size of poly(A) tracts is associated with increased production of polycistronic mRNA.