A gene sequence expressed only in undifferentiated EC, EK cells and testes.

A clone, EC1, has been isolated from a cDNA library prepared from 4-day embryoid bodies formed by suspension culture of PSMB EC cells. This clone has been used to screen a variety of RNA sources including adult tissues, embryonal carcinoma (EC), and endoderm cell lines. A 3-kb poly(A)+ RNA species was found to be present only in undifferentiated EC cells and adult mouse testes. This species was significantly reduced in testes of W/Wv mice compared with wild-type at this locus. Germ cells and their progeny are therefore implicated as the source of the RNA in testes. Hybrid-selected RNA from PSMB could be translated in vitro into a 35-kd protein, but no translatable message was evident in either PYS-2 (parietal), or PSA5-E (visceral) endoderm cell lines. DNA sequencing of the EC1 insert revealed that it is 744 bp in length, the 3' 460 bp of which are in open reading frame. Comparison with known sequences have shown no significant homology. EC1 subclones in M13 have been used to generate single-stranded probes for hybridisation to RNA in situ in tissue sections. Hybridisation of the strand complementary to RNA produces a signal limited to the central regions of embryoid bodies formed on suspension culture of embryo-derived EK cells coinciding with the presence of undifferentiated cells. Probing of a mouse genomic library and Southern blots of liver DNA with EC1 reveals that the gene is present as a single copy.     

Analysis of a 26-kb region linked to the Mhc in zebrafish: genomic organization of the proteasome component beta/transporter associated with antigen processing-2 gene cluster and identification of five new proteasome beta subunit genes.

Sequencing of zebrafish (Danio rerio) bacterial artificial chromosome and P1 artificial chromosome genomic clone fragments and of cDNA clones has led to the identification of five new loci coding for beta subunits of proteasomes (PSMB). Together with the four genes identified previously, nine PSMB genes have now been defined in the zebrafish. Six of the nine genes reside in the zebrafish MHC (Mhc) class I region, four of them reside in a single cluster closely associated with TAP2 on a 26-kb long genomic fragment, and two reside at some distance from the fragment. In addition to homologues of the human genes PSMB5 through PSMB9, two new genes, PSMB11 and PSMB12, have been found for which there are no known corresponding genes in humans. The new genes reside in the PSMB cluster in the Mhc. Homology and promoter region analysis suggest that the Mhc-associated genes might be inducible by IFN-gamma. The zebrafish class I region contains representatives of three phylogenetically distinguishable groups of PSMB genes, X, Y, and Z. It is proposed that these genes were present in the ancestral PSMB region before Mhc class I genes became associated with it.     

The ORF2 protein of hepatitis E virus binds the 5' region of viral RNA

Hepatitis E virus (HEV) is a major human pathogen in much of the developing world. It is a plus-strand RNA virus with a 7.2-kb polyadenylated genome consisting of three open reading frames, ORF1, ORF2, and ORF3. Of these, ORF2 encodes the major capsid protein of the virus and ORF3 encodes a small protein of unknown function. Using the yeast three-hybrid system and traditional biochemical techniques, we have studied the RNA binding activities of ORF2 and ORF3, two proteins encoded in the 3' structural part of the genome. Since the genomic RNA from HEV has been postulated to contain secondary structures at the 5' and 3' ends, we used these two terminal regions, besides other regions within the genome, in this study. Experiments were designed to test for interactions between the genomic RNA fusion constructs with ORF2 and ORF3 hybrid proteins in a yeast cellular environment. We show here that the ORF2 protein contains RNA binding activity. The ORF2 protein specifically bound the 5' end of the HEV genome. Deletion analysis of this protein showed that its RNA binding activity was lost when deletions were made beyond the N-terminal 111 amino acids. Finer mapping of the interacting RNA revealed that a 76-nucleotide (nt) region at the 5' end of the HEV genome was responsible for binding the ORF2 protein. This 76-nt region included the 51-nt HEV sequence, conserved across alphaviruses. Our results support the requirement of this conserved sequence for interaction with ORF2 and also indicate an increase in the strength of the RNA-protein interaction when an additional 44 bases downstream of this 76-nt region were included. Secondary-structure predictions and the location of the ORF2 binding region within the HEV genome indicate that this interaction may play a role in viral encapsidation.     

Analysis of sequence upstream of the endogenous H19 gene reveals elements both essential and dispensable for imprinting

Imprinting of the linked and oppositely expressed mouse H19 and Igf2 genes requires a 2-kb differentially methylated domain (DMD) that is located 2 kb upstream of H19. This element is postulated to function as a methylation-sensitive insulator. Here we test whether an additional sequence 5' of H19 is required for H19 and Igf2 imprinting. Because repetitive elements have been suggested to be important for genomic imprinting, the requirement of a G-rich repetitive element that is located immediately 3' to the DMD was first tested in two targeted deletions: a 2.9-kb deletion (Delta D MD Delta G) that removes the DMD and G-rich repeat and a 1.3-kb deletion (Delta G) removing only the latter. There are also four 21-bp GC-rich repetitive elements within the DMD that bind the insulator-associated CTCF (CCCTC-binding factor) protein and are implicated in mediating methylation-sensitive insulator activity. As three of the four repeats of the 2-kb DMD were deleted in the initial 1.6-kb Delta DMD allele, we analyzed a 3.8-kb targeted allele (Delta 3.8kb-5'H19), which deletes the entire DMD, to test the function of the fourth repeat. Comparative analysis of the 5' deletion alleles reveals that (i) the G-rich repeat element is dispensable for imprinting, (ii) the Delta DMD and Delta DMD Delta G alleles exhibit slightly more methylation upon paternal transmission, (iii) removal of the 5' CTCF site does not further perturb H19 and Igf2 imprinting, suggesting that one CTCF-binding site is insufficient to generate insulator activity in vivo, (iv) the DMD sequence is required for full activation of H19 and Igf2, and (v) deletion of the DMD disrupts H19 and Igf2 expression in a tissue-specific manner.     

Expression of the cytochrome b-URF6-URF5 region of the mouse mitochondrial genome

The nature of RNA coded by the only light-strand (L-strand) open-reading frame unidentified reading frame 6 (URF6) was studied by using a variety of single- and double-strand DNA subclones derived from the 3.6-kilobase (kb) cytochrome b (cyt b)-URF5 coding region of the mouse mitochondrial genome. Northern blot experiments using single-strand-specific M13 clones indicate that both the heavy (H) and L strands of this genomic region are symmetrically transcribed and processed into poly(adenylic acid) [poly(A)] RNAs of comparable size. The 1.2- and 2.4-kb RNAs coded by the H strand, putative mRNAs for cyt b and URF5 reading frames, respectively, are derived from a common precursor of 3.6-kb RNA. The L-strand-coded 1.15-kb RNA, on the other hand, is derived from a short-lived precursor of 3.6-kb RNA by a multiple-step processing involving a 2.4-kb intermediate RNA. The S1 nuclease protection experiments using both the 3'- or 5'-end-labeled DNA probes and also affinity-purified 32P-labeled RNA probes indicate that the 1.15-kb RNA maps between the start of the URF6 reading frame (3' end) and a region 590-600 nucleotides to the 5' end of this reading frame. The 1.15-kb RNA thus contains the entire URF6 coding sequence and an about 590-nucleotide-long 3' untranslated region. The molar abundance of the three mRNAs in the steady-state mitochondrial RNA varies markedly. The 1.15-kb URF6 mRNA is only one-tenth the level of 1.2-kb cyt b mRNA, although it is nearly as abundant as the 2.4-kb URF5 mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cap-independent translational enhancement of turnip crinkle virus genomic and subgenomic RNAs

The presence of translational control elements and cap structures has not been carefully investigated for members of the Carmovirus genus, a group of small icosahedral plant viruses with positive-sense RNA genomes. In this study, we examined both the 5' and 3' untranslated regions (UTRs) of the turnip crinkle carmovirus (TCV) genomic RNA (4 kb) as well as the 5' UTR of the coat protein subgenomic RNA (1.45 kb) for their roles in translational regulation. All three UTRs enhanced translation of the firefly luciferase reporter gene to different extents. Optimal translational efficiency was achieved when mRNAs contained both 5' and 3' UTRs. The synergistic effect due to the 5'-3' cooperation was at least fourfold greater than the sum of the contributions of the individual UTRs. The observed translational enhancement of TCV mRNAs occurred in a cap-independent manner, a result consistent with the demonstration, using a cap-specific antibody, that the 5' end of the TCV genomic RNA was uncapped. Finally, the translational enhancement activity within the 5' UTR of 1.45-kb subgenomic RNA was shown to be important for the translation of coat protein in protoplasts and for virulent infection in Arabidopsis plants.     

Allotypes of the constant region of the rabbit T cell receptor beta-2 chain

Our laboratory previously reported that there was restriction fragment length polymorphism of TCR C beta genes in rabbits. EcoRI digests of DNA from different rabbits gave fragments of 9 and 6 kb (C beta a) or 14 and 6 kb (C beta b) that hybridized to a C beta cDNA probe. We also reported that the 9- and 14-kb types segregated as Mendelian traits and that there were allotypic differences in the first exon of the C beta 1 genes of C beta a and C beta b animals. Here we report the DNA sequence of the C beta 2 gene present in the 6-kb EcoRI fragment from a C beta b animal and compare the exon sequences with that of a cDNA from a C beta a animal. We find replacement changes in the first and third exons that probably represent allotypic forms of the rabbit C beta 2 gene. The genomic DNA 5' of exon 1 of both beta 1 and beta 2 contain alternating purine/pyrimidine repeat sequences. The genomic C beta 2 has an open reading frame of 69 amino acids in frame with exon 1 similar to a longer one previously found 5' of exon 1 of C beta 1. Further 5' of this region, rabbit C beta 1 and C beta 2 DNA sequences are only about 66% similar. Both the C beta 1 and C beta 2 sequences have two chi sequences; one in exon 1 with a perfect match and one in the intron downstream of exon 1 with one mismatch. Alternating purine/pyrimidine repeats and chi sequences found in rabbit C beta 1 and C beta 2 genes may have contributed to process(es) of gene duplication and/or conversion.     

S1 nuclease mapping of viral RNAs from a temperature-sensitive transformation mutant of murine sarcoma virus

The structures of murine sarcoma virus (MuSV) ts110 viral RNA and intracellular RNA present in MuSV ts110-infected cells (6m2 cells) have been examined by S1 nuclease analysis. A previous study involving heteroduplex analysis of MuSV ts110 viral RNAs hybridized to wild-type DNA revealed the presence of two MuSV ts110 RNAs, 4.0 and 3.5 kilobases (kb) in length, containing overlapping central deletions relative to wild-type MuSV 124 viral RNA (Junghans et al., J. Mol. Biol. 161:229-255, 1982). Here we show that the deletion (termed delta 1) in the 4.0-kb RNA has a 5' border located at about nucleotide 2409 (using the numbering system of Van Beveren et al., Cell 27:97-108, 1981), a position 63 bases upstream of the junction of the p30 and p10 coding sequences. The 3' border of the delta 1 deletion is found 1,473 bases downstream at approximately nucleotide 3883, 10 nucleotides downstream of the first mos gene initiation codon. In the 3.5-kb MuSV ts110 RNA, the 5' border of the deleted central region (termed delta 2) is located in a splice consensus donor site at approximately nucleotide 2017, 330 bases downstream from the junction of the p12 and p30 coding sequences, and extends about 1,915 bases in the downstream direction to nucleotide 3935, found in a splice consensus acceptor site about 55 nucleotides downstream of the first mos gene initiation codon and 30 bases upstream of the second initiation codon. No alteration of polyadenylate addition sites was observed in either MuSV ts110 RNA species, as compared with MuSV 349 RNA. The observation that the 5' and 3' borders of the deletion in the 3.5-kb RNA are within in-frame splice donor and acceptor sites suggests strongly that the 3.5-kb RNA is derived from the 4.0-kb RNA by a temperature-sensitive splice mechanism. Data presented here show unequivocally that formation of the 3.5-kb MuSV ts110 RNA from which the P85gag-mos polypeptide is translated is temperature sensitive. At 33 degrees C, with S1 analysis, the 3.5-kb RNA is found readily in 6m2 cells. Within 4 h of a shift to 39 degrees C, however, only trace amounts of this RNA can be found. Moreover, reshifting 6m2 cells to 33 degrees C permits the reappearance of the 3.5-kb RNA at its original level.     

Structural characterization of exon 6 of the rat IGF-I gene.

In rat liver, insulin-like growth factor I (IGF-I) mRNAs exist as two major size classes of 7.5-7.0 kb and 1.2-0.9 kb. The 7.5- to 7.0-kb IGF-I mRNAs predominate in some nonhepatic tissues of the rat. Because the previously reported sequences of rat IGF-I cDNAs and genomic clones account for only 2.1 kb of sequence, the majority of the sequence of 7.5- to 7.0-kb rat IGF-I mRNAs was unknown. Using a combination of nucleotide sequencing of genomic DNA and cDNA clones and Northern hybridization and RNase protection, we have characterized a 6,354-base-long 3' exon (exon 6) of the rat IGF-I gene. The sequence of exon 6 establishes the previously unknown sequence of the 3' end of the 7.5- to 7.0-kb rat IGF-I mRNAs, comprised predominantly of an unusually long 3' untranslated sequence (3'UT). The long 3'UT contains multiple ATTTA, A(T)nA, and (T)nA sequences, as well as inverted repeats. These sequences may contribute to the shorter half-life of the 7.5- to 7.0-kb rat IGF-I mRNAs relative to the 1.2- to 0.9-kb forms that have been demonstrated previously in vitro and in vivo. We also demonstrate that the 7.5- to 7.0-kb rat IGF-I mRNAs are localized to the cytoplasm of rat liver, providing indirect evidence that they are mature and functional mRNAs.