Molecular characterization of the mouse ribosomal protein S24 multigene family: a uniquely expressed intron-containing gene with cell-specific expression of three alternatively spliced mRNAs.

A family of 16 genes encoding the mouse ribosomal protein S24 was identified, and four members from this family were cloned. A single expressed intron-containing S24 gene (termed mrpS24) and one pseudogene (mrpS24p) were completely sequenced and characterized. The mrpS24 gene has seven exons and six introns spanning over 5.1 x 10(3) nucleotides (nt). The cap site of S24 was mapped to a G residue four nt upstream of a polypyrimidine tract and 15 nt downstream of a TATA-like (TATGA) element. The 5' region (-325 to +33) of the mrpS24 gene has a functional promoter that was able to express the fused chloramphenicol acetyltransferase (CAT) reporter gene. Two different forms of mouse S24 cDNA clones were previously isolated. Sequence analysis showed that one of these cDNA clones (termed S24a) lacks the entire exon V sequence (18 nt), and the deduced amino acid sequence is missing a C-terminal lysine residue encoded by the other cDNA (S24b). The pseudogene mrpS24p is flanked by an 11-bp direct repeat, and its sequence is almost identical to the S24 cDNA sequence, but it lacks two mini-exons, V and VI (20 nt), as in the cases of the human and rat S24 cDNAs. RT-PCR experiments demonstrated the existence of a third form (S24c) that similarly lacks both of the mini-exons, and suggested that different species of S24 mRNA might arise from alternative splicing of the mini-exons V and VI. Northern blot analysis showed that S24 expression is down- and up-regulated during adipocyte differentiation and in cellular transformation, respectively. RNase protection assays and RT-PCR experiments suggested that these cell-specific changes of S24 mRNA levels are mainly due to fluctuations in S24c mRNA level. Our results provide the first indication that a ribosomal protein gene is regulated by alternative usage of two mini-exons in a cell-specific manner.     

Isolation and nucleotide sequence of a sesquiterpene cyclase gene from the trichothecene-producing fungus Fusarium sporotrichioides

The trichodiene synthase gene (Tox5) has been isolated from the fungus Fusarium sporotrichioides, and its nucleotide (nt) sequence determined. A lambda gt11 library of F. sporotrichioides DNA was screened with antiserum against trichodiene synthase (TS). DNA fragments were isolated which encode a portion of the Tox5 gene. In subsequent screening of the library we employed one of these DNAs as a probe and identified several recombinant phage containing the entire Tox5 gene. The gene consists of a 1182-nt open reading frame (ORF) which contains a 60-nt intron and specifies a Mr 43,999 protein. The deduced amino acid sequence of the ORF was identical to sequences determined for several CNBr peptides from purified TS. Southern and Northern analyses indicated that the Tox5 gene is present in a single copy and is transcribed into an mRNA of about 1450 nt. Upstream from the start codon, 'TATA'-like sequences and a short repeated sequence resembling the 'CCAAT' box were observed. The primary structure described for TS is the first such report for a member of the terpene cyclase group of enzymes.     

Molecular cloning and nucleotide sequence of a bovine alpha-lactalbumin cDNA

A cDNA clone for the bovine milk protein, alpha-lactalbumin (alpha LA), has been identified using a rat cDNA probe. The bovine cDNA clone is 703 nucleotides (nt) long, contains 8 nt of 5'-untranslated sequence and 269 nt of 3'-untranslated sequence. When compared with previously reported sequences, the bovine alpha LA mRNA sequence has 74% similarity with rat alpha LA mRNA, 79% similarity with human mRNA and 74% similarity with guinea pig mRNA.     

A second gene (qutH) within the Aspergillus nidulans-quinic-acid utilisation gene cluster encodes a protein with a putative zinc-cluster motif.

A sequence of 3299 nt, contiguous with the previously sequenced quinate permease-encoding (qutD) gene and encompassing the dehydroshikimate dehydratase-encoding (qutC) gene, has been determined. Northern-blot analysis detected (i) a quinate-inducible mRNA of the expected size for the qutC gene, and (ii) a quinate-inducible mRNA of 1.45 kb divergently transcribed away from qutC towards qutD. Computer-aided sequence analysis identified an ORF of 1047 nt corresponding to the qutC gene encoding dehydroshikimate dehydratase. In addition, a genetically uncharacterized 1188-nt gene, designated qutH and containing a putative intron of 61 nt, was identified between qutC and qutD. The inferred protein sequence encoded by qutH contains a putative 'zinc cluster' motif and has a low (16%) but significant similarity with the DNA-directed DNA polymerase of hepatitis B virus. The results are interpreted as being consistent with the view that the qutH gene encodes a DNA-binding protein, possibly involved in the regulation of genes essential for the utilisation of protocatechuic acid.     

Identification of elements in human long 3′ UTRs that inhibit nonsense-mediated decay

The nonsense-mediated mRNA decay (NMD) pathway serves an important role in gene expression by targeting aberrant mRNAs that have acquired premature termination codons (PTCs) as well as a subset of normally processed endogenous mRNAs. One determinant for the targeting of mRNAs by NMD is the occurrence of translation termination distal to the poly(A) tail. Yet, a large subset of naturally occurring mRNAs contain long 3′ UTRs, many of which, according to global studies, are insensitive to NMD. This raises the possibility that such mRNAs have evolved mechanisms for NMD evasion. Here, we analyzed a set of human long 3′ UTR mRNAs and found that many are indeed resistant to NMD. By dissecting the 3′ UTR of one such mRNA, TRAM1 mRNA, we identified a cis element located within the first 200 nt that inhibits NMD when positioned in downstream proximity of the translation termination codon and is sufficient for repressing NMD of a heterologous reporter mRNA. Investigation of other NMD-evading long 3′ UTR mRNAs revealed a subset that, similar to TRAM1 mRNA, contains NMD-inhibiting cis elements in the first 200 nt. A smaller subset of long 3′ UTR mRNAs evades NMD by a different mechanism that appears to be independent of a termination-proximal cis element. Our study suggests that different mechanisms have evolved to ensure NMD evasion of human mRNAs with long 3′ UTRs.     

Nucleotide sequence of the woodchuck hepatitis virus surface antigen mRNAs and the variability of three overlapping viral genes

A cDNA library was constructed from the liver of a woodchuck chronically infected with woodchuck hepatitis virus (WHV). A clone, pWS23, encompassing the entire surface and X genes of WHV was isolated. Comparison of the complete nucleotide (nt) sequence of pWS23 with those of genomic DNAs from two different WHV isolates showed that it contained a nearly full-length copy of the major mRNA encoding the viral surface antigen (5 mRNA). It was colinear with the WHV genome over 1858 nt and terminated 22 nt downstream from the variant polyadenylation signal within the core gene. Evidence for heterogeneity of the 5′ -terminal region of the S mRNA came from direct sequencing of the 5′ extremities of 20 cDNA inserts, similar to that of pWS23, isolated from a second cDNA library of the same woodchuck liver. In agreement with previous mapping studies of hepadnaviruses, two main initiation regions of S mRNA were localized 27–30 nt upstream and 22–49 nt downstream from the pre-S2 initiation codon. Further analysis of the amino acid sequences of the surface, polymerase and X genes of WHV showed a high conservation among three WHY isolates and a similar distribution of conserved and variable regions in woodchuck and human hepatitis B viruses.     

Cloning and nucleotide sequence of ovine prolactin cDNA

A cDNA expression library was constructed in the lambda gt 11 phage vector using ovine (o) pituitary mRNA. The clone, pOP1, carrying a 934-bp insert contains an open reading frame beginning with the first nucleotide (nt) and ending with the stop codon TAA at nt position 781. Two potential translation start codons (ATGs) are present in the 5' region of this cDNA. Translation initiation could occur at the 5' proximal ATG at nt position 61. The nucleotide sequence around this ATG (TCCATGG), resembles the optimum sequence context for translation initiation by the eukaryotic ribosomes, as defined by mutational analysis [Kozak, Cell 44 (1986) 283-292)], with its substitution of the A at -3 of the consensus sequence by a T residue in this clone. Translation initiated at this codon could potentially code for the entire pre-prolactin (pre-PRL) molecule. The 3'-untranslated region is 154 nt long and contains a polyadenylation signal AATAAA. The deduced amino acid sequence agrees in totality with the published amino acid sequence of the mature hormone. The present study reports on the nucleotide sequence of o-PRL mRNA and the deduced amino acid sequence in the signal peptide of the hormone.     

Structure of the human genomic region homologous to the bovine prochymosin-encoding gene

Two human genomic libraries were probed with bovine prochymosin (bPC) cDNA. Recombinant clones covering a genomic region homologous to the entire coding region and flanking sequences of the bPC gene were isolated. Human sequences homologous to exons of the bPC gene are distributed in a DNA fragment of 10 kb. Alignment of the human sequences and the exons of bPC reveals that the human 'exons' 1-3, 5 and 7-9 have sizes identical to the corresponding bovine exons, but a nucleotide (nt) has been deleted in the human exon 4 and two nt in the human exon 6. The aligned human sequence and the coding part of bPC gene share 82% nt homology, the value ranging, in separate exons, from 76 (exon 1) to 84% (exons 5 and 6). 150 bp of 5'-flanking sequence of the human gene has 75% homology to the corresponding region of bPC gene and contains a TATA-box in a similar position. A 1-nt deletion in the human exon 4 would shift the translational reading frame of a putative human PC mRNA relative to bPC mRNA, and result in an in-phase terminator spanning codons 163 and 164 in bPC mRNA. Another terminator in-phase with the amino-acid sequence encoded by the bPC gene occurs in the human exon 5 and the second frameshift mutation in exon 6. Thus, the nt sequence analysis of the human genomic region has revealed the presence of mutations that have rendered it unable to produce a full-length protein homologous to bPC and, therefore, we refer to this gene as a human prochymosin pseudogene (hPC psi). Blot-hybridization analysis of human genomic DNA indicates that hPC psi is a single gene in the human genome.     

Molecular cloning and sequence of the gene for p9Ka. A cultured myoepithelial cell protein with strong homology to S-100, a calcium-binding protein

The gene for p9Ka, a protein of molecular weight 9000 that is expressed in cultured rat mammary myoepithelial cells, has been isolated from a normal rat genomic library in bacteriophage lambda, by its ability to hybridize to a cloned complementary DNA corresponding to p9Ka mRNA. The cloned rat genomic DNA fragment hybridized to translatable p9Ka mRNA. A nucleotide sequence of 2340 base-pairs of genomic DNA surrounding the p9Ka cDNA sequence has been obtained; the gene contains one intervening sequence of 675 nucleotides. The 3' end of the p9Ka mRNA has been identified on the gene sequence to be 13 nucleotides downstream from a poly(A) addition signal AATAAA. The gene contains an open reading frame of 101 amino acid residues, which is the only open reading frame in the entire gene long enough to encode a protein of molecular weight at least 9000. This hypothetical protein sequence shows greater than 40% homology to rat or bovine S-100 protein and over 30% homology to bovine intestinal calcium-binding protein. The results suggest that p9Ka may be related to a family of low molecular weight calcium-binding proteins.     

Molecular characterization of two endogenous double-stranded RNAs in rice and their inheritance by interspecific hybrids

We completely sequenced 13,936 nucleotides (nt) of a double-stranded RNA (dsRNA) of wild rice (W-dsRNA). A single long open reading frame (13,719 nt) containing the conserved motifs of RNA-dependent RNA polymerase and RNA helicase was located in the coding strand. The identity between entire nucleotide sequence of W-dsRNA and that of the dsRNA of temperate japonica rice (J-dsRNA, 13,952 nt) was 75.5%. A site-specific discontinuity (nick) was identified at nt 1,197 from the 5' end of the coding strand of W-dsRNA. This nick is also located at nt 1,211 from the 5' end in the coding strand of J-dsRNA. The dsRNA copy number was increased more than 10-fold in pollen grains of both rice plants. This remarkable increase may be responsible for the highly efficient transmission of J-dsRNA via pollen that we already reported. J-dsRNA and W-dsRNA were also efficiently transmitted to interspecific F1 hybrids. Seed-mediated dsRNA transmission to F2 plants was also highly efficient when the maternal parent was wild rice. The efficiency of dsRNA transmission to F2 plants was reduced when the maternal parent was temperate japonica rice; however, the reduced rates in F2 plants were returned to high levels in F3 plants.