Developmental and functional analysis of Jonah gene expression

The Jonah genes are expressed twice in development: Jonah RNA is detected during all larval stages, disappears at the end of the third larval instar, and then reappears shortly after eclosion, in the adult midgut. Construction and analysis of Jonah cDNA clones reveals that multiple Jonah genes are transcribed; cDNA clones deriving from at least four different clusters of Jonah genes have been identified. In at least one case, multiple genes in a cluster are transcribed, and one cluster is found to be transcribed both in larvae and adults. Evidence that different Jonah genes are under different control with respect to both spatial and temporal patterns of expression has been provided. Jonah RNA encodes a 28-kDa translation product or products for which we consider a possible function. Jonah RNA of constant length is found to be conserved in all strains of Drosophila melanogaster examined, Jonah genes are found at a minimum of three common chromosomal sites in all of seven D. melanogaster strains examined, and multiple Jonah genes are found in other Drosophila species.     

Isolation of three novel Drosophila melanogaster genes containing repetitive sequences rich in GCN triplets.

Several cDNA and genomic clones were isolated from Drosophila melanogaster gene libraries by hybridization with a region of a mammalian gene that contains a simple repetitive sequence of six GCN repeats. One of the cDNA clones, E6, was completely sequenced and it was shown that it contains a region of 16 GCN repeats; these repeats encode a polyalanine stretch within a long open reading frame. The sequencing of three different genomic clones (A, B, and D) revealed that all the isolated Drosophila clones are similar to one another in a short region containing variable numbers of the GCN repeat. The genomic clone B was found to be the genomic counterpart of the cDNA clone E6. The other genomic clones, A and D, also hybridize with Drosophila cDNA clones at high stringency. These results indicate that the short GCN repetitive sequences, which we have named ala, are found within transcribed regions of the Drosophila genome. These Drosophila genes containing the ala repeat do not show significant sequence similarity to any presently known gene; we have named these novel genes ala-A, ala-B, and ala-D. The cDNA clone from gene ala-B was named ala-E6.     

Gene expression induced by copper stress in the diatom Thalassiosira pseudonana

Utilizing a PCR-based subtractive cDNA approach, we demonstrated that the marine diatom Thalassiosira pseudonana exhibits a rapid response at the gene level to elevated concentrations of copper and that this response attenuates over 24 h of continuous exposure. A total of 16 copper-induced genes were identified, 11 of which were completely novel; however, many of the predicted amino acid sequences had characteristics suggestive of roles in ameliorating copper toxicity. Most of the novel genes were not equivalently induced by H2O2- or Cd-induced stress, indicating specificity in response. Two genes that could be assigned functions based on homology were also induced under conditions of general cellular stress. Half of the identified genes were located within two inverted repeats in the genome, and novel genes in one inverted repeat had mRNA levels induced by approximately 500- to 2,000-fold by exposure to copper for 1 h. Additionally, some of the inverted repeat genes demonstrated a dose-dependent response to Cu, but not Cd, and appear to belong to a multigene family. This multigene family may be the diatom functional homolog of metallothioneins.     

Sequence of a genomic DNA clone for the small subunit of ribulose bis-phosphate carboxylase-oxygenase from tobacco.

We have cloned and sequenced a gene for the small subunit (SS) of ribulose bis-phosphate carboxylase-oxygenase from Nicotiana tabacum. The tobacco gene is most closely related to the SS genes from the dicots soybean and pea, and less so to the monocots wheat and Lemna; the deduced amino acid sequence of the mature protein is in all cases more closely conserved than is its chloroplast transit sequence. Unlike the genomic sequences of the two monocots, which have one intron, and the two other dicots, which have two introns, the tobacco gene has three introns. The third tobacco intron lies within a highly conserved region of the protein. Its position coincides with the boundary of a 12 amino acid insertion in the SS genes of higher plants, relative to those of blue green algae. The 5' flanking end of the gene carries 67 bp inverted repeats, which flank a series of eight direct repeats; the direct repeats themselves each carry inverted repeats. The 3' untranslated end of this gene differs by only 2 bp from that of an N. sylvestris SS gene.     

Strand invasion by DNA-peptide conjugates and peptide nucleic acids.

Peptide nucleic acids (PNAs) and conjugates between oligonucleotides and cationic peptides possess superior potential for strand invasion at complementary sequences. We discovered that oligonucleotide-peptide conjugates and PNAs fall into three classes based on their hybridization efficiency; i) those complementary to inverted repeats within AT-rich region hybridize with highest efficiency; ii) those complementary to areas adjacent to inverted repeats or near AT-rich regions hybridize with moderate efficiency; and iii) those complementary to other regions do not detectably hybridize. The correlations between oligomer chemistry, DNA target sequence, and hybridization efficiency that we report here have important implications for the recognition of duplex DNA.     

Alpha-galactosidase A gene rearrangements causing Fabry disease. Identification of short direct repeats at breakpoints in an Alu-rich gene

Fabry disease, an inborn error of glycosphingolipid catabolism, results from mutations in the X-linked gene encoding the lysosomal enzyme, alpha-galactosidase A (EC 3.2.1.22). Six alpha-galactosidase A gene rearrangements that cause Fabry disease were investigated to assess the role of Alu repetitive elements and short direct and/or inverted repeats in the generation of these germinal mutations. The breakpoints of five partial gene deletions and one partial gene duplication were determined by either cloning and sequencing the mutant gene from an affected hemizygote, or by polymerase chain reaction amplifying and sequencing the genomic region containing the novel junction. Although the alpha-galactosidase A gene contains 12 Alu repetitive elements (representing approximately 30% of the 12-kilobase (kb) gene or approximately 1 Alu/1.0 kb), only one deletion resulted from an Alu-Alu recombination. The remaining five rearrangements involved illegitimate recombinational events between short direct repeats of 2 to 6 base pairs (bp) at the deletion or duplication breakpoints. Of these rearrangements, one had a 3' short direct repeat within an Alu element, while another was unusual having two deletions of 1.7 kb and 14 bp separated by a 151-bp inverted sequence. These findings suggested that slipped mispairing or intrachromosomal exchanges involving short direct repeats were responsible for the generation of most of these gene rearrangements. There were no inverted repeat sequences or alternating purine-pyrimidine regions which may have predisposed the gene to these rearrangements. Intriguingly, the tetranucleotide CCAG and the trinucleotide CAG (or their respective complements, CTGG and CTG) occurred within or adjacent to the direct repeats at the 5' breakpoints in three and four of the five alpha-galactosidase A gene rearrangements, respectively, suggesting a possible functional role in these illegitimate recombinational events. These studies indicate that short direct repeats are important in the formation of gene rearrangements, even in human genes like alpha-galactosidase A that are rich in Alu repetitive elements.     

Tourist: a large family of small inverted repeat elements frequently associated with maize genes.

The wx-B2 mutation results from a 128-bp transposable element-like insertion in exon 11 of the maize Waxy gene. Surprisingly, 11 maize genes and one barley gene in the GenBank and EMBL data bases were found to contain similar elements in flanking or intron sequences. Members of this previously undescribed family of elements, designated Tourist, are short (133 bp on average), have conserved terminal inverted repeats, are flanked by a 3-bp direct repeat, and display target site specificity. Based on estimates of repetitiveness of three Tourist elements in maize genomic DNA, the copy number of the Tourist element family may exceed that of all previously reported eukaryotic inverted repeat elements. Taken together, our data suggest that Tourist may be the maize equivalent of the human Alu family of elements with respect to copy number, genomic dispersion, and the high frequency of association with genes.     

Characterization of histone genes isolated from Xenopus laevis and Xenopus tropicalis genomic libraries

Using a cDNA clone for the histone H3 we have isolated, from two genomic libraries of Xenopus laevis and Xenopus tropicalis, clones containing four different histone gene clusters. The structural organization of X. laevis histone genes has been determined by restriction mapping, Southern blot hybridization and translation of the mRNAs which hybridize to the various restriction fragments. The arrangement of the histone genes in X. tropicalis has been determined by Southern analysis using X. laevis genomic fragments, containing individual genes, as probes. Histone genes are clustered in the genome of X. laevis and X. tropicalis and, compared to invertebrates, show a higher organization heterogeneity as demonstrated by structural analysis of the four genomic clones. In fact, the order of the genes within individual clusters is not conserved.     

Structural analysis of Tpn1, a transposable element isolated from Japanese morning glory bearing variegated flowers

The 6.4 kb transposable element Tpn1 belonging to the En/Spm family was found within one of the DFR (dihydroflavonol-4-reductase) genes for anthocyanin biosynthesis in a line of Japanese morning glory (Pharbitis nil) bearing variegated flowers. Sequencing of the Tpn1 element revealed that it is 6412 by long and carries 28-bp perfect terminal inverted repeats. Its subterminal repetitive regions, believed to be the cis-acting sequences for transposition, show striking structural features. Twenty-two copies of the 10-bp sequence motif GACAACGGTT can be found as direct or inverted repeats within 650 by of the 5′ end of the element, and 33 copies of the sequence motif lie within 800 by of the 3′ terminus. All these 22 copies of the sequence motif near the 5′ terminus and 30 copies in the 3′ terminal region are arranged as inverted repeats and 3–8 by AT-rich sequences are detected between these inverted repeats. In addition, four copies of 122-bp tandem repeats and six copies of 104-bp tandem repeats are present in the 5′ and 3′ subterminal repetitive regions, respectively. No large open reading frame characteristic of autonomous elements of the En/Spm family can be detected within the element. The results are discussed with respect to heritable changes in flower variegation in this line of Japanese morning glory.     

Identification of genes that are associated with DNA repeats in prokaryotes

Using in silico analysis we studied a novel family of repetitive DNA sequences that is present among both domains of the prokaryotes (Archaea and Bacteria), but absent from eukaryotes or viruses. This family is characterized by direct repeats, varying in size from 21 to 37 bp, interspaced by similarly sized non-repetitive sequences. To appreciate their characteri-stic structure, we will refer to this family as the clustered regularly interspaced short palindromic repeats (CRISPR). In most species with two or more CRISPR loci, these loci were flanked on one side by a common leader sequence of 300-500 b. The direct repeats and the leader sequences were conserved within a species, but dissimilar between species. The presence of multiple chromosomal CRISPR loci suggests that CRISPRs are mobile elements. Four CRISPR-associated (cas) genes were identified in CRISPR-containing prokaryotes that were absent from CRISPR-negative prokaryotes. The cas genes were invariably located adjacent to a CRISPR locus, indicating that the cas genes and CRISPR loci have a functional relationship. The cas3 gene showed motifs characteristic for helicases of the superfamily 2, and the cas4 gene showed motifs of the RecB family of exonucleases, suggesting that these genes are involved in DNA metabolism or gene expression. The spatial coherence of CRISPR and cas genes may stimulate new research on the genesis and biological role of these repeats and genes.     

A Dispersed Family of Repetitive DNA Sequences Exhibits Characteristics of a Transposable Element in the Genus Lycopersicon

A segment of DNA 5' to the transcribed region of an auxin-regulated gene, ARPI, from Lycopersicon esculentum Mill. cv. VFN8 contains a sequence with the structural characteristics of a transposable element. The putative element (Lyt1) is 1340 bp long, has terminal inverted repeats of approximately 235 bp and is flanked by 9-bp direct repeats. Lyt1 has a structure similar to the Robertson's Mutator (Mu) family from maize. The terminal inverted repeats are 80% AT-rich, are 96.6% identical, and define a larger family of repetitive elements. Southern analysis and genomic dot-blot reconstructions detected at least 41 copies of Lyt1-hybridizing sequences in red-fruited Lycopersicon spp. (L. esculentum, L. pimpinellifolium and L. cheesmanii), and 2-8 copies in the green-fruited species (L. hirsutum, L. pennellii, L. peruvianum, L. chilense and L. chmielewskii). There were two to four copies in the Solanum spp. closely allied with the genus Lycopersicon (S. lycopersicoides, S. ochranthum and S. juglandifolium), while the more distantly related Solanum spp. showed little (one to two copies in S. tuberosum) to no (S. quitoense) detectable hybridization under stringent conditions. Linkage analysis in the F(2) progeny of a cross between L. esculentum and L. cheesmanii indicated that at least six loci that hybridize to the Lyt1 sequence are dispersed in the genome. Polymerase chain reaction and Southern analyses revealed that some red-fruited accessions and L. chmielewskii lacked Lyt1 5' to the transcribed region of ARPI. Subsequent sequence analysis indicated that only one copy of the 9-bp direct repeat (target site) was present, suggesting that transposition of the element into the ARPI gene occurred after the divergence of the red-fruited and green-fruited Lycopersicon species.     

Alu element-mediated gene silencing

The Alu elements are conserved approximately 300-nucleotide-long repeat sequences that belong to the SINE family of retrotransposons found abundantly in primate genomes. Pairs of inverted Alu repeats in RNA can form duplex structures that lead to hyperediting by the ADAR enzymes, and at least 333 human genes contain such repeats in their 3'-UTRs. Here, we show that a pair of inverted Alus placed within the 3'-UTR of egfp reporter mRNA strongly represses EGFP expression, whereas a single Alu has little or no effect. Importantly, the observed silencing correlates with A-to-I RNA editing, nuclear retention of the mRNA and its association with the protein p54(nrb). Further, we show that inverted Alu elements can act in a similar fashion in their natural chromosomal context to silence the adjoining gene. For example, the Nicolin 1 gene expresses multiple mRNA isoforms differing in the 3'-UTR. One isoform that contains the inverted repeat is retained in the nucleus, whereas another lacking these sequences is exported to the cytoplasm. Taken together, these results support a novel role for Alu elements in human gene regulation.     

Extensive gene amplification and concerted evolution within the CPR family of cuticular proteins in mosquitoes

Annotation of the Anopheles gambiae genome has revealed a large increase in the number of genes encoding cuticular proteins with the Rebers and Riddiford Consensus (the CPR gene family) relative to Drosophila melanogaster. This increase reflects an expansion of the RR-2 group of CPR genes, particularly the amplification of sets of highly similar paralogs. Patterns of nucleotide variation indicate that extensive concerted evolution is occurring within these clusters. The pattern of concerted evolution is complex, however, as sequence similarity within clusters is uncorrelated with gene order and orientation, and no comparable clusters occur within similarly compact arrays of the RR-1 group in mosquitoes or in either group in D. melanogaster. The dearth of pseudogenes suggests that sequence clusters are maintained by selection for high gene-copy number, perhaps due to selection for high expression rates. This hypothesis is consistent with the apparently parallel evolution of compact gene architectures within sequence clusters relative to single-copy genes. We show that RR-2 proteins from sequence-cluster genes have complex repeats and extreme amino-acid compositions relative to single-copy CPR proteins in An. gambiae, and that the amino-acid composition of the N-terminal and C-terminal sequence flanking the chitin-binding consensus region evolves in a correlated fashion.     

High-resolution FISH mapping of the rat α2u-globulin multigene family

The rat α_2u-globulins are a group of similar proteins that are encoded by a family of approximately 20 genes located a single locus of ≤880 kbp on Chromosome (Chr) 5q. Individual members of this gene family demonstrate complex tissue, hormonal, and developmental expression patterns despite a high degree of sequence similarity among the members and consequently provide an interesting system for studying the evolution of differential gene expression. Hybridization analysis indicated that gene classes, similar to those identified at the homologous MUP locus in the mouse, do not exist within the rat α_2u-globulin locus. Furthermore, cross-hybridization analysis revealed the presence of conserved sequences in the 5′ and 3′ regions flanking the α_2u-globulin genes, some of which were present in an inverted orientation. We have used high-resolution fiber FISH to examine the structural organization of the α_2u-globulin locus, and found the genes to be arranged as an array of both direct and inverted repeats. The organization of the rat α_2u-globulin genes differs from the MUP genes and suggests different evolutionary events have reorganized these homologous sets of genes. Received: 26 July, 1999 / Accepted: 8 December 1999     

Mutations in Pol1 Increase the Mitotic Instability of Tandem Inverted Repeats in Saccharomyces Cerevisiae

Tandem inverted repeats (TIRs or hairpins) of 30 and 80 base-pair unit lengths are unstable mitotically in yeast (Saccharomyces cerevisiae). TIR instability results from deletions that remove part or all of the presumed hairpin structure from the chromosome. At least one deletion endpoint is always at or near the base of the hairpin, and almost all of the repaired junctions occur within short direct sequence repeats of 4 to 9 base pairs. The frequency of this event, which we call ``hairpin excision,' is influenced by chromosomal position, length of the inverted repeats, and the distance separating the repeat units; increasing the distance between the inverted repeats as little as 25 base pairs increases their chromosomal stability. The frequency of excision is not affected by representative rad mutations, but is influenced by mutations in certain genes affecting DNA synthesis. In particular, mutations in POL1/CDC17, the gene that encodes the large subunit of DNA polymerase I, increase the frequency of hairpin deletions significantly, implicating this protein in the normal maintainance of genomic TIRs.