Sequence analysis of linked maize 22 kDa α-zein genes

We have determined the nucleotide sequence of a 7343 bp zein genomic clone (gZ22.8H3) from the maize inbred W64A. Computer-aided analysis of the DNA sequence revealed two contiguous 22 kDa -zein genes. The 5 gene (gZ22.8) encodes a complete polypeptide and contains putative regulatory sequences in both the 5 and 3 flanking regions that are typical of zein genes. In contrast, the 3 gene (gZ22.8) appears to be a pseudogene, because it contains numerous insertions and deletions that would prevent translation of the mRNA. Alignment of the 5 and 3 flanking sequences of both genes indicated that they resulted from a 3.3 kb DNA duplication event.     

Exon shuffling in anther-specific genes from sunflower

We describe here the nucleotide sequence of an anther-specific gene (sf18) from sunflower, encoding a proline- and glycine-rich polypeptide with a hydrophobic amino-terminus (signal peptide). The gene is split by a 211 by intron and is partially related to another anther-specific gene (sf2) from sunflower with which it shares important sequence stretches in the 5 coding and upstream regions. We propose that the two genes have originated via exon shuffling, during which a copy of a DNA segment including the promoter region as well as a signal peptide coding sequence has been transferred into the upstream region of two different potential coding sequences, generating two novel genes which display the same specificity of expression and which both encode an extracellular protein. While the 5 region of the intron is highly conserved as part of the transferred region and may play a role in the selection of the 5 splice site, a common octanucleotide at the 3 end of the intron of the two genes might be involved in 3 splice site selection.     

Rat liver 5''-nucleotidase

Synopsis Under assay conditions such that there is minimal interference by lysosomal acid phosphatase, the dephosphorylation of nucleoside-5-monophosphates (AMP or UMP) by rat-liver homogenates at alkaline pH values is attributable to a Mg²⁺-dependent enzyme (5-nucleotidase, EC 3.1.3.5). It shows a bimodal distribution between the nuclear and the microsomal fractions, different from that for glucose-6-phosphatase, and also differs in its response to deoxycholate. There is no evidence of an endogenous inhibitor or of enzyme latency. No clear evidence for the existence of more than one 5-nucleotidase has come from the approaches adopted. These include differential centrifugation, trial of different ions as activators and inhibitors, determination of pH curves, mixed-substrate assays, column chromatography, and the study of liver regeneration (which depresses the activity) and of hepatocarcinogenesis. Results obtained with maleate, Pb²⁺ ions and Ni²⁺ ions have a bearing on histochemical and clinical work. The acid phosphatase activity of lysosome-rich fractions towards -glycerophosphate, 5-AMP, 5-UMP and 2-(3-)UMP, at pH values near 5.0 with no divalent cations added, seems to be due to a single enzyme or group of isoenzymes. The effects of certain anions and cations on this lysosomal activity, and on microsomal 5-nucleotidase activity, depend on the concentration of the substrate as well as on its nature.A. A. El-Aaser is on leave from the Faculty of Medicine, University of Cairo     

Chloroplast DNA sequences integrated into an intron of a tomato nuclear gene

Summary DNA sequences capable of hybridizing with chloroplast DNA have previously been reported to exist in the nuclear genome of higher plants. Here we show that the third intron of the cultivated tomato (Lycopersicon esculentum) nuclear gene Cab-7, which resides on chromosome 10 and which we recently cloned and sequenced, contains two DNA fragments derived from the coding region of the chloroplast gene psbG. The first fragment, 133 bp long, is located at a site 63 bp from the 3 end of the 833 bp intron. The exact sequence of the 11 nucleotides at the 3 end of the inserting chloroplast sequence is also found at the 5 border of the insertion. A small (107 bp) chloroplast DNA fragment is inserted near the middle of the intron, again with the 3 end of the inserting element (6 bp) duplicated at the 5 border of the insertion. The second insert is a subfragment of the first insert, and is most likely directly derived from it. The psbG insertion sequence was found to be present in the Cab-7 gene of all tomato species examined but not in species from related genera (e.g. Solanum, Petunia, Nicotiana), suggesting that the original transposition event (chloroplast to nucleus) occurred relatively recently-since the divergence of the genus Lycopersicon from other genera in the family Solanaceae, but before radiation of species in that genus.     

Odintifier - A computational method for identifying insertions of organellar origin from modern and ancient high-throughput sequencing data based on haplotype phasing

Background

Cellular organelles with genomes of their own (e.g. plastids and mitochondria) can pass genetic sequences to other organellar genomes within the cell in many species across the eukaryote phylogeny. The extent of the occurrence of these organellar-derived inserted sequences (odins) is still unknown, but if not accounted for in genomic and phylogenetic studies, they can be a source of error. However, if correctly identified, these inserted sequences can be used for evolutionary and comparative genomic studies. Although such insertions can be detected using various laboratory and bioinformatic strategies, there is currently no straightforward way to apply them as a standard organellar genome assembly on next-generation sequencing data. Furthermore, most current methods for identification of such insertions are unsuitable for use on non-model organisms or ancient DNA datasets.

Results

We present a bioinformatic method that uses phasing algorithms to reconstruct both source and inserted organelle sequences. The method was tested in different shotgun and organellar-enriched DNA high-throughput sequencing (HTS) datasets from ancient and modern samples. Specifically, we used datasets from lions (Panthera leo ssp. and Panthera leo leo) to characterize insertions from mitochondrial origin, and from common grapevine (Vitis vinifera) and bugle (Ajuga reptans) to characterize insertions derived from plastid genomes. Comparison of the results against other available organelle genome assembly methods demonstrated that our new method provides an improvement in the sequence assembly.

Conclusion

Using datasets from a wide range of species and different levels of complexity we showed that our novel bioinformatic method based on phasing algorithms can be used to achieve the next two goals: i) reference-guided assembly of chloroplast/mitochondrial genomes from HTS data and ii) identification and simultaneous assembly of odins. This method represents the first application of haplotype phasing for automatic detection of odins and reference-based organellar genome assembly.

Electronic supplementary material

The online version of this article (doi:10.1186/s12859-015-0682-1) contains supplementary material, which is available to authorized users.     

Agrobacterium T-DNA integration in Arabidopsis is correlated with DNA sequence compositions that occur frequently in gene promoter regions

Mobile insertion elements such as transposons and T-DNA generate useful genetic variation and are important tools for functional genomics studies in plants and animals. The spectrum of mutations obtained in different systems can be highly influenced by target site preferences inherent in the mechanism of DNA integration. We investigated the target site preferences of Agrobacterium T-DNA insertions in the chromosomes of the model plant Arabidopsis thaliana. The relative frequencies of insertions in genic and intergenic regions of the genome were calculated and DNA composition features associated with the insertion site flanking sequences were identified. Insertion frequencies across the genome indicate that T-strand integration is suppressed near centromeres and rDNA loci, progressively increases towards telomeres, and is highly correlated with gene density. At the gene level, T-DNA integration events show a statistically significant preference for insertion in the 5 and 3 flanking regions of protein coding sequences as well as the promoter region of RNA polymerase I transcribed rRNA gene repeats. The increased insertion frequencies in 5 upstream regions compared to coding sequences are positively correlated with gene expression activity and DNA sequence composition. Analysis of the relationship between DNA sequence composition and gene activity further demonstrates that DNA sequences with high CG-skew ratios are consistently correlated with T-DNA insertion site preference and high gene expression. The results demonstrate genomic and gene-specific preferences for T-strand integration and suggest that DNA sequences with a pronounced transition in CG- and AT-skew ratios are preferred targets for T-DNA integration.Electronic Supplementary Material Supplementary material is available for this article at .This revised version was published online in March 2005 with corrections to Dr. Tatarinovas name.     

A novel PCR-mediated method for one-tube generation of a gene disruption construct

A novel PCR-based method is reported for generating a gene disruption construct which requires no purification of PCR fragments and enables the whole procedure to be completed in one tube very rapidly. The procedure starts with PCR amplification of both the 5 and 3 regions of a particular gene in one tube. Then, exonuclease I is added to the tube to remove the residual primers. After heat inactivation of the enzyme, a marker cassette DNA fragment is added and fusion PCR is performed to build up a gene disruption construct. The gene disruption construct is subsequently amplified with the outermost primers in the amount necessary for transformation. In order to distinguish the gene disruption construct from the remaining intact gene allele, the outermost primers are designed to have GC-rich tag sequences that anneal at a higher temperature, ensuring the specific amplification of the gene disruption construct.     

Structure of genes and an insertion element in the methane producing archaebacterium Methanobrevibacter smithii

Summary DNA fragments cloned from the methanogenic archaebacterium Methanobrevibacter smithii which complement mutations in the purE and proC genes of E. coli have been sequenced. Sequence analyses, transposon mutagenesis and expression in E. coli minicells indicate that purE and proC complementations result from the synthesis of M. smithii polypeptides with molecular weights of 36,697 and 27,836 respectively. The encoding genes appear to be located in operons. The M. smithii genome contains 69% A/T basepairs (bp) which is reflected in unusual codon usages and intergenic regions containing approximately 85% A/T bp. An insertion element, designated ISM1, was found within the cloned M. smithii DNA located adjacent to the proC complementing region. ISM1 is 1381 bp in length, has 29 bp terminal inverted repeat sequences and contains one major ORF encoded in 87% of the ISM1 sequence. ISM1 is mobile, present in approximately 10 copies per genome and integration duplicates 8 bp at the site of insertion. The duplicated sequences show homology with sequences within the 29bp terminal repeat sequence of ISM1. Comparison of our data with sequences from halophilic archaebacteria suggests that 5GAANTTTCA and 5TTTTAATATAAA may be consensus promoter sequences for archaebacteria. These sequences closely resemble the consensus sequences which precede Drosophila heatshock genes (Pelham 1982; Davidson et al. 1983). Methanogens appear to employ the eubacterial system of mRNA: 16SrRNA hybridization to ensure initiation of translation; the consensus ribosome binding sequence is 5AGGTGA.     

The Discriminatory Transfer Routes of tRNA Genes Among Organellar and Nuclear Genomes in Flowering Plants: A Genome-Wide Investigation of <Emphasis Type="Italic">indica</Emphasis> Rice

The transfer and integration of tRNA genes from organellar genomes to the nuclear genome and between organellar genomes occur extensively in flowering plants. The routes of the genetic materials flowing from one genome to another are biased, limited largely by compatibility of DNA replication and repair systems differing among the organelles and nucleus. After thoroughly surveying the tRNA gene transfer among organellar genomes and the nuclear genome of a domesticated rice (Oryza sativa L. ssp. indica), we found that (i) 15 mitochondrial tRNA genes originate from the plastid; (ii) 43 and 80 nuclear tRNA genes are mitochondrion-like and plastid-like, respectively; and (iii) 32 nuclear tRNA genes have both mitochondrial and plastid counterparts. Besides the native (or genuine) tRNA gene sets, the nuclear genome contains organelle-like tRNA genes that make up a complete set of tRNA species capable of transferring all amino acids. More than 97% of these organelle-like nuclear tRNA genes flank organelle-like sequences over 20 bp. Nearly 40% of them colocalize with two or more other organelle-like tRNA genes. Twelve of the 15 plastid-like mitochondrial tRNA genes possess 5′- and 3′-flanking sequences over 20 bp, and they are highly similar to their plastid counterparts. Phylogenetic analyses of the migrated tRNA genes and their original copies suggest that intergenomic tRNA gene transfer is an ongoing process with noticeable discriminatory routes among genomes in flowering plants. Electronic Supplementary Material Electronic Supplementary material is available for this article at and accessible for authorised users. Reviewing Editor: Dr. David Guttman     

Origin, evolution and genetic effects of nuclear insertions of organelle DNA

In eukaryotes, nuclear genomes are subject to an influx of DNA from mitochondria and plastids. The nuclear insertion of organellar sequences can occur during the illegitimate repair of double-stranded breaks. After integration, nuclear organelle DNA is modified by point mutations, and by deletions. Insertion of organelle DNA into nuclear genes is not rare and can potentially have harmful effects. In humans, some insertions of nuclear mitochondrial DNA are associated with heritable diseases. It remains to be determined whether nuclear organelle DNA can contribute beneficially to gene evolution.     

Intron-containing tRNA genes ofSulfolobus solfataricus

Summary Nucleotide sequences of four tRNA genes from the archaebacteriumSulfolobus solfataricus have been determined. Based upon DNA sequence analysis, three of the four genes contain presumptive intervening sequences (introns) in their anticodon loops. The three introns can form similar, but not identical, secondary structures. The cleavage site at the 3 end of all three introns occurs in a three-base bulge loop. All four genes lack an encoded 3 CCA terminus and are flanked by A+T-rich DNA sequences. Two of the genes are located on antiparallel DNA strands, with their 3 termini separated by 414 bp of sequence. Including two previously published sequences, a total of five introns have now been detected among sixS. solfataricus tRNA genes. Occurrence of introns at corresponding locations in both archaebacterial and eukaryotic tRNA genes suggests that the intron/exon form of gene structure predates the evolutionary divergence of the archaebacteria and the eukaryotes.     

PO149, a new member of pollen pectate lyase-like gene family from alfalfa

PO149 is a low-copy-number gene expressed in the late stages of pollen development. The promoter region contains no similarities in DNA sequence to those of other pollen-specific genes, except for a tobacco sequence (AAATGA), which occurs four times in this alfalfa gene and much further upstream than in tobacco. Four distinct TATA boxes were detected in the promoter with the distal and proximal TATA boxes being separated by a spacer of 269 nucleotides. Hairpin loop structures were found in the 5-and 3-untranslated regions of PO149 mRNA. The coding region of PO149 is interrupted by two introns and encodes a putative prepeptide of 450 amino acids with homology to pollen pectate lyase-like proteins and pollen allergens. The coding region also contains sequences characteristic of both a signal peptide and a nuclear localization signal.     

Structural variability in the genome of the Thermoproteus tenax virus TTV1

Summary Six variants of the TTV1 genome, including the primary isolate, have been characterized. DNA sequence comparison of wild-type virus (WT) and one of the variants (VT3) showed that differences are due to insertions and deletions that were confined to contiguous portions of two distinctClaI fragments. Seven similar short DNA sequences (30–102 bp) were involved in the variation. The deletions and insertions of these short DNA sequences occurred in every case adjacent to the 8 by consensus sequence 5-ACXCCTAC-3 which formed the 5 flank of the segments involved.     

A comprehensive characterization of single-copy T-DNA insertions in the Arabidopsis thaliana genome

T-DNA flanking sequences were isolated from 112 Arabidopsis thaliana single-copy T-DNA lines and sequence mapped to the chromosomes. Even though two T-DNA insertions mapped to a heterochromatic domain located in the pericentromeric region of chromosome I, expression of reporter genes was detected in these transgenic lines. T-DNA insertion did not seem to be biased toward any of Arabidopsis' five chromosomes. The observed distribution of T-DNA copies in intergenic sequence versus gene sequence (i.e. 5-upstream regions, coding sequences and 3-downstream regions) appeared randomly. An evaluation of T-DNA insertion frequencies within gene sequence revealed that integration into 5-upstream regions occurred more frequently than expected, whereas insertions in coding sequences (exons and introns) were found less frequently than expected based on random distribution predictions. In the majority of cases, single-copy T-DNA insertions were associated with small or large rearrangements such as deletions and/or duplications of target site sequences, deletions and/or duplications of T-DNA sequences, and gross chromosomal rearrangements such as translocations. The accuracy of integration was similarly high for both left- and right-border sequences. These results may be called upon when making detailed molecular analyses of transgenic plants or T-DNA induced mutants.     

Diverse soybean actin transcripts contain a large intron in the 5′ untranslated leader: structural similarity to vertebrate muscle actin genes

Plant actins are encoded by complex and highly divergent multigene families. Despite the general lack of intron conservation in animal, fungal and protist actin genes, evidence is presented which indicates that higher plant actin genes have an untranslated leader exon with structural similarity to that found in vertebrate actin genes. All functional higher plant actin genes sequenced to date contain a potential intron acceptor site in the 5 untranslated region 10 to 13 nucleotides upstream of the initiator ATG. A leader specific cDNA probe hybridized to sequences over 1.0 kbp upstream from the coding region confirming the presence of an upstream exon. Primer extension of mRNA with gene-specific oligonucleotides was used to analyze the 5 untranslated exon and leader intron from four divergent soybean actin genes, SAc3, 4, 6 and 7. The 5 ends of all four mRNAs are heterogeneous. The consensus promoter elements of the SAc7 actin promoter were identified. Gene specific primer extension sequencing of actin mRNAs indicated that splicing of the 5 leader intron occured at the predicted acceptor site in SAc6 and SAc7. The SAc6 and SAc7 5 untranslated exons are small (88–111 nt) and the leader introns are relatively large (844–1496 nt). The presence of an intron within the 5 RNA leader and an intron which splits a glycine codon at position 152 in all plant actin genes and all vertebrate muscle actin genes suggests that these structures may have been conserved due to a functional role in actin expression. The 5 regions of these two soybean actin genes contain many unusual features including (CT) repeats and long stretches of pyrimidine-rich DNA. The possible roles of the upstream exon/intron and the C + T-rich regions are discussed.     

Interactions of HIV-1 DNA Heterocyclic Bases with Viral Integrase

Integrase (IN) is responsible for one of the key stages in the replication cycle of human immunodeficiency virus type 1, namely, integration of a DNA copy of the viral RNA into the infected cell genome. IN recognizes the nucleotide sequences located at the ends of the U3 and U5 regions of long terminal repeats (LTRs) of the viral DNA and sequentially catalyzes the 3-end processing and strand transfer reactions. Analogs of U5 regions containing non-nucleoside insertions have been used to study the interaction between IN and viral DNA. Substrate modification has been demonstrated to have almost no effect on the rate of DNA binding by IN. However, the removal of heterocyclic bases from positions 5 and 6 of the substrate molecule and from position 3 of the processed strand almost completely inhibits IN enzymatic activity, which indicates the importance of these bases for the formation of an active enzyme–substrate complex. By contrast, modification of the third base of the nonprocessed strand stimulates 3-processing. Since the base removal disturbs the complementary and stacking interactions in DNA, these results indicate that double-helix destabilization near the cleaved bond promotes 3-end processing.     

A 42 K protein of chick sciatic nerve is immunologically related to PO protein of peripheral nerve myelin

The major protein (PO) in PNS myelin is an integral membrane glycoprotein with a molecular weight of about 30 K. The level of PO protein in the developing sciatic nerve of the chicken was monitored by a solid-phase immunoassay and densitometry of Coomassie blue stained polyacrylamide gels. The most rapid rate of accumulation of PO protein occurred after 16 days of embryonic development. In addition to the 30 K PO protein, a number of higher molecular weight proteins could be distinctly detected by immunoblotting. Amongst these high molecular weight proteins, a species with an apparent molecular weight of 42 K was specifically immunostained with epitope-selected polyclonal antibodies against PO protein. This 42 K protein could be first detected after 16 days of embryonic development and increased rapidly following the pattern of myelination in the sciatic nerve. The enzyme endoglycosidase F, which specifically removes N-asparagine linked high mannose and complex carbohydrates from glycoproteins, converted the PO and 42 K proteins to lower molecular weight forms, which could be specifically immunostained by epitope selected polyclonal antibodies to the PO protein. Subcellular fractionation of the 17-day embryonic nerve demonstrated that the 42 K protein was enriched in myelin and microsomal subfractions relative to the total homogenate. These results indicate that the 42 K immuno-crossreactive protein might be chemically and functionally related to the PO protein of the PNS myelin.Abbreviations used CNP 2–3-cyclic-nucleotide 3-phosphodiesterase (EC 3.1.4.37) - EDTA ethylene(dinitrilo)tetraacetic acid - Endo F endo--N-acetylglucosaminidase F (EC 3.2.1.96) - NADPH Cyt. Red. NADPH-cytochrome C reductase (EC 1.6.2.4) - 5-NPase 5-ribonucleotide phosphohydrolase (EC 3.1.3.5) - PNS peripheral nervous system - SDS sodium dodecyl sulfate - TPPase thiamine pyrophosphatase (EC 3.1.6.X)