Rapid spread of male‐killing Wolbachia in the butterfly Hypolimnas bolina

Reproductive parasites such as Wolbachia can spread through uninfected host populations by increasing the relative fitness of the infected maternal lineage. However, empirical estimates of how fast this process occurs are limited. Here we use nucleotide sequences of male‐killing Wolbachia bacteria and co‐inherited mitochondria to address this issue in the island butterfly Hypolimnas bolina. We show that infected specimens scattered throughout the species range harbour the same Wolbachia and mitochondrial DNA as inferred from 6337 bp of the bacterial genome and 2985 bp of the mitochondrial genome, suggesting this strain of Wolbachia has spread across the South Pacific Islands at most 3000 years ago, and probably much more recently.     

Characterization of an <Emphasis Type="Italic">Eco</Emphasis>RI family of satellite DNA from two species

We have cloned and sequenced a 321bp band of repetitive DNA from Eptesicus fuscus and E. serotinus observed after gel electrophoresis of EcoRI digested genomic DNA in both species. Southern blot analysis of genomic DNA (from both species) digested with the same enzyme showed the existence of a ladder pattern indicating that the repetitive DNA is arrayed in tandem. The repetitive sequences have a monomer unit of 321bp which is composed of two subunits of 160bp, suggested by the existence of a 160bp band in the ladder of E. fuscus and by the presence of some direct repeats found in the analysis of the consensus sequence. Analysis of the methylation status demonstrated that cytosines in CCGG sequences in this satellite DNA are methylated in E. fuscus but not in the E. serotinus. Alignment of the sequenced clones showed that several nucleotide positions are diagnostic species-specific and consequently the phylogenetic analysis grouped the monomer units from both species in two clearly separated groups.     

An alternative beads‐on‐a‐string chromatin architecture in Thermococcus kodakarensis

We have applied chromatin sequencing technology to the euryarchaeon Thermococcus kodakarensis, which is known to possess histone‐like proteins. We detect positioned chromatin particles of variable sizes associated with lengths of DNA differing as multiples of 30 bp (ranging from 30 bp to >450 bp) consistent with formation from dynamic polymers of the archaeal histone dimer. T. kodakarensis chromatin particles have distinctive underlying DNA sequence suggesting a genomic particle‐positioning code and are excluded from gene‐regulatory DNA suggesting a functional organization. Beads‐on‐a‐string chromatin is therefore conserved between eukaryotes and archaea but can derive from deployment of histone‐fold proteins in a variety of multimeric forms.     

Involvement of VAT‐1 in Phosphatidylserine Transfer from the Endoplasmic Reticulum to Mitochondria

Mitochondria receive phosphatidylserine (PS) from the endoplasmic reticulum (ER), but how PS is moved from the ER to mitochondria is unclear. Current models postulate a physical link between the organelles, but no involvement of cytosolic proteins. Here, we have reconstituted PS transport from the ER to mitochondria in vitro using Xenopus egg components. Transport is independent of ER proteins, but is dependent on a cytosolic factor that has a preferential affinity for PS. Crosslinking with a photoactivatable PS analog identified VAT‐1 as a candidate for a cytosolic PS transport protein. Recombinant, purified VAT‐1 stimulated PS transport into mitochondria and depletion of VAT‐1 from Xenopus cytosol with specific antibodies led to a reduction of transport. Our results suggest that cytosolic factors have a role in PS transport from the ER to mitochondria, implicate VAT‐1 in the transport process, and indicate that physical contact between the organelles is not essential.      

Molecular identification of isolates of <Emphasis Type="Italic">Peronosclerospora sorghi</Emphasis> from maize using PCR-based SCAR marker

The fungus Peronosclerospora sorghi [Weston and Uppal (Shaw)] infects both sorghum and maize and incites downy mildew disease. Pathogenic and molecular variability among isolates of P. sorghi from sorghum and maize has been reported. In the present study we developed a DNA sequence characterized amplified region (SCAR) marker for identification of isolates of P. sorghi from maize by using polymerase chain reaction (PCR). The random amplified polymorphic DNA (RAPD) primer OPB15 consistently amplified a 1,000 base pairs (bp) product in PCR only from DNA of P. sorghi isolates from maize and not from isolates of sorghum. The PCR-amplified 1,000-bp product was cloned and sequenced. The sequence of the SCAR marker was used for designing specific primers for identification of maize isolates of P. sorghi. The SCAR primers amplified a 800 bp fragment only from genomic DNA of maize isolates of P. sorghi. The SCAR primers developed in this study are highly specific and reproducible, and proved to be powerful tool for identification of P. sorghi isolates from maize.     

DNA barcodes from century‐old type specimens using next‐generation sequencing

Type specimens have high scientific importance because they provide the only certain connection between the application of a Linnean name and a physical specimen. Many other individuals may have been identified as a particular species, but their linkage to the taxon concept is inferential. Because type specimens are often more than a century old and have experienced conditions unfavourable for DNA preservation, success in sequence recovery has been uncertain. This study addresses this challenge by employing next‐generation sequencing (NGS) to recover sequences for the barcode region of the cytochrome c oxidase 1 gene from small amounts of template DNA. DNA quality was first screened in more than 1800 century‐old type specimens of Lepidoptera by attempting to recover 164‐bp and 94‐bp reads via Sanger sequencing. This analysis permitted the assignment of each specimen to one of three DNA quality categories – high (164‐bp sequence), medium (94‐bp sequence) or low (no sequence). Ten specimens from each category were subsequently analysed via a PCR‐based NGS protocol requiring very little template DNA. It recovered sequence information from all specimens with average read lengths ranging from 458 bp to 610 bp for the three DNA categories. By sequencing ten specimens in each NGS run, costs were similar to Sanger analysis. Future increases in the number of specimens processed in each run promise substantial reductions in cost, making it possible to anticipate a future where barcode sequences are available from most type specimens.     

Molecular polymorphism of the cellular lines of wheat resistant to the culture filtrate of <Emphasis Type="Italic">Gaeumannomyces graminis var. tritici</Emphasis>, and plant-regenerants from them

DNA polymorphism of the cellular lines of wheat resistant to the culture filtrate of G. graminis var. tritici and the plant-regenerants that were induced from them has been studied with the use of the method of ISSR-analysis. Specific changes in DNA sequences were detected in resistant calluses. It was found that all resistant cell lines were different from the initial callus and from the callus, which was not exposed to the selective factor. This difference was based on the presence of the specific 2347 bp (5′-TCTCTCTCTCTCTCTCG-3′ primer) and 1745 bp (5′-AGAGAGAGAGAGAGAGTC-3′ primer) amplicons and on the absence of the 1108 bp amplicon (5′-ACACACACACACACACC-3′ primer). These changes were also found in the plant-regenerants and in the R₁ plants.     

Influence of Heterologous Transplant of DNA‐lacking Mitochondria from Entamoeba histolytica on Proliferation of Entamoeba invadens

In mitochondria, compatibility of proteins encoded in mitochondrial DNA and nuclear DNA is essential for the normal functioning of the organelle. Incompatibility between mitochondrial and nuclear DNA can lead to dysfunctional respiration, mitochondrial diseases, and lethal problems, which suggests that the presence of heterologous mitochondria is unfavorable. In a previous study, we established a transplant method for DNA‐lacking mitochondria (mitosomes) in the anaerobic protozoan Entamoeba histolytica. In this study, interspecies transplant of mitosomes from E. histolytica into Entamoeba invadens, which is a parasitic protozoon of reptiles, was performed using the microinjection method at various temperatures and injection volumes. When E. invadens was used as recipient, it showed higher tolerance to a lower temperature and larger injection volume, in comparison with E. histolytica. After microinjection, donor mitosomes expressing HA‐tag conjugated protein were observed in recipient cells by immunofluorescent staining. The heterologous mitosomes‐injected cells proliferated and growth rate of the microinjected‐cells was similar to that of intact cells. Therefore, we conclude that interspecies transplant of DNA‐lacking mitochondria does not result in incompatibility.     

A RAD52‐like single‐stranded DNA binding protein affects mitochondrial DNA repair by recombination

The plant mitochondrial DNA‐binding protein ODB1 was identified from a mitochondrial extract after DNA‐affinity purification. ODB1 (organellar DNA‐binding protein 1) co‐purified with WHY2, a mitochondrial member of the WHIRLY family of plant‐specific proteins involved in the repair of organellar DNA. The Arabidopsis thaliana ODB1 gene is identical to RAD52‐1, which encodes a protein functioning in homologous recombination in the nucleus but additionally localizing to mitochondria. We confirmed the mitochondrial localization of ODB1 by in vitro and in vivo import assays, as well as by immunodetection on Arabidopsis subcellular fractions. In mitochondria, WHY2 and ODB1 were found in large nucleo‐protein complexes. Both proteins co‐immunoprecipitated in a DNA‐dependent manner. In vitro assays confirmed DNA binding by ODB1 and showed that the protein has higher affinity for single‐stranded than for double‐stranded DNA. ODB1 showed no sequence specificity in vitro. In vivo, DNA co‐immunoprecipitation indicated that ODB1 binds sequences throughout the mitochondrial genome. ODB1 promoted annealing of complementary DNA sequences, suggesting a RAD52‐like function as a recombination mediator. Arabidopsis odb1 mutants were morphologically indistinguishable from the wild‐type, but following DNA damage by genotoxic stress, they showed reduced mitochondrial homologous recombination activity. Under the same conditions, the odb1 mutants showed an increase in illegitimate repair bypasses generated by microhomology‐mediated recombination. These observations identify ODB1 as a further component of homologous recombination‐dependent DNA repair in plant mitochondria.     

An S1 episomal gene of maize mitochondria is expressed in male sterile and fertile plants of the S-type cytoplasm

Summary Maize mitochondria of cytoplasmic male sterile (cms-S) plants contain two linear episomes, S1 (6397 bp) and S2 (5453 bp). S1 contains three long open reading frames URF2 (1017 bp), URF3 (2782 bp) and URF4 (768 bp). We have demonstrated that the URF3 sequence of S1 encodes a protein with an apparent molecular weight of 103 kDa which is found in cms-S but undetectable in cms-T, cms-C or normal (fertile) mitochondria. A translational fusion containing the 5 terminus of the lacZ gene and 800 bp of the 3 end of URF3 was isolated from a cms-S mitochondrial genomic library in the expression vector gt11. Polyclonal antibodies raised against the resulting fusion protein immunoprecipitated a 103 kDa polypeptide from among [³⁵S]-methionine-labeled cms-S mitochondrial proteins but not from normal mitochondrial proteins. The mitochondria of fertile F1 plants resulting from a cross between B37 cms-S and Ky21 (universal restorer) contain as much of this 103 kDa protein as is observed in sterile cms-S mitochondria. The mitochondria of fertile cytoplasmic revertants from cms-RD and cms-LM in a WF9 nuclear background also synthesized the 103 kDa protein. We conclude that the URF3 sequence of the S1 episome is expressed in vivo and that the presence of its gene product in maize mitochondria is not sufficient to confer the male sterile phenotype.     

Molecular and cytogenetic characterization of an AT-rich satellite DNA family in <Emphasis Type="Italic">Urvillea chacoensis</Emphasis> Hunz. (Paullinieae,Sapindaceae)

Urvillea chacoensis is a climber with 2n = 22 and some terminal AT-rich heterochromatin blocks that differentiate it from other species of the genus. The AT-rich highly repeated satellite DNA was isolated from U. chacoensis by the digestion of total nuclear DNA with HindIII and XbaI and cloned in Escherichia coli. Satellite DNA structure and chromosomal distribution were investigated. DNA sequencing revealed that the repeat length of satDNA ranges between 721 and 728 bp, the percentage of AT-base pairs was about 72–73% and the studied clones showed an identity of 92.5–95.9%. Although this monomer has a tetranucleosomal size, direct imperfect repetitions of ~180 bp subdividing it in four nucleosomal subregions were observed. The results obtained with FISH indicate that this monomer usually appears distributed in the terminal regions of most chromosomes and is associated to heterochromatin blocks observed after DAPI staining. These observations are discussed in relation to the satellite DNA evolution and compared with other features observed in several plant groups.     

Deletion/insertion polymorphism of the prion protein gene (<Emphasis Type="Italic">PRNP</Emphasis>) in Polish Holstein-Friesian cattle

The aim of the present study was to identify the deletion/insertion polymorphism of the bovine prion protein gene (PRNP) within the promoter sequence (23 bp), intron 1 (12 bp) and 3’ untranslated region (14 bp). DNA was isolated from blood of 234 randomly tested Polish Holstein-Friesian cows and from semen of 47 sires used for artificial insemination (AI) in 2004. No statistically significant differences were found in the frequency of genotypes and alleles between cows and breeding bulls in the 3 analysed polymorphic sites within thePRNP gene. Only 3 haplotypes were identified in sires and 4 haplotypes in cows.     

Cloning,expression and characterization of the putative nuclear transport factor 2 (NTF2) gene from moss <Emphasis Type="Italic">Conocephalum conicum</Emphasis>(L.) Dum

Biomacromolecules import into the nucleus is a complex progress which requires the participation of several cytosolic factors, and nuclear transport factor 2 (NTF2) is one of essential components in nuclear trafficking. Its main role is to transport RanGDP from cytoplasm to nucleus by interacting with FxFG nucleoporin repeats. In the study a putative new gene, designated as CcNTF2, was obtained from the moss (Conocephalum conicum) cDNA library we have constructed. The full-length cDNA sequence is 913 bp in size contains a 372 bp open reading frame (ORF) flanked by a 195 bp 5′-untranslated sequence and a long 346 bp 3′-non-coding region, encoding 123 amino acids of 13,575.3 Da. Part of the genomic sequence was also cloned and sequenced, which is 1,602 bp long and possesses two exons and one intron. Alignment analysis showed that the CcNTF2 protein is high conserved among plant NTF2 and shares 81% similarity with the ones from Arabidopsis thaliana and Brassica rapa. The expression of wild-type CcNTF2 was detected by immunoblotting of extraction of C. conicum and it indicated the putative protein is integral. Through functional expression of CcNTF2-green fluorescent protein (GFP) in tobacco, it was demonstrated that CcNTF2 can accumulate at the nuclear rim. Site-directed mutagenesis analysis confirmed CcNTF2 P71K has influence on the protein import into nucleus. In addition, overexpression of CcNTF2 P71K was observed to be deleterious for the plant cell. It is the first illumination of NTF2 in moss, and our study established the primary foundation for further research on moss NTF2.     

Multiplex polymerase chain reaction method discriminating <Emphasis Type="Italic">Escherichia coli</Emphasis> and <Emphasis Type="Italic">Shigella</Emphasis> sp.

To distinguish between Escherichia coli and other bacteria that have similar biochemical characteristics, 3 polymerase chain reaction techniques were combined. The primer sets cydA-F2-A2 and cydA-R2-A2 were designed to amplify 605 base pairs of nucleotide sequence specific for the cydA gene of Escherichia coli; primer sets lacZ-F-A and lacZ-R-A to amplify 1,023 bp of nucleotide sequence specific for the lacZ gene of Escherichia coli; and primers lacA-F2-A2 and lacA-R2-A2 to amplify 325 bp of nucleotide sequence specific for the lacA gene of Escherichia coli. As a result, 3 nucleotide fragments were generated when 3 samples DNA from Escherichia coli were used as template. On the other hand, 1,023- and 605-bp products were obtained when DNA of Shigella sonnei was used, and a 605-bp product was obtained when DNA of Shigella flexneri was used. The specificity of the technique was confirmed by comparing it with the conventional culture test; the consistency rate of both tests was 0.749. These results suggest that the technique described in the present study will be useful for distinguishing Escherichia coli from Shigella species with accuracy and specificity.     

Evaluation of sterol transport from the endoplasmic reticulum to mitochondria using mitochondrially targeted bacterial sterol acyltransferase in Saccharomyces cerevisiae

To elucidate the mechanism of interorganelle sterol transport, a system to evaluate sterol transport from the endoplasmic reticulum (ER) to the mitochondria was constructed. A bacterial glycerophospholipid: cholesterol acyltransferase fused with a mitochondria-targeting sequence and a membrane-spanning domain of the mitochondrial inner membrane protein Pet100 and enhanced green fluorescent protein was expressed in a Saccharomyces cerevisiae mutant deleted for ARE1 and ARE2 encoding acyl-CoA:sterol acyltransferases. Microscopic observation and subcellular fractionation suggested that this fusion protein, which was named mito-SatA-EGFP, was localized in the mitochondria. Steryl esters were synthesized in the mutant expressing mito-SatA-EGFP. This system will be applicable for evaluations of sterol transport from the ER to the mitochondria in yeast by examining sterol esterification in the mitochondria.     

DNA-Barcoding of Some Medicinal Plant Species in Saudi Arabia Using <i>rbcL</i> and <i>matK</i> Genes

In the Kingdom of Saudi Arabia (KSA), thousands of plants are considered to have therapeutic value. The ambiguous use of identification mainly morphological characteristics of many plants has resulted in the adulteration and displacement of plant products which undermine their therapeutic value and weak documentation of plant resources. The aims of this study were therefore to evaluate genetic variability and explore the phylogeographic architecture for Saudi medicinal plant samples using rbcL and matK genes as barcodes for genomic identification. The matK and rbcL sequences collected for these samples were used as key markers for examining the relationship between Saudi medicinal plant species based on genetic diversity. During our study we were successful in identifying and documenting 4 different species (Foeniculum vulgare, Nitraria retusa, Dodonaea viscosa, and Rumex nervosus) located in Saudi Arabia using DNA barcoding technique. A total number of 8 sequences were obtained with a total sequence length of 6176 bp, where it ranged from 617 bp to 878 bp with an average length of 772 bp. The total number of rbcL sequences length is 2801 bp, where it ranges from 617 bp to 807 bp with an average length of 700.2 bp. Out of the 4 plant samples used, only three samples were identified correctly on the species level with an identity percentage higher than 95% using rbcL gene. Additionally, 4 matK sequences have been retrieved belong to 4 species. The total number of matK sequences length is 3375 bp, where it ranges from 819 bp to 878 bp with an average length of 843.8 bp. Out of the 4 plant samples used, only two samples were identified correctly on the species level with an identity percentage higher than 98% using matK gene. Both rbcL and matK have been able to identify most of our collected plant samples by genus, and some by species. Using only one DNA-barcoding technique was not reliable for plant identification, where matK and rbcL must be used as a dual DNA-barcoding procedure.     

Analysis of localization and reorganization of germ plasm in Xenopus transgenic line with fluorescence‐labeled mitochondria

Germ plasm is found in germ‐line cells of Xenopus and thought to include the determinant of primordial germ cells (PGCs). As mitochondria is abundant in germ plasm, vital staining of mitochondria was used to analyze the movement and function of germ plasm; however, its application was limited in early cleavage embryos. We made transgenic Xenopus, harboring enhanced green fluorescent protein (EGFP) fused to the mitochondria transport signal (Dria‐line). Germ plasm with EGFP‐labeled mitochondria was clearly distinguishable from the other cytoplasm, and retained mostly during one generation of germ‐line cells in Dria‐line females. Using the Dria‐line, we show that germ plasm is reorganized from near the cell membrane to the perinuclear space at St. 9, dependent on the microtubule system.     

Cytotoxicity and genotoxicity of xenoclauxin and desacetyl duclauxin fromPenicillium Duclauxii (delacroix)

The duclauxin derivatives xenoclauxin and desacetylduclauxin were examined for their effects on the growth of L-1210 murine leukemia cells, on the induction of DNA repair in the rat and mouse hepatocyte primary culture (HPC/DNA repair test), and on oxidative phosphorylation in mitochondria from rat livers in comparison to duclauxin. Both derivatives inhibited the growth of L-1210 culture cells as strongly as duclauxin. Duclauxin derivatives were negative in the HPC/DNA repair test. Xenoclauxin exhibited a potent uncoupling effect accompanying a marked depression of state 3 respiration of mitochondria in a similar fashion to that of duclauxin. Desacetylduclauxin significantly inhibited the state 3 respiration without causing uncoupling of oxidative phosphorylation in mitochondria. These results strongly suggest that xenoclauxin and desacetylduclauxin fromPenicillium duclauxii are not genotoxic but are cytotoxic mainly due to their potent inhibition of ATP synthesis in mitochondria.Abbreviations DNP 2,4-dinitrophenol - ETP electron transport particles - HPC hepatocyte primary culture cells - RC respiratory control - TdR thymine deoxyribonucleotide - UDS unscheduled DNA synthesis     

Mitochondrial <Emphasis Type="Italic">cox</Emphasis>1 and plastid <Emphasis Type="Italic">rbc</Emphasis>L genes of <Emphasis Type="Italic">Gracilaria vermiculophylla</Emphasis> (Gracilariaceae,Rhodophyta)

The mitochondrial cytochrome c oxidase subunit I gene sequence was recently developed for DNA barcoding of red algal species. We determined the 1245 base pairs of the gene from 27 taxa of an agar-producing species, Gracilaria vermiculophylla, and putative relatives and compared the results with rbcL data from the same species. A total of 392 positions (31.5%) were variable, 282 positions (22.6%) were parsimoniously informative, and average sequence divergence was 13% in an ingroup. Within G. vermiculophylla, pairwise divergence of the gene was variable up to 11 bp (0.9%). Seven recognized haplotypes of cox1 tended to be geographically related. In the aligned 1386 bp of rbcL, three haplotypes were recognized. These results suggest that cox1 is a valuable molecular marker within species and will be very useful in haplotype analyses.