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1.
Sci Rep ; 13(1): 20352, 2023 11 21.
Article in English | MEDLINE | ID: mdl-37990055

ABSTRACT

Molecular tools for modulating transgene expression in Aedes aegypti are few. Here we demonstrate that adjustments to the AePUb promoter length can alter expression levels of two reporter proteins in Ae. aegypti cell culture and in mosquitoes. This provides a simple means for increasing or decreasing expression of a gene of interest and easy translation from cells to whole insects.


Subject(s)
Aedes , Animals , Aedes/genetics , Aedes/metabolism , Promoter Regions, Genetic , Transgenes , Gene Expression
2.
Front Bioeng Biotechnol ; 11: 1254863, 2023.
Article in English | MEDLINE | ID: mdl-37811374

ABSTRACT

Introduction: Genetic manipulation of Aedes aegypti is key to developing a deeper understanding of this insects' biology, vector-virus interactions and makes future genetic control strategies possible. Despite some advances, this process remains laborious and requires highly skilled researchers and specialist equipment. Methods: Here we present two improved methods for genetic manipulation in this species. Use of transgenic lines which express Cre recombinase and a plasmid-based method for expressing PhiC31 when injected into early embryos. Results: Use of transgenic lines which express Cre recombinase allowed, by simple crossing schemes, germline or somatic recombination of transgenes, which could be utilized for numerous genetic manipulations. PhiC31 integrase based methods for site-specific integration of genetic elements was also improved, by developing a plasmid which expresses PhiC31 when injected into early embryos, eliminating the need to use costly and unstable mRNA as is the current standard. Discussion: Here we have expanded the toolbox for synthetic biology in Ae. aegypti. These methods can be easily transferred into other mosquito and even insect species by identifying appropriate promoter sequences. This advances the ability to manipulate these insects for fundamental studies, and for more applied approaches for pest control.

3.
Proc Natl Acad Sci U S A ; 115(40): 10064-10069, 2018 10 02.
Article in English | MEDLINE | ID: mdl-30150380

ABSTRACT

The association between poor paternal diet, perturbed embryonic development, and adult offspring ill health represents a new focus for the Developmental Origins of Health and Disease hypothesis. However, our understanding of the underlying mechanisms remains ill-defined. We have developed a mouse paternal low-protein diet (LPD) model to determine its impact on semen quality, maternal uterine physiology, and adult offspring health. We observed that sperm from LPD-fed male mice displayed global hypomethylation associated with reduced testicular expression of DNA methylation and folate-cycle regulators compared with normal protein diet (NPD) fed males. Furthermore, females mated with LPD males display blunted preimplantation uterine immunological, cell signaling, and vascular remodeling responses compared to controls. These data indicate paternal diet impacts on offspring health through both sperm genomic (epigenetic) and seminal plasma (maternal uterine environment) mechanisms. Extending our model, we defined sperm- and seminal plasma-specific effects on offspring health by combining artificial insemination with vasectomized male mating of dietary-manipulated males. All offspring derived from LPD sperm and/or seminal plasma became heavier with increased adiposity, glucose intolerance, perturbed hepatic gene expression symptomatic of nonalcoholic fatty liver disease, and altered gut bacterial profiles. These data provide insight into programming mechanisms linking poor paternal diet with semen quality and offspring health.


Subject(s)
Dietary Exposure , Dietary Proteins/administration & dosage , Paternal Exposure , Semen/metabolism , Spermatozoa/metabolism , Testis/metabolism , Animals , Epigenesis, Genetic/drug effects , Female , Male , Mice , Semen Analysis , Uterus/metabolism
4.
Nucleic Acids Res ; 44(5): e41, 2016 Mar 18.
Article in English | MEDLINE | ID: mdl-26578563

ABSTRACT

With the wide availability of whole-genome sequencing (WGS), genetic mapping has become the rate-limiting step, inhibiting unbiased forward genetics in even the most tractable model organisms. We introduce a rapid deconvolution resource and method for untagged causative mutations after mutagenesis, screens, and WGS in Escherichia coli. We created Deconvoluter-ordered libraries with selectable insertions every 50 kb in the E. coli genome. The Deconvoluter method uses these for replacement of untagged mutations in the genome using a phage-P1-based gene-replacement strategy. We validate the Deconvoluter resource by deconvolution of 17 of 17 phenotype-altering mutations from a screen of N-ethyl-N-nitrosourea-induced mutants. The Deconvoluter resource permits rapid unbiased screens and gene/function identification and will enable exploration of functions of essential genes and undiscovered genes/sites/alleles not represented in existing deletion collections. This resource for unbiased forward-genetic screens with mapping-by-sequencing ('forward genomics') demonstrates a strategy that could similarly enable rapid screens in many other microbes.


Subject(s)
Escherichia coli/genetics , Gene Library , Genome, Bacterial , Genomics/methods , Mutagenesis, Insertional/methods , Mutation , Algorithms , Bacteriophage P1/genetics , Escherichia coli/drug effects , Ethylnitrosourea/pharmacology , Genotype , Phenotype , Polymorphism, Single Nucleotide
5.
BMC Genomics ; 16: 334, 2015 Apr 23.
Article in English | MEDLINE | ID: mdl-25898893

ABSTRACT

BACKGROUND: Streptococcus uberis, a Gram-positive, catalase-negative member of the family Streptococcaceae is an important environmental pathogen responsible for a significant proportion of subclinical and clinical bovine intramammary infections. Currently, the genome of only a single reference strain (0140J) has been described. Here we present a comparative analysis of complete draft genome sequences of an additional twelve S. uberis strains. RESULTS: Pan and core genome analysis revealed the core genome common to all strains to be 1,550 genes in 1,509 orthologous clusters, complemented by 115-246 accessory genes present in one or more S. uberis strains but absent in the reference strain 0140J. Most of the previously predicted virulent genes were present in the core genome of all 13 strains but gene gain/loss was observed between the isolates in CDS associated with clustered regularly interspaced short palindromic repeats (CRISPRs), prophage and bacteriocin production. Experimental challenge experiments confirmed strain EF20 as non-virulent; only able to infect in a transient manner that did not result in clinical mastitis. Comparison of the genome sequence of EF20 with the validated virulent strain 0140J identified genes associated with virulence, however these did not relate clearly with clinical/non-clinical status of infection. CONCLUSION: The gain/loss of mobile genetic elements such as CRISPRs and prophage are a potential driving force for evolutionary change. This first "whole-genome" comparison of strains isolated from clinical vs non-clinical intramammary infections including the type virulent vs non-virulent strains did not identify simple gene gain/loss rules that readily explain, or be confidently associated with, differences in virulence. This suggests that a more complex dynamic determines infection potential and clinical outcome not simply gene content.


Subject(s)
Genome, Bacterial , Streptococcus/genetics , Virulence/genetics , Animals , Bacteriocins/metabolism , Base Sequence , Cattle , Clustered Regularly Interspaced Short Palindromic Repeats/genetics , Comparative Genomic Hybridization , Female , Mastitis, Bovine/genetics , Mastitis, Bovine/microbiology , Mastitis, Bovine/pathology , Milk/microbiology , Molecular Sequence Data , Phylogeny , Polymorphism, Single Nucleotide , Sequence Alignment , Sequence Analysis, DNA , Streptococcus/classification , Streptococcus/pathogenicity
6.
Plasmid ; 76: 32-9, 2014 11.
Article in English | MEDLINE | ID: mdl-25175817

ABSTRACT

Salmonella enterica Serovar Typhimurium U288 is an emerging pathogen of pigs. The strain contains three plasmids of diverse origin that encode traits that are of concern for food security and safety, these include antibiotic resistant determinants, an array of functions that can modify cell physiology and permit genetic mobility. At 148,711 bp, pSTU288-1 appears to be a hybrid plasmid containing a conglomerate of genes found in pSLT of S. Typhimurium LT2, coupled with a mosaic of horizontally-acquired elements. Class I integron containing gene cassettes conferring resistance against clinically important antibiotics and compounds are present in pSTU288-1. A curious feature of the plasmid involves the deletion of two genes encoded in the Salmonella plasmid virulence operon (spvR and spvA) following the insertion of a tnpA IS26-like element coupled to a blaTEM gene. The spv operon is considered to be a major plasmid-encoded Salmonella virulence factor that is essential for the intracellular lifecycle. The loss of the positive regulator SpvR may impact on the pathogenesis of S. Typhimurium U288. A second 11,067 bp plasmid designated pSTU288-2 contains further antibiotic resistance determinants, as well as replication and mobilization genes. Finally, a small 4675 bp plasmid pSTU288-3 was identified containing mobilization genes and a pleD-like G-G-D/E-E-F conserved domain protein that modulate intracellular levels of cyclic di-GMP, and are associated with motile to sessile transitions in growth.


Subject(s)
Drug Resistance, Bacterial/genetics , Plasmids/genetics , Salmonella typhimurium/genetics , Conjugation, Genetic , Gene Transfer, Horizontal , Integrons , Plasmids/drug effects , Salmonella typhimurium/pathogenicity , Sequence Analysis, DNA
7.
Nucleic Acids Res ; 42(1): e3, 2014 Jan.
Article in English | MEDLINE | ID: mdl-24089142

ABSTRACT

Eukaryotic genomes are replicated from multiple DNA replication origins. We present complementary deep sequencing approaches to measure origin location and activity in Saccharomyces cerevisiae. Measuring the increase in DNA copy number during a synchronous S-phase allowed the precise determination of genome replication. To map origin locations, replication forks were stalled close to their initiation sites; therefore, copy number enrichment was limited to origins. Replication timing profiles were generated from asynchronous cultures using fluorescence-activated cell sorting. Applying this technique we show that the replication profiles of haploid and diploid cells are indistinguishable, indicating that both cell types use the same cohort of origins with the same activities. Finally, increasing sequencing depth allowed the direct measure of replication dynamics from an exponentially growing culture. This is the first time this approach, called marker frequency analysis, has been successfully applied to a eukaryote. These data provide a high-resolution resource and methodological framework for studying genome biology.


Subject(s)
DNA Replication , Genome , High-Throughput Nucleotide Sequencing/methods , Sequence Analysis, DNA/methods , Replication Origin , Saccharomyces cerevisiae/genetics
8.
Genome Announc ; 1(6)2013 Nov 21.
Article in English | MEDLINE | ID: mdl-24265498

ABSTRACT

Campylobacter jejuni strain PT14 is a clinical isolate previously used to propagate bacteriophages in the United Kingdom phage typing scheme. The strain has proven useful in the isolation of Campylobacter bacteriophages from several sources, and it functions as a model host in phage therapy experiments with poultry and poultry meat.

9.
DNA Repair (Amst) ; 12(11): 993-9, 2013 Nov.
Article in English | MEDLINE | ID: mdl-24075571

ABSTRACT

Thymineless death (TLD) is the rapid loss of colony-forming ability in bacterial, yeast and human cells starved for thymine, and is the mechanism of action of common chemotherapeutic drugs. In Escherichia coli, significant loss of viability during TLD requires the SOS replication-stress/DNA-damage response, specifically its role in inducing the inhibitor of cell division, SulA. An independent RecQ- and RecJ-dependent TLD pathway accounts for a similarly large additional component of TLD, and a third SOS- and RecQ/J-independent TLD pathway has also been observed. Although two groups have implicated the SOS-response in TLD, an SOS-deficient mutant strain from an earlier study was found to be sensitive to thymine deprivation. We performed whole-genome resequencing on that SOS-deficient strain and find that, compared with the SOS-proficient control strain, it contains five mutations in addition to the SOS-blocking lexA(Ind(-)) mutation. One of the additional mutations, csrA, confers TLD sensitivity specifically in SOS-defective strains. We find that CsrA, a carbon storage regulator, reduces TLD in SOS- or SulA-defective cells, and that the increased TLD that occurs in csrA(-) SOS-defective cells is dependent on RecQ. We consider a hypothesis in which the modulation of nucleotide pools by CsrA might inhibit TLD specifically in SOS-deficient (SulA-deficient) cells.


Subject(s)
Escherichia coli Proteins/genetics , Escherichia coli Proteins/metabolism , Escherichia coli/physiology , RNA-Binding Proteins/genetics , RNA-Binding Proteins/metabolism , Repressor Proteins/genetics , Repressor Proteins/metabolism , SOS Response, Genetics , Thymine/metabolism , Bacterial Proteins/metabolism , DNA Damage , DNA Repair , DNA, Bacterial/genetics , DNA, Bacterial/metabolism , Escherichia coli/enzymology , Genome, Bacterial , Microbial Viability , Mutation, Missense , Recombination, Genetic , Serine Endopeptidases/metabolism
10.
Genome Announc ; 1(4)2013 Jul 25.
Article in English | MEDLINE | ID: mdl-23887910

ABSTRACT

Salmonella enterica serovar Typhimurium U288 has firmly established itself within the United Kingdom pig production industry. The prevalence of this highly pathogenic multidrug-resistant serovar at such a critical point in the food chain is therefore of great concern. To enhance our understanding of this microorganism, whole-genome and plasmid sequencing was performed.

11.
Parasitology ; 140(8): 1026-32, 2013 Jul.
Article in English | MEDLINE | ID: mdl-23611086

ABSTRACT

Binding of promastigotes to the sand fly midgut epithelium is regarded as an essential part of the Leishmania life cycle in the vector. Among Leishmania surface molecules putatively involved in attachment to the sand fly midgut, two GPI-anchored molecules are the most prominent: lipophosphoglycan (LPG) and promastigote surface protease gp63. In this work, we examined midgut attachment of Leishmania lines mutated in GPI-anchored molecules and compared results from 2 different techniques: in vivo development in sand flies and in vitro competitive binding assays using fluorescently labelled parasites. In combination with previous studies, our data provide additional support for (1) an LPG-independent parasite-binding mechanism of Leishmania major within the midgut of the permissive vector Phlebotomus perniciosus, and provide strong support for (2) the crucial role of L. major LPG in specific vector Phlebotomus papatasi, and (3) a role for Leishmania amazonensis gp63 in Lutzomyia longipalpis midgut binding. Moreover, our results suggest a critical role for GPI-anchored proteins and gp63 in Leishmania mexicana attachment to L. longipalpis midguts, as the wild type (WT) line accounted for over 99% of bound parasites.


Subject(s)
Glycoconjugates/metabolism , Glycosphingolipids/metabolism , Insect Vectors/parasitology , Leishmania/physiology , Psychodidae/parasitology , Animals , Binding, Competitive , Digestive System/parasitology , Female , Galactosyltransferases/genetics , Galactosyltransferases/metabolism , Glycoconjugates/genetics , Glycosphingolipids/genetics , Humans , Life Cycle Stages , Metalloendopeptidases/genetics , Metalloendopeptidases/metabolism , Mutation , Phlebotomus/parasitology , Protozoan Proteins/genetics , Protozoan Proteins/metabolism
12.
Genome Biol ; 13(3): R19, 2012.
Article in English | MEDLINE | ID: mdl-22439894

ABSTRACT

BACKGROUND: Planarian stem cells, or neoblasts, drive the almost unlimited regeneration capacities of freshwater planarians. Neoblasts are traditionally described by their morphological features and by the fact that they are the only proliferative cell type in asexual planarians. Therefore, they can be specifically eliminated by irradiation. Irradiation, however, is likely to induce transcriptome-wide changes in gene expression that are not associated with neoblast ablation. This has affected the accurate description of their specific transcriptomic profile. RESULTS: We introduce the use of Smed-histone-2B RNA interference (RNAi) for genetic ablation of neoblast cells in Schmidtea mediterranea as an alternative to irradiation. We characterize the rapid, neoblast-specific phenotype induced by Smed-histone-2B RNAi, resulting in neoblast ablation. We compare and triangulate RNA-seq data after using both irradiation and Smed-histone-2B RNAi over a time course as means of neoblast ablation. Our analyses show that Smed-histone-2B RNAi eliminates neoblast gene expression with high specificity and discrimination from gene expression in other cellular compartments. We compile a high confidence list of genes downregulated by both irradiation and Smed-histone-2B RNAi and validate their expression in neoblast cells. Lastly, we analyze the overall expression profile of neoblast cells. CONCLUSIONS: Our list of neoblast genes parallels their morphological features and is highly enriched for nuclear components, chromatin remodeling factors, RNA splicing factors, RNA granule components and the machinery of cell division. Our data reveal that the regulation of planarian stem cells relies on posttranscriptional regulatory mechanisms and suggest that planarians are an ideal model for this understudied aspect of stem cell biology.


Subject(s)
Histones/genetics , Planarians/genetics , Pluripotent Stem Cells/metabolism , RNA Interference , RNA, Messenger/genetics , Transcriptome/genetics , Animals , Cell Division/genetics , Cell Division/radiation effects , Cell Nucleus/genetics , Cell Nucleus/metabolism , Cell Nucleus/radiation effects , Gamma Rays , Gene Expression Profiling , Gene Expression Regulation, Developmental/radiation effects , Histones/metabolism , Mediterranean Sea , Oligonucleotide Array Sequence Analysis , Planarians/growth & development , Planarians/radiation effects , Pluripotent Stem Cells/cytology , Pluripotent Stem Cells/radiation effects , RNA, Messenger/antagonists & inhibitors
13.
Virol J ; 8: 498, 2011 Nov 02.
Article in English | MEDLINE | ID: mdl-22047448

ABSTRACT

BACKGROUND: Whole genome sequencing of bacteriophages suitable for biocontrol of pathogens in food products is a pre-requisite to any phage-based intervention procedure. Trials involving the biosanitization of Salmonella Typhimurium in the pig production environment identified one such candidate, ΦSH19. RESULTS: This phage was sequenced and analysis of its 157,785 bp circular dsDNA genome revealed a number of interesting features. ΦSH19 constitutes another member of the recently-proposed Myoviridae Vi01-like family of phages, containing S. Typhi-specific Vi01 and Shigella-specific SboM-AG3. At the nucleotide level ΦSH19 is highly similar to phage Vi01 (80-98% pairwise identity over the length of the genome), with the major differences lying in the region associated with host-range determination. Analyses of the proteins encoded within this region by ΦSH19 revealed a cluster of three putative tail spikes. Of the three tail spikes, two have protein domains associated with the pectate lyase family of proteins (Tsp2) and P22 tail spike family (Tsp3) with the prospect that these enable Salmonella O antigen degradation. Tail spike proteins of Vi01 and SboM-AG3 are predicted to contain conserved right-handed parallel ß-helical structures but the internal protein domains are varied allowing different host specificities. CONCLUSIONS: The addition or exchange of tail spike protein modules is a major contributor to host range determination in the Vi01-like phage family.


Subject(s)
Host Specificity , Salmonella Phages/growth & development , Salmonella Phages/genetics , Salmonella typhimurium/virology , Animals , DNA/chemistry , DNA/genetics , DNA, Circular/chemistry , DNA, Circular/genetics , DNA, Viral/chemistry , DNA, Viral/genetics , Evolution, Molecular , Gene Order , Molecular Sequence Data , Recombination, Genetic , Salmonella Phages/isolation & purification , Salmonella Phages/physiology , Sequence Analysis, DNA , Sequence Homology, Nucleic Acid , Species Specificity , Viral Tail Proteins/genetics
14.
PLoS One ; 5(12): e15617, 2010 Dec 14.
Article in English | MEDLINE | ID: mdl-21179477

ABSTRACT

The use of planarians as a model system is expanding and the mechanisms that control planarian regeneration are being elucidated. The planarian Schmidtea mediterranea in particular has become a species of choice. Currently the planarian research community has access to this whole genome sequencing project and over 70,000 expressed sequence tags. However, the establishment of massively parallel sequencing technologies has provided the opportunity to define genetic content, and in particular transcriptomes, in unprecedented detail. Here we apply this approach to the planarian model system. We have sequenced, mapped and assembled 581,365 long and 507,719,814 short reads from RNA of intact and mixed stages of the first 7 days of planarian regeneration. We used an iterative mapping approach to identify and define de novo splice sites with short reads and increase confidence in our transcript predictions. We more than double the number of transcripts currently defined by publicly available ESTs, resulting in a collection of 25,053 transcripts described by combining platforms. We also demonstrate the utility of this collection for an RNAseq approach to identify potential transcripts that are enriched in neoblast stem cells and their progeny by comparing transcriptome wide expression levels between irradiated and intact planarians. Our experiments have defined an extensive planarian transcriptome that can be used as a template for RNAseq and can also help to annotate the S. mediterranea genome. We anticipate that suites of other 'omic approaches will also be facilitated by building on this comprehensive data set including RNAseq across many planarian regenerative stages, scenarios, tissues and phenotypes generated by RNAi.


Subject(s)
Genetic Techniques , Planarians/metabolism , RNA/genetics , Stem Cells/cytology , Animals , Chromosome Mapping , Contig Mapping , Exons , Expressed Sequence Tags , Gene Library , Open Reading Frames , RNA, Messenger/metabolism , Regeneration/genetics , Sequence Analysis, DNA , Transcription, Genetic
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