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8. Accelerated growth in the absence of DNA replication origins

Author

Hawkins, Michelle, Malla, Sunir, Blythe, Martin J., Nieduszynski, Conrad A., and Allers, Thorsten

Subjects
Research, Properties, Recombinases -- Properties, DNA replication -- Research, Archaea -- Properties, Archaeabacteria -- Properties
Abstract

H. volcanii is a genetically tractable archaeon (2,3); its 2.85 mega-base main chromosome is replicated from several origins (4) using machinery homologous to that found in eukaryotes (1). To characterize [...], DNA replication initiates at defined sites called origins, which serve as binding sites for initiator proteins that recruit the replicative machinery. Origins differ in number and structure across the three domains of life (1) and their properties determine the dynamics of chromosome replication. Bacteria and some archaea replicate from single origins, whereas most archaea and all eukaryotes replicate using multiple origins. Initiation mechanisms that rely on homologous recombination operate in some viruses. Here we show that such mechanisms also operate in archaea. We use deep sequencing to study replication in Haloferax volcanii and identify four chromosomal origins of differing activity. Deletion of individual origins results in perturbed replication dynamics and reduced growth. However, a strain lacking all origins has no apparent defects and grows significantly faster than wild type. Origin-less cells initiate replication at dispersed sites rather than at discrete origins and have an absolute requirement for the recombinase RadA, unlike strains lacking individual origins. Our results demonstrate that homologous recombination alone can efficiently initiate the replication of an entire cellular genome. This raises the question of what purpose replication origins serve and why they have evolved.

Published
2013

10. Use of Bulk Segregant Analysis for Determining the Genetic Basis of Azole Resistance in the Opportunistic Pathogen Aspergillus fumigatus.

Author

Ashton, George D., Fei Sang, Blythe, Martin, Zadik, Daniel, Holmes, Nadine, Malla, Sunir, Camps, Simone M. T., Wright, Victoria, Melchers, Willem J. G., Verweij, Paul E., and Dyer, Paul S.

Abstract

A sexual cycle was described in 2009 for the opportunistic fungal pathogen Aspergillus fumigatus, opening up for the first time the possibility of using techniques reliant on sexual crossing for genetic analysis. The present study was undertaken to evaluate whether the technique ‘bulk segregant analysis’ (BSA), which involves detection of differences between pools of progeny varying in a particular trait, could be applied in conjunction with nextgeneration sequencing to investigate the underlying basis of monogenic traits in A. fumigatus. Resistance to the azole antifungal itraconazole was chosen as a model, with a dedicated bioinformatic pipeline developed to allow identification of SNPs that differed between the resistant progeny pool and resistant parent compared to the sensitive progeny pool and parent. A clinical isolate exhibiting monogenic resistance to itraconazole of unknown basis was crossed to a sensitive parent and F1 progeny used in BSA. In addition, the use of backcrossing and increasing the number in progeny pools was evaluated as ways to enhance the efficiency of BSA. Use of F1 pools of 40 progeny led to the identification of 123 candidate genes with SNPs distributed over several contigs when aligned to an A1163 reference genome. Successive rounds of backcrossing enhanced the ability to identify specific genes and a genomic region, with BSA of progeny (using 40 per pool) from a third backcross identifying 46 genes with SNPs, and BSA of progeny from a sixth backcross identifying 20 genes with SNPs in a single 292 kb region of the genome. The use of an increased number of 80 progeny per pool also increased the resolution of BSA, with 29 genes demonstrating SNPs between the different sensitive and resistant groupings detected using progeny from just the second backcross with the majority of variants located on the same 292 kb region. Further bioinformatic analysis of the 292 kb region identified the presence of a cyp51A gene variant resulting in a methionine to lysine (M220K) change in the CYP51A protein, which was concluded to be the causal basis of the observed resistance to itraconazole. The future use of BSA in genetic analysis of A. fumigatus is discussed. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Nanopore sequencing and assembly of a human genome with ultra-long reads.

Author

Jain, Miten, Koren, Sergey, Miga, Karen H, Quick, Josh, Rand, Arthur C, Sasani, Thomas A, Tyson, John R, Beggs, Andrew D, Dilthey, Alexander T, Fiddes, Ian T, Malla, Sunir, Marriott, Hannah, Nieto, Tom, O'Grady, Justin, Olsen, Hugh E, Pedersen, Brent S, Rhie, Arang, Richardson, Hollian, Quinlan, Aaron R, and Snutch, Terrance P

Abstract

We report the sequencing and assembly of a reference genome for the human GM12878 Utah/Ceph cell line using the MinION (Oxford Nanopore Technologies) nanopore sequencer. 91.2 Gb of sequence data, representing ∼30× theoretical coverage, were produced. Reference-based alignment enabled detection of large structural variants and epigenetic modifications. De novo assembly of nanopore reads alone yielded a contiguous assembly (NG50 ∼3 Mb). We developed a protocol to generate ultra-long reads (N50 > 100 kb, read lengths up to 882 kb). Incorporating an additional 5× coverage of these ultra-long reads more than doubled the assembly contiguity (NG50 ∼6.4 Mb). The final assembled genome was 2,867 million bases in size, covering 85.8% of the reference. Assembly accuracy, after incorporating complementary short-read sequencing data, exceeded 99.8%. Ultra-long reads enabled assembly and phasing of the 4-Mb major histocompatibility complex (MHC) locus in its entirety, measurement of telomere repeat length, and closure of gaps in the reference human genome assembly GRCh38. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Signatures of Selection for Environmental Adaptation and Zebu × Taurine Hybrid Fitness in East African Shorthorn Zebu.

Author

Bahbahani, Hussain, Tijjani, Abdulfatai, Mukasa, Christopher, Wragg, David, Almathen, Faisal, Nash, Oyekanmi, Akpa, Gerald N., Mbole-Kariuki, Mary, Malla, Sunir, Woolhouse, Mark, Sonstegard, Tad, Van Tassell, Curtis, Blythe, Martin, Huson, Heather, and Hanotte, Olivier

Subjects
ZEBUS, BIOLOGICAL adaptation, NUCLEOTIDE sequencing
Abstract

The East African Shorthorn Zebu (EASZ) cattle are ancient hybrid between Asian zebu × African taurine cattle preferred by local farmers due to their adaptability to the African environment. The genetic controls of these adaptabilities are not clearly understood yet. Here, we genotyped 92 EASZ samples from Kenya (KEASZ) with more than 770,000 SNPs and sequenced the genome of a pool of 10 KEASZ. We observe an even admixed autosomal zebu × taurine genomic structure in the population. A total of 101 and 165 candidate regions of positive selection, based on genome-wide SNP analyses (meta-SS, Rsb, iHS, and ΔAF) and pooled heterozygosity (Hp) full genome sequence analysis, are identified, in which 35 regions are shared between them. A total of 142 functional variants, one novel, have been detected within these regions, in which 30 and 26 were classified as of zebu and African taurine origins, respectively. High density genome-wide SNP analysis of zebu × taurine admixed cattle populations from Uganda and Nigeria show that 25 of these regions are shared between KEASZ and Uganda cattle, and seven regions are shared across the KEASZ, Uganda, and Nigeria cattle. The identification of common candidate regions allows us to finemap 18 regions. These regions intersect with genes and QTL associated with reproduction and environmental stress (e.g., immunity and heat stress) suggesting that the genome of the zebu × taurine admixed cattle has been uniquely selected to maximize hybrid fitness both in terms of reproduction and survivability. [ABSTRACT FROM AUTHOR]

Published
2017
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16. Development of Gene-Based SSR Markers in Winged Bean (Psophocarpus tetragonolobus (L.) DC.) for Diversity Assessment.

Author

Quin Nee Wong, Tanzi, Alberto Stefano, Wai Kuan Ho, Malla, Sunir, Blythe, Martin, Karunaratne, Asha, Massawe, Festo, and Mayes, Sean

Subjects
WINGED bean, CULTIVARS, PSOPHOCARPUS, LEAVES, BOTANY
Abstract

Winged bean (Psophocarpus tetragonolobus) is an herbaceous multipurpose legume grown in hot and humid countries as a pulse, vegetable (leaves and pods), or root tuber crop depending on local consumption preferences. In addition to its different nutrient-rich edible parts which could contribute to food and nutritional security, it is an efficient nitrogen fixer as a component of sustainable agricultural systems. Generating genetic resources and improved lines would help to accelerate the breeding improvement of this crop, as the lack of improved cultivars adapted to specific environments has been one of the limitations preventing wider use. A transcriptomic de novo assembly was constructed from four tissues: leaf, root, pod, and reproductive tissues from Malaysian accessions, comprising of 198,554 contigs with a N50 of 1462 bp. Of these, 138,958 (70.0%) could be annotated. Among 9682 genic simple sequence repeat (SSR) motifs identified (excluding monomer repeats), trinucleotide-repeats were the most abundant (4855), followed by di-nucleotide (4500) repeats. A total of 18 SSR markers targeting di- and tri-nucleotide repeats have been validated as polymorphic markers based on an initial assessment of nine genotypes originated from five countries. A cluster analysis revealed provisional clusters among this limited, yet diverse selection of germplasm. The developed assembly and validated genic SSRs in this study provide a foundation for a better understanding of the plant breeding system for the genetic improvement of winged bean. [ABSTRACT FROM AUTHOR]

Published
2017
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17. Genome-wide transcriptional response of Trichoderma reesei to lignocellulose using RNA sequencing and comparison with Aspergillus niger.

Author

Ries, Laure, Pullan, Steven T., Delmas, Stéphane, Malla, Sunir, Blythe, Martin J., and Archer, David B.

Subjects
GENETIC regulation of enzymes, TRICHODERMA reesei, NUCLEOTIDE sequence, GENE regulatory networks, LIGNOCELLULOSE, ASPERGILLUS niger
Abstract

Background: A major part of second generation biofuel production is the enzymatic saccharification of lignocellulosic biomass into fermentable sugars. Many fungi produce enzymes that can saccarify lignocellulose and cocktails from several fungi, including well-studied species such as Trichoderma reesei and Aspergillus niger, are available commercially for this process. Such commercially-available enzyme cocktails are not necessarily representative of the array of enzymes used by the fungi themselves when faced with a complex lignocellulosic material. The global induction of genes in response to exposure of T. reesei to wheat straw was explored using RNA-seq and compared to published RNA-seq data and model of how A. niger senses and responds to wheat straw. Results: In T. reesei, levels of transcript that encode known and predicted cell-wall degrading enzymes were very high after 24 h exposure to straw (approximately 13% of the total mRNA) but were less than recorded in A. niger (approximately 19% of the total mRNA). Closer analysis revealed that enzymes from the same glycoside hydrolase families but different carbohydrate esterase and polysaccharide lyase families were up-regulated in both organisms. Accessory proteins which have been hypothesised to possibly have a role in enhancing carbohydrate deconstruction in A. niger were also uncovered in T. reesei and categories of enzymes induced were in general similar to those in A. niger. Similarly to A. niger, antisense transcripts are present in T. reesei and their expression is regulated by the growth condition. Conclusions: T. reesei uses a similar array of enzymes, for the deconstruction of a solid lignocellulosic substrate, to A. niger. This suggests a conserved strategy towards lignocellulose degradation in both saprobic fungi. This study provides a basis for further analysis and characterisation of genes shown to be highly induced in the presence of a lignocellulosic substrate. The data will help to elucidate the mechanism of solid substrate recognition and subsequent degradation by T. reesei and provide information which could prove useful for efficient production of second generation biofuels. [ABSTRACT FROM AUTHOR]

Published
2013
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18. Transient Exposure to Low Levels of Insecticide Affects Metabolic Networks of Honeybee Larvae.

Author

Derecka, Kamila, Blythe, Martin J., Malla, Sunir, Genereux, Diane P., Guffanti, Alessandro, Pavan, Paolo, Moles, Anna, Snart, Charles, Ryder, Thomas, Ortori, Catharine A., Barrett, David A., Schuster, Eugene, and Stöger, Reinhard

Subjects
HONEYBEES, INSECT larvae, INSECTICIDES, INSECT pollinators, NEONICOTINOIDS, NUCLEOTIDE sequence, INSECT metabolism
Abstract

The survival of a species depends on its capacity to adjust to changing environmental conditions, and new stressors. Such new, anthropogenic stressors include the neonicotinoid class of crop-protecting agents, which have been implicated in the population declines of pollinating insects, including honeybees (Apis mellifera). The low-dose effects of these compounds on larval development and physiological responses have remained largely unknown. Over a period of 15 days, we provided syrup tainted with low levels (2 µg/L−1) of the neonicotinoid insecticide imidacloprid to beehives located in the field. We measured transcript levels by RNA sequencing and established lipid profiles using liquid chromatography coupled with mass spectrometry from worker-bee larvae of imidacloprid-exposed (IE) and unexposed, control (C) hives. Within a catalogue of 300 differentially expressed transcripts in larvae from IE hives, we detect significant enrichment of genes functioning in lipid-carbohydrate-mitochondrial metabolic networks. Myc-involved transcriptional response to exposure of this neonicotinoid is indicated by overrepresentation of E-box elements in the promoter regions of genes with altered expression. RNA levels for a cluster of genes encoding detoxifying P450 enzymes are elevated, with coordinated downregulation of genes in glycolytic and sugar-metabolising pathways. Expression of the environmentally responsive Hsp90 gene is also reduced, suggesting diminished buffering and stability of the developmental program. The multifaceted, physiological response described here may be of importance to our general understanding of pollinator health. Muscles, for instance, work at high glycolytic rates and flight performance could be impacted should low levels of this evolutionarily novel stressor likewise induce downregulation of energy metabolising genes in adult pollinators. [ABSTRACT FROM AUTHOR]

Published
2013
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19. High quality de novo sequencing and assembly of the Saccharomyces arboricolus genome.

Author

Liti, Gianni, Nguyen Ba, Alex N., Blythe, Martin, Müller, Carolin A., Bergström, Anders, Cubillos, Francisco A., Dafhnis-Calas, Felix, Khoshraftar, Shima, Malla, Sunir, Mehta, Neel, Siow, Cheuk C., Warringer, Jonas, Moses, Alan M., Louis, Edward J., and Nieduszynski, Conrad A.

Subjects
COMPARATIVE genetics, SACCHAROMYCES cerevisiae, SPECIES diversity, NUCLEOTIDE sequence, PHYLOGENY
Abstract

Background: Comparative genomics is a formidable tool to identify functional elements throughout a genome. In the past ten years, studies in the budding yeast Saccharomyces cerevisiae and a set of closely related species have been instrumental in showing the benefit of analyzing patterns of sequence conservation. Increasing the number of closely related genome sequences makes the comparative genomics approach more powerful and accurate. Results: Here, we report the genome sequence and analysis of Saccharomyces arboricolus, a yeast species recently isolated in China, that is closely related to S. cerevisiae. We obtained high quality de novo sequence and assemblies using a combination of next generation sequencing technologies, established the phylogenetic position of this species and considered its phenotypic profile under multiple environmental conditions in the light of its gene content and phylogeny. Conclusions: We suggest that the genome of S. arboricolus will be useful in future comparative genomics analysis of the Saccharomyces sensu stricto yeasts. [ABSTRACT FROM AUTHOR]

Published
2013
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20. Uncovering the Genome-Wide Transcriptional Responses of the Filamentous Fungus Aspergillus niger to Lignocellulose Using RNA Sequencing.

Author

Delmas, Stéphane, Pullan, Steven T., Gaddipati, Sanyasi, Kokolski, Matthew, Malla, Sunir, Blythe, Martin J., Ibbett, Roger, Campbell, Maria, Liddell, Susan, Aboobaker, Aziz, Tucker, Gregory A., and Archer, David B.

Subjects
GENETIC transcription, ASPERGILLUS niger, LIGNOCELLULOSE, NUCLEOTIDE sequence, ENZYMES
Abstract

A key challenge in the production of second generation biofuels is the conversion of lignocellulosic substrates into fermentable sugars. Enzymes, particularly those from fungi, are a central part of this process, and many have been isolated and characterised. However, relatively little is known of how fungi respond to lignocellulose and produce the enzymes necessary for dis-assembly of plant biomass. We studied the physiological response of the fungus Aspergillus niger when exposed to wheat straw as a model lignocellulosic substrate. Using RNA sequencing we showed that, 24 hours after exposure to straw, gene expression of known and presumptive plant cell wall--degrading enzymes represents a huge investment for the cells (about 20% of the total mRNA). Our results also uncovered new esterases and surface interacting proteins that might form part of the fungal arsenal of enzymes for the degradation of plant biomass. Using transcription factor deletion mutants (xlnR and creA) to study the response to both lignocellulosic substrates and low carbon source concentrations, we showed that a subset of genes coding for degradative enzymes is induced by starvation. Our data support a model whereby this subset of enzymes plays a scouting role under starvation conditions, testing for available complex polysaccharides and liberating inducing sugars, that triggers the subsequent induction of the majority of hydrolases. We also showed that antisense transcripts are abundant and that their expression can be regulated by growth conditions. [ABSTRACT FROM AUTHOR]

Published
2012
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21. High Through-Put Sequencing of the Parhyale hawaiensis mRNAs and microRNAs to Aid Comparative Developmental Studies.

Author

Blythe, Martin J., Malla, Sunir, Everall, Richard, Shih, Yu-huan, Lemay, Virginie, Moreton, Joanna, Wilson, Raymond, and Aboobaker, A. Aziz

Subjects
*PARHYALE, *TALITRIDAE, *DAPHNIA pulex, *HEREDITY, *NUCLEOTIDE sequence
Abstract

Understanding the genetic and evolutionary basis of animal morphological diversity will require comparative developmental studies that use new model organisms. This necessitates development of tools for the study of genetics and also the generation of sequence information of the organism to be studied. The development of next generation sequencing technology has enabled quick and cost effective generation of sequence information. Parhyale hawaiensis has emerged as a model organism of choice due to the development of advanced molecular tools, thus P. hawaiensis genetic information will help drive functional studies in this organism. Here we present a transcriptome and miRNA collection generated using next generation sequencing platforms. We generated approximately 1.7 million reads from a P. hawaiensis cDNA library constructed from embryos up to the germ band stage. These reads were assembled into a dataset comprising 163,501 transcripts. Using the combined annotation of Annot8r and pfam2go, Gene Ontology classifications was assigned to 20,597 transcripts. Annot8r was used to provide KEGG orthology to our transcript dataset. A total of 25,292 KEGG pathway assignments were defined and further confirmed with reciprocal blast against the NCBI nr protein database. This has identified many P. hawaiensis gene orthologs of key conserved signalling pathways involved in development. We also generated small RNA sequences from P. hawaiensis, identifying 55 conserved miRNAs. Sequenced small RNAs that were not annotated by stringent comparison to mirBase were used to search the Daphnia pulex for possible novel miRNAs. Using a conservative approach, we have identified 51 possible miRNA candidates conserved in the Daphnia pulex genome, which could be potential crustacean/arthropod specific miRNAs. Our study presents gene and miRNA discovery in a new model organism that does not have a sequenced genome. The data provided by our work will be valuable for the P. hawaiensis community as well as the wider evolutionary developmental biology community. [ABSTRACT FROM AUTHOR]

Published
2012
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23. A Dual Platform Approach to Transcript Discovery for the Planarian Schmidtea Mediterranea to Establish RNAseq for Stem Cell and Regeneration Biology.

Author

Blythe, Martin J., Kao, Damian, Malla, Sunir, Rowsell, Joanna, Wilson, Ray, Evans, Deborah, Jowett, Jamie, Hall, Amy, Lemay, Virginie, Lam, Sabrina, and Aboobaker, A. Aziz

Subjects
MEDICAL sciences, STEM cells, PRESERVATION of organs, tissues, etc., ORGANS (Anatomy), REGENERATION (Biology), GENETICS, GENOMES, TISSUES, RNA
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. [ABSTRACT FROM AUTHOR]

Published
2010
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24. TCRs with Distinct Specificity Profiles Use Different Binding Modes to Engage an Identical Peptide-HLA Complex.

Author

Coles CH, Mulvaney RM, Malla S, Walker A, Smith KJ, Lloyd A, Lowe KL, McCully ML, Martinez Hague R, Aleksic M, Harper J, Paston SJ, Donnellan Z, Chester F, Wiederhold K, Robinson RA, Knox A, Stacey AR, Dukes J, Baston E, Griffin S, Jakobsen BK, Vuidepot A, and Harper S

Subjects
Cell Line, Humans, Peptide Library, HLA-A2 Antigen immunology, Histocompatibility Antigens immunology, Peptides immunology, Receptors, Antigen, T-Cell immunology
Abstract

The molecular rules driving TCR cross-reactivity are poorly understood and, consequently, it is unclear the extent to which TCRs targeting the same Ag recognize the same off-target peptides. We determined TCR-peptide-HLA crystal structures and, using a single-chain peptide-HLA phage library, we generated peptide specificity profiles for three newly identified human TCRs specific for the cancer testis Ag NY-ESO-1 157-165 -HLA-A2. Two TCRs engaged the same central peptide feature, although were more permissive at peripheral peptide positions and, accordingly, possessed partially overlapping peptide specificity profiles. The third TCR engaged a flipped peptide conformation, leading to the recognition of off-target peptides sharing little similarity with the cognate peptide. These data show that TCRs specific for a cognate peptide recognize discrete peptide repertoires and reconciles how an individual's limited TCR repertoire following negative selection in the thymus is able to recognize a vastly larger antigenic pool., (Copyright © 2020 by The American Association of Immunologists, Inc.)

Published
2020
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25. MinION Analysis and Reference Consortium: Phase 2 data release and analysis of R9.0 chemistry.

Author

Jain M, Tyson JR, Loose M, Ip CLC, Eccles DA, O'Grady J, Malla S, Leggett RM, Wallerman O, Jansen HJ, Zalunin V, Birney E, Brown BL, Snutch TP, and Olsen HE

Abstract

Background: Long-read sequencing is rapidly evolving and reshaping the suite of opportunities for genomic analysis. For the MinION in particular, as both the platform and chemistry develop, the user community requires reference data to set performance expectations and maximally exploit third-generation sequencing. We performed an analysis of MinION data derived from whole genome sequencing of Escherichia coli K-12 using the R9.0 chemistry, comparing the results with the older R7.3 chemistry., Methods: We computed the error-rate estimates for insertions, deletions, and mismatches in MinION reads., Results: Run-time characteristics of the flow cell and run scripts for R9.0 were similar to those observed for R7.3 chemistry, but with an 8-fold increase in bases per second (from 30 bps in R7.3 and SQK-MAP005 library preparation, to 250 bps in R9.0) processed by individual nanopores, and less drop-off in yield over time. The 2-dimensional ("2D") N50 read length was unchanged from the prior chemistry. Using the proportion of alignable reads as a measure of base-call accuracy, 99.9% of "pass" template reads from 1-dimensional ("1D")  experiments were mappable and ~97% from 2D experiments. The median identity of reads was ~89% for 1D and ~94% for 2D experiments. The total error rate (miscall + insertion + deletion ) decreased for 2D "pass" reads from 9.1% in R7.3 to 7.5% in R9.0 and for template "pass" reads from 26.7% in R7.3 to 14.5% in R9.0., Conclusions: These Phase 2 MinION experiments serve as a baseline by providing estimates for read quality, throughput, and mappability. The datasets further enable the development of bioinformatic tools tailored to the new R9.0 chemistry and the design of novel biological applications for this technology., Abbreviations: K: thousand, Kb: kilobase (one thousand base pairs), M: million, Mb: megabase (one million base pairs), Gb: gigabase (one billion base pairs)., Competing Interests: Competing interests: All flow cells and library preparation kits were provided by ONT free of charge. Ewan Birney is a paid consultant of ONT. MJ, HEO, JT, ML, CI, HJ, JOG and BB have accepted reimbursement for conference travel expenses from ONT. VZ was funded for his work on this project from Oxford Nanopore through an agreement with EMBL.

Published
2017
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26. Real-time selective sequencing using nanopore technology.

Author

Loose M, Malla S, and Stout M

Subjects
Bacteriophage lambda genetics, Electronic Data Processing, Gene Library, Genome, Human, Humans, Repetitive Sequences, Nucleic Acid, Time Factors, High-Throughput Nucleotide Sequencing methods, Nanopores, Nucleic Acid Amplification Techniques methods, Sequence Analysis, DNA methods
Abstract

The Oxford Nanopore Technologies MinION sequencer enables the selection of specific DNA molecules for sequencing by reversing the driving voltage across individual nanopores. To directly select molecules for sequencing, we used dynamic time warping to match reads to reference sequences. We demonstrate our open-source Read Until software in real-time selective sequencing of regions within small genomes, individual amplicon enrichment and normalization of an amplicon set., Competing Interests: ML is a member of the MinION access program (MAP) and has received free-of-charge flow cells and kits for nanopore sequencing and travel and accommodation expenses to speak at Oxford Nanopore Technologies conferences.

Published
2016
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27. Characterisation of the horse transcriptome from immunologically active tissues.

Author

Moreton J, Malla S, Aboobaker AA, Tarlinton RE, and Emes RD

Abstract

The immune system of the horse has not been well studied, despite the fact that the horse displays several features such as sensitivity to bacterial lipopolysaccharide that make them in many ways a more suitable model of some human disorders than the current rodent models. The difficulty of working with large animal models has however limited characterisation of gene expression in the horse immune system with current annotations for the equine genome restricted to predictions from other mammals and the few described horse proteins. This paper outlines sequencing of 184 million transcriptome short reads from immunologically active tissues of three horses including the genome reference "Twilight". In a comparison with the Ensembl horse genome annotation, we found 8,763 potentially novel isoforms.

Published
2014
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28. Defining the molecular profile of planarian pluripotent stem cells using a combinatorial RNAseq, RNA interference and irradiation approach.

Author

Solana J, Kao D, Mihaylova Y, Jaber-Hijazi F, Malla S, Wilson R, and Aboobaker A

Subjects
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, Histones genetics, Planarians genetics, Pluripotent Stem Cells metabolism, RNA Interference, RNA, Messenger genetics, Transcriptome genetics
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.

Published
2012
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29. Site-specific recombination in Schizosaccharomyces pombe and systematic assembly of a 400kb transgene array in mammalian cells using the integrase of Streptomyces phage phiBT1.

Author

Xu Z, Lee NC, Dafhnis-Calas F, Malla S, Smith MC, and Brown WR

Subjects
Animals, CHO Cells, Cell Line, Chickens, Cricetinae, Cricetulus, Humans, Mice, Streptomyces virology, Integrases metabolism, Recombination, Genetic, Schizosaccharomyces genetics, Siphoviridae enzymology, Transgenes
Abstract

We have established the integrase of the Streptomyces phage phiBT1 as a tool for eukaryotic genome manipulation. We show that the phiBT1 integrase promotes efficient reciprocal and conservative site-specific recombination in vertebrate cells and in Schizosaccharomyces pombe, thus establishing the utility of this protein for genome manipulation in a wide range of eukaryotes. We show that the phiBT1 integrase can be used in conjunction with Cre recombinase to promote the iterative integration of transgenic DNA. We describe five cycles of iterative integration of a candidate mouse centromeric sequence 80 kb in length into a human mini-chromosome within a human-Chinese hamster hybrid cell line. These results establish the generality of the iterative site-specific integration technique.

Published
2008
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30. Chromosome engineering in DT40 cells and mammalian centromere function.

Author

Brown WR, Smith MC, Dafhnis-Calas F, Malla S, and Xu Z

Subjects
Animals, Chickens, Recombination, Genetic, Centromere, Chromosomes, Mammals genetics
Abstract

Chromosome engineering is the term given to procedures which modify the long range structure of a chromosome by homologous and site specific recombination or by telomere directed chromosome breakage. DT40 cells are uniquely powerful for chromosome engineering because mammalian chromosomes may be moved into them, efficiently modified and then moved back into a mammalian cell lines (Dieken et al., 1996). The high rate of sequence targeting seen in DT40 cells carrying human chromosomes is necessary but not sufficient for chromosome engineering. The ability to either delete or introduce long tracts of DNA subsequent to a sequence targeting reaction depends upon the use of site specific recombinases. We have made important progress in the development of this technology in the past few years and much of this review will be used to describe this work.

Published
2006
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31. Iterative in vivo assembly of large and complex transgenes by combining the activities of phiC31 integrase and Cre recombinase.

Author

Dafhnis-Calas F, Xu Z, Haines S, Malla SK, Smith MC, and Brown WR

Subjects
Animals, Bacteriophages enzymology, Cell Line, Chickens genetics, Chromosomes, Artificial, Bacterial, DNA chemistry, Recombination, Genetic, Streptomyces virology, Tandem Repeat Sequences, Genetic Engineering methods, Integrases metabolism, Transgenes, Viral Proteins metabolism
Abstract

We have used the phiC31 integrase to introduce large DNA sequences into a vertebrate genome and measure the efficiency of integration of intact DNA as a function of insert size. Inserts of 110 kb and 140 kb in length may be integrated with about 25% and 10% efficiency respectively. In order to overcome the problems of constructing transgenes longer than approximately 150 kb we have established a method that we call; 'Iterative Site Specific Integration' (ISSI). ISSI combines the activities of phiC31 integrase and Cre recombinase to enable the iterative and serial integration of transgenic DNA sequences. In principle the procedure may be repeated an arbitrary number of times and thereby allow the integration of tracts of DNA many hundreds of kilobase pairs long. In practice it may be limited by the time needed to check the accuracy of integration at each step of the procedure. We describe two ISSI experiments, in one of which we have constructed a complex array of vertebrate centromeric sequences of 150 kb in size. The principle that underlies ISSI is applicable to transgenesis in all organisms. ISSI may thus facilitate the reconstitution of biosynthetic pathways encoded by many different genes in transgenic plants, the assembly of large vertebrate loci as transgenes and the synthesis of complete genomes in bacteria.

Published
2005
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32. Rearranging the centromere of the human Y chromosome with phiC31 integrase.

Author

Malla S, Dafhnis-Calas F, Brookfield JF, Smith MC, and Brown WR

Subjects
Animals, Bacteriophages enzymology, Chickens genetics, Genetic Engineering, Humans, Hybrid Cells, Mutation, Streptomyces virology, Centromere, Chromosomes, Human, Y, Integrases metabolism, Recombination, Genetic
Abstract

We have investigated the ability of the integrase from the Streptomyces phiC31 'phage to either delete or invert 1 Mb of DNA around the centromere of the human Y chromosome in chicken DT40 hybrid somatic cells. Reciprocal and conservative site-specific recombination was observed in 54% of cells expressing the integrase. The sites failed to recombine in the remaining cells because the sites had been damaged. The sequences of the damaged sites indicated that the damage arose as a result of repair of recombination intermediates by host cell pathways. The liability of recombination intermediates to damage is consistent with what is known about the mechanism of serine recombinase reactions. The structures of the products of the chromosome rearrangements were consistent with the published sequence of the Y chromosome indicating that the assembly of the highly repeated region between the sites is accurate to a resolution of about 50 kb. Mini-chromosomes lacking a centromere were not recovered which also suggested that neo-centromere formation occurs infrequently in vertebrate somatic cells. No ectopic recombination was observed between a phiC31 integrase attB site and the chicken genome.

Published
2005
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