The cynomolgus macaque, Macaca fascicularis, is a non-human primate (NHP) widely used in biomedical research as its genetics, immunology and physiology are similar to those of humans. They may also be a useful model of the intestinal microbiome as their prokaryome resembles that of humans. However, beyond the prokaryome relatively little is known about other constituents of the macaque intestinal microbiome including the mycobiome. Here, we conducted a region-by-region taxonomic survey of the cynomolgus intestinal mycobiota, from duodenum to distal colon, of sixteen captive animals of differing age (from young to old). Using a high-throughput ITS1 amplicon sequencing-based approach, the cynomolgus gut mycobiome was dominated by fungi from the Ascomycota phylum. The budding yeast genus Kazachstania was most abundant, with the thermotolerant species K. pintolopesii highly prevalent, and the predominant species in both the small and large intestines. This is in marked contrast to humans, in which the intestinal mycobiota is characterised by other fungal genera including Candida and Saccharomyces, and Candida albicans. This study provides a comprehensive insight into the fungal communities present within the captive cynomolgus gut, and for the first time identifies K. pintolopesii as a candidate primate gut commensal.
Abstract Background The horse plays crucial roles across the globe, including in horseracing, as a working and companion animal and as a food animal. The horse hindgut microbiome makes a key contribution in turning a high fiber diet into body mass and horsepower. However, despite its importance, the horse hindgut microbiome remains largely undefined. Here, we applied culture-independent shotgun metagenomics to thoroughbred equine faecal samples to deliver novel insights into this complex microbial community. Results We performed metagenomic sequencing on five equine faecal samples to construct 123 high- or medium-quality metagenome-assembled genomes from Bacteria and Archaea. In addition, we recovered nearly 200 bacteriophage genomes. We document surprising taxonomic and functional diversity, encompassing dozens of novel or unnamed bacterial genera and species, to which we have assigned new Candidatus names. Many of these genera are conserved across a range of mammalian gut microbiomes. Conclusions Our metagenomic analyses provide new insights into the bacterial, archaeal and bacteriophage components of the horse gut microbiome. The resulting datasets provide a key resource for future high-resolution taxonomic and functional studies on the equine gut microbiome.
Extensively drug-resistant (XDR) Salmonella Typhi has been reported in Sindh province of Pakistan since 2016. The potential for further spread is of serious concern as remaining treatment options are severely limited. We report the phenotypic and genotypic characterization of 27 XDR S. Typhi isolated from patients attending Jinnah Hospital, Lahore, Pakistan. Isolates were identified by biochemical profiling; antimicrobial susceptibility was determined by a modified Kirby-Bauer method. These findings were confirmed using Illumina whole genome nucleotide sequence data. All sequences were compared to the outbreak strain from Southern Pakistan and typed using the S. Typhi genotyping scheme. All isolates were confirmed by a sequence analysis to harbor an IncY plasmid and the CTX-M-15 ceftriaxone resistance determinant. All isolates were of the same genotypic background as the outbreak strain from Sindh province. We report the first emergence of XDR S. Typhi in Punjab province of Pakistan confirmed by whole genome sequencing.
Although fungi are fundamental to the human microbiome, the diversity and dynamics of the mycobiome is poorly understood, particularly in considering their association with infectious disease, autoimmune disorders and atopy that affect immunocompromised individuals and infants. Characterising the human mycobiome faces several challenges relating to their low abundance and lack of standardized procedures for sample collection and isolation of viable cells and/or quality genetic material for culture-dependent and independent taxonomic and functional characterisation. To address these issues, we have developed a mycobiome analysis pipeline employing both culture-dependent and independent methods to identify as well as isolate, where possible, the fungal taxa populating the human intestinal tract. In a proof-of-concept study this pipeline has been used to identify fungal populations in faecal samples obtained from a small cohort of young infants, aged 2 years or younger. All were born prematurely, and severely immunocompromised and at risk from invasive and potentially lethal microbial infections, including those caused by fungal overgrowth. We have used this combined approach successfully to identify the fungi present in each individual infant, and to recover viable isolates. To date, Candida albicans and C. parapsilosis are the most frequently isolated fungi. While both are major opportunistic human fungal pathogens, C. parapsilosis is particularly problematic to preterm babies, due to its innate ability to form biofilms. Detailed characterisation of these isolates is currently underway. Two large-scale longitudinal microbiome studies have started at the Quadram Institute, and our validated analysis pipeline will be incorporated to define the fungal component of each study participant.
We report the quantitative genetic analysis of seed oil quality and quantity in six Arabidopsis thaliana recombinant inbred populations, in which the parent accessions were from diverse geographical origins, and were selected on the basis of variation for seed oil content and lipid composition. Although most of the biochemical steps involved in lipid biosynthesis are known and the key genes have been identified, the regulation of the processes that results in the final oil composition and total amount is not understood. By using physically anchored markers it was possible to compare results across populations. A total of 219 quantitative trait loci (QTLs) were identified, of which 81 were significant at P<0.001. Some of these colocalise with QTLs identified previously, but many novel QTLs were also identified. The results highlight the importance of studying traits in multiple populations, which will lead to a better understanding of the contribution that natural variation makes to the genetic architecture of a phenotype.
Understanding the quantitative control of fatty acid desaturation during the biosynthesis of seed storage oil has become a priority area for research, as a consequence of its importance for both human health and the substitution of mineral oil for industrial applications. We have analysed the genome structure of two mutants in Arabidopsis thaliana that show substantially elevated content of the omega-3 polyunsaturated fatty acid linolenic acid in their seed oil. In one, rfc4, sequences totalling approximately 2 Mb from chromosome 2 have been duplicated and inserted into chromosome 3. In the other mutant, ife, chromosome 2 sequences totalling approximately 1.4 Mb have been duplicated and inserted into a linked position. In both cases, the duplications encompass the FAD3 locus, which encodes the linoleate desaturase responsible for the biosynthesis of linolenic acid for accumulation in seed storage oil. The results show that mutagens such as fast neutrons (used for the induction of rfc4) and T-DNA (used for the induction of ife, which is not linked to the T-DNA present in the line) can result in the duplication of very large genome segments. They also show that increasing the dosage of the FAD3-containing genomic region results in an increase in the linolenic acid content of seed oil. Consequently, screening methods for duplication of FAD3 orthologues in oil crops may be an appropriate approach for the identification of germplasm for breeding varieties with increased proportions of linolenic acid in the oil that they produce.
Abstract Candida parapsilosis is a human fungal pathogen of increasing incidence and a common cause of invasive candidiasis, notably in neonates born either prematurely or with low birthweight. Here, using a combination of short- and long-read sequencing, we provide the draft genome of C. parapsilosis NCYC 4289, a faecal-derived isolate from a young male infant born prematurely in the UK.
Salmonella enterica serovar Infantis is the fifth most common Salmonella serovar isolated in England and Wales. Epidemiological, genotyping and antimicrobial-resistance data for S . enterica Infantis isolates were used to analyse English and Welsh demographics over a 5 year period. Travel cases associated with S . enterica Infantis were mainly from Asia, followed by cases from Europe and North America. Since 2000, increasing numbers of S . enterica Infantis had multidrug resistance determinants harboured on a large plasmid termed ‘plasmid of emerging S . enterica Infantis’ (pESI). Between 2013 and 2018, 42 S . enterica Infantis isolates were isolated from humans and food that harboured resistance determinants to multiple antimicrobial classes present on a pESI-like plasmid, including extended-spectrum β-lactamases (ESBLs; bla CTX-M-65 ). Nanopore sequencing of an ESBL-producing human S . enterica Infantis isolate indicated the presence of two regions on an IncFIB pESI-like plasmid harbouring multiple resistance genes. Phylogenetic analysis of the English and Welsh S . enterica Infantis population indicated that the majority of multidrug-resistant isolates harbouring the pESI-like plasmid belonged to a single clade maintained within the population. The bla CTX-M-65 ESBL isolates first isolated in 2013 comprise a lineage within this clade, which was mainly associated with South America. Our data, therefore, show the emergence of a stable resistant clone that has been in circulation for some time in the human population in England and Wales, highlighting the necessity of monitoring resistance in this serovar.
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