Your search keyword '"Daniela Gaio"' showing total 5 results

1. Post-weaning shifts in microbiome composition and metabolism revealed by over 25 000 pig gut metagenome-assembled genomes

Author

Kay Anantanawat, Toni A. Chapman, Aaron E. Darling, Matthew Z. DeMaere, Steven P. Djordjevic, and Daniela Gaio

Subjects

Proteome, Swine, medicine.medical_treatment, gut microbiome, Zoology, Weaning, Biology, Genome, law.invention, post-weaning, 03 medical and health sciences, Probiotic, law, medicine, Animals, Microbiome, Phylogeny, Research Articles, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, carbohydrate active enzymes, Prebiotic, 030302 biochemistry & molecular biology, General Medicine, Metabolism, Gastrointestinal Microbiome, Microbial Communities, Metagenomics, Metagenome, Composition (visual arts), co-assembly, time series, Genome, Bacterial, shotgun metagenomics

Abstract

Using a previously described metagenomics dataset of 27 billion reads, we reconstructed over 50 000 metagenome-assembled genomes (MAGs) of organisms resident in the porcine gut, 46.5 % of which were classified as >70 % complete with a

Published

2021

2. A large-scale metagenomic survey dataset of the post-weaning piglet gut lumen

Author

Tiziana Zingali, Linda Falconer, Steven P. Djordjevic, Michael Liu, Matthew Z. DeMaere, Daniela Gaio, Kay Anantanawat, Toni A. Chapman, G.J. Eamens, and Aaron E. Darling

Subjects

Swine, medicine.drug_class, AcademicSubjects/SCI02254, Antibiotics, Health Informatics, Weaning, Gut flora, Data Note, law.invention, Microbiology, 03 medical and health sciences, Probiotic, Antibiotic resistance, law, medicine, Animals, Microbiome, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, biology, 030306 microbiology, Probiotics, biology.organism_classification, Gastrointestinal Microbiome, Computer Science Applications, Diarrhea, Metagenomics, AcademicSubjects/SCI00960, Metagenome, Female, Sample collection, medicine.symptom

Abstract

Background Early weaning and intensive farming practices predispose piglets to the development of infectious and often lethal diseases, against which antibiotics are used. Besides contributing to the build-up of antimicrobial resistance, antibiotics are known to modulate the gut microbial composition. As an alternative to antibiotic treatment, studies have previously investigated the potential of probiotics for the prevention of postweaning diarrhea. In order to describe the post-weaning gut microbiota, and to study the effects of two probiotics formulations and of intramuscular antibiotic treatment on the gut microbiota, we sampled and processed over 800 faecal time-series samples from 126 piglets and 42 sows. Results Here we report on the largest shotgun metagenomic dataset of the pig gut lumen microbiome to date, consisting of >8 Tbp of shotgun metagenomic sequencing data. The animal trial, the workflow from sample collection to sample processing, and the preparation of libraries for sequencing, are described in detail. We provide a preliminary analysis of the dataset, centered on a taxonomic profiling of the samples, and a 16S-based beta diversity analysis of the mothers and the piglets in the first 5 weeks after weaning. Conclusions This study was conducted to generate a publicly available databank of the faecal metagenome of weaner piglets aged between 3 and 9 weeks old, treated with different probiotic formulations and intramuscular antibiotic treatment. Besides investigating the effects of the probiotic and intramuscular antibiotic treatment, the dataset can be explored to assess a wide range of ecological questions with regards to antimicrobial resistance, host-associated microbial and phage communities, and their dynamics during the aging of the host.

Published

2021

3. Community composition and development of the post-weaning piglet gut microbiome

Author

Daniela Gaio, Matthew Z DeMaere, Kay Anantanawat, Graeme J Eamens, Michael Liu, Tiziana Zingali, Linda Falconer, Toni A Chapman, Steven P Djordjevic, and Aaron E Darling

Abstract

BackgroundEarly weaning and intensive farming practices predispose piglets to the development of infectious and often lethal diseases, against which antibiotics are used. Besides contributing to the build-up of antimicrobial resistance, antibiotics are known to modulate the gut microbial composition. Studies have previously investigated the effects of probiotics as alternatives to antibiotic treatment for the prevention of post-weaning diarrhea. In order to describe the post-weaning gut microbiota, and the effects of two probiotics formulations and of intramuscular antibiotic treatment on the gut microbiota, we processed over 800 faecal time-series samples from 126 piglets and 42 sows, generating over 8Tbp of metagenomic shotgun sequence data. Here we describe the animal trial procedures, the generation of our metagenomic dataset and the analysis of the microbial community composition using a phylogenetic framework.ResultsFactors such as age, litter effects, and breed, by significantly correlating with gut microbial community shifts, can be major confounding factors in the assessment of treatment effects. Intramuscular antibiotic treatment and probiotic treatments were found to correlate with alpha and beta diversity, as well as with a transient establishment of Mollicutes and Lactobacillales, respectively. We found the abundance of certain taxa to correlate with weight gain.ConclusionsOur findings demonstrate that breed, litter, and age, are important contributors to variation in the community composition, and that treatment effects of the antibiotic and probiotic treatments were subtle, while host age was the dominant factor in shaping the gut microbiota of piglets after weaning. The current study shows, by means of a phylogenetic diversity framework, that the post-weaning pig gut microbiome appears to follow a highly structured developmental program with characteristic post-weaning changes that can distinguish hosts that were born as little as two days apart in the second month of life.

Published

2020

4. Phylogenetic diversity analysis of shotgun metagenomic reads describes gut microbiome development and treatment effects in the post-weaned pig

Author

Michael Liu, Matthew Z. DeMaere, Linda Falconer, Tiziana Zingali, Daniela Gaio, Kay Anantanawat, Steven P. Djordjevic, Aaron E. Darling, Graeme J. Eamens, and Toni A. Chapman

Subjects

0301 basic medicine, Litter (animal), biology, medicine.drug_class, 030106 microbiology, Antibiotics, Zoology, Gut flora, biology.organism_classification, Gut microbiome, Breed, law.invention, 03 medical and health sciences, Probiotic, 030104 developmental biology, Metagenomics, law, medicine, Weaning

Abstract

BackgroundIntensive farming practices can increase exposure of animals to infectious agents against which antibiotics are used. Besides leading to antimicrobial resistance (AMR), orally administered antibiotics are well known to cause dysbiosis. To counteract dysbiotic effects, numerous studies in the past two decades sought to understand whether probiotics are a valid tool to help re-establish a healthy gut microbial community after antibiotic treatment. However, although dysbiotic effects of antibiotics are well investigated, little is known about the effects of intramuscular antibiotic treatment on the gut microbiome and a few studies attempted to study treatment effects using phylogenetic diversity analysis techniques. In this study we sought to determine the effects of two probiotic- and one intramuscularly administered antibiotic treatment on the developing gut microbiome of post-weaning piglets between their 3rd and 9th week of life.MethodsShotgun metagenomic sequences from over 800 faecal time-series samples derived from 126 piglets and 42 sows were analysed in a phylogenetic framework to characterise the developing gut microbial community composition of post-weaning piglets. We assessed the effects of intramuscular antibiotic treatment and probiotic oral treatment on the diversity of these gut microbial communities using alpha and beta diversity measures.ResultsDifferences between individual hosts such as breed, litter, and age, were found to be important contributors to variation in the community composition. Host age was the dominant factor in shaping the gut microbiota of piglets after weaning. The post-weaning pig gut microbiome appeared to follow a highly structured developmental program with characteristic post-weaning changes that can distinguish hosts that were born as little as two days apart in the second month of life. Treatment effects of the antibiotic and probiotic treatments were found but were subtle and included a higher representation of Mollicutes associated with intramuscular antibiotic treatment, and an increase of Lactobacillus associated with probiotic treatment.DiscussionThe discovery of correlations between experimental factors and microbial community composition is more commonly addressed with OTU-based methods and rarely analysed via phylogenetic diversity measures. The latter method, although less intuitive than the former, suffers less from library size normalization biases, and it proved to be instrumental in this study for the discovery of correlations between microbiome composition and host-, and treatment factors.

Published

2020

5. Hackflex: low cost Illumina Nextera Flex sequencing library construction

Author

Leigh G. Monahan, Michael Liu, Joyce To, Daniela Gaio, Aaron E. Darling, and Kay Anantanawat

Subjects

Protocol (science), 0303 health sciences, Database, Computer science, Library preparation, 030302 biochemistry & molecular biology, computer.software_genre, Cost savings, Set (abstract data type), 03 medical and health sciences, FLEX, Microbial genome, Price reduction, computer, Illumina dye sequencing, 030304 developmental biology

Abstract

We developed a low-cost method for the production of Illumina-compatible sequencing libraries that allows up to 14 times more libraries for high-throughput Illumina sequencing to be generated for the same cost. We call this new method Hackflex. Quality of library preparation was tested by constructing libraries fromE. coliMG1655 genomic DNA using either Hackflex, standard Nextera Flex or a variation of standard Nextera Flex in which the bead-linked transposase is diluted prior to use. In order to test the library quality for genomes with a higher and a lower GC content, library construction methods were also tested onP. aeruginosaPAO1 andS. aureusATCC25923, respectively. We demonstrated that Hackflex can produce high quality libraries and yields a highly uniform coverage, equivalent to the standard Nextera Flex kit. We show that strongly size selected libraries produce sufficient yield and complexity to supportde novomicrobial genome assembly, and that assemblies of the large insert libraries can be much more contiguous than standard libraries without strong size selection. We introduce a new set of sample barcodes that are distinct from standard Illumina barcodes, enabling Hackflex samples to be multiplexed with samples barcoded using standard Illumina kits. Using Hackflex, we were able to achieve a per sample reagent cost for library prep of A$7.22 (USD$5.60), which is 9.87 times lower than the Standard Nextera Flex protocol at advertised retail price. An additional simple modification and further simplification of the protocol by omitting the wash step enables a further price reduction to reach an overall 14-fold cost saving. This method will allow researchers to construct more libraries within a given budget, thereby yielding more data and facilitating research programs where sequencing large numbers of libraries is beneficial.

Published

2019