Your search keyword '"Patrick J. Biggs"' showing total 14 results

1. Genomic epidemiology and carbon metabolism of Escherichia coli serogroup O145 reflect contrasting phylogenies

Author

Anne C. Midwinter, Rose M. Collis, Adrian L. Cookson, David A. Wilkinson, Patrick J. Biggs, A. Springer Browne, Gale Brightwell, Nigel P. French, and Hamid Irshad

Subjects

Epidemiology, Malates, medicine.disease_cause, Pathology and Laboratory Medicine, Database and Informatics Methods, Genotype, Medicine and Health Sciences, Serine, Escherichia coli Infections, Phylogeny, Data Management, Genetics, 0303 health sciences, Multidisciplinary, Phylogenetic tree, Bacterial Genomics, Shiga-Toxigenic Escherichia coli, Microbial Genetics, Phylogenetic Analysis, Genomics, Phylogenetics, Infectious Diseases, Genetic Epidemiology, Medicine, Pathogens, Sequence Analysis, Research Article, Computer and Information Sciences, Virulence Factors, Bioinformatics, Science, Microbial Genomics, Biology, Research and Analysis Methods, Serogroup, Microbiology, Infectious Disease Epidemiology, 03 medical and health sciences, medicine, Bacterial Genetics, Animals, Humans, Evolutionary Systematics, Escherichia coli, 030304 developmental biology, Taxonomy, Genetic diversity, Evolutionary Biology, 030306 microbiology, Genetic heterogeneity, Biology and Life Sciences, Computational Biology, Bacteriology, Comparative Genomics, Genome Analysis, bacterial infections and mycoses, Carbon, Genetic epidemiology, Genetic marker, New Zealand

Abstract

Shiga toxin-producing Escherichia coli (STEC) are a leading cause of foodborne outbreaks of human disease, but they reside harmlessly as an asymptomatic commensal in the ruminant gut. STEC serogroup O145 are difficult to isolate as routine diagnostic methods are unable to distinguish non-O157 serogroups due to their heterogeneous metabolic characteristics, resulting in under-reporting which is likely to conceal their true prevalence. In light of these deficiencies, the purpose of this study was a twofold approach to investigate enhanced STEC O145 diagnostic culture-based methods: firstly, to use a genomic epidemiology approach to understand the genetic diversity and population structure of serogroup O145 at both a local (New Zealand) (n = 47) and global scale (n = 75) and, secondly, to identify metabolic characteristics that will help the development of a differential media for this serogroup. Analysis of a subset of E. coli serogroup O145 strains demonstrated considerable diversity in carbon utilisation, which varied in association with eae subtype and sequence type. Several carbon substrates, such as D-serine and D-malic acid, were utilised by the majority of serogroup O145 strains, which, when coupled with current molecular and culture-based methods, could aid in the identification of presumptive E. coli serogroup O145 isolates. These carbon substrates warrant subsequent testing with additional serogroup O145 strains and non-O145 strains. Serogroup O145 strains displayed extensive genetic heterogeneity that was correlated with sequence type and eae subtype, suggesting these genetic markers are good indicators for distinct E. coli phylogenetic lineages. Pangenome analysis identified a core of 3,036 genes and an open pangenome of >14,000 genes, which is consistent with the identification of distinct phylogenetic lineages. Overall, this study highlighted the phenotypic and genotypic heterogeneity within E. coli serogroup O145, suggesting that the development of a differential media targeting this serogroup will be challenging.

Published

2020

2. Investigation of the validity of two Bayesian ancestral state reconstruction models for estimating Salmonella transmission during outbreaks

Author

Nigel P. French, Philip E. Carter, Jonathan C. Marshall, David T. S. Hayman, Jackie Benschop, Patrick J. Biggs, Samuel J. Bloomfield, and Timothy G. Vaughan

Subjects

0301 basic medicine, Bacterial Diseases, Salmonellosis, Epidemiology, Pathology and Laboratory Medicine, Geographical locations, law.invention, Coalescent theory, Disease Outbreaks, 0302 clinical medicine, Effective population size, law, Salmonella, Statistics, Medicine and Health Sciences, Data Management, education.field_of_study, Multidisciplinary, Simulation and Modeling, Sampling (statistics), Phylogenetic Analysis, Bacterial Pathogens, Phylogenetics, Transmission (mechanics), Infectious Diseases, Medical Microbiology, Medicine, Pathogens, Research Article, Computer and Information Sciences, Population Size, Science, Population, Bayesian probability, Oceania, Biology, Research and Analysis Methods, Microbiology, Models, Biological, 03 medical and health sciences, Population Metrics, Enterobacteriaceae, Effective Population Size, Genetics, Animals, Evolutionary Systematics, Animal Models of Disease, education, Microbial Pathogens, Taxonomy, Evolutionary Biology, Salmonella Infections, Animal, Population Biology, Bacteria, Host (biology), Organisms, Outbreak, Biology and Life Sciences, Bayes Theorem, Animal Models of Infection, 030104 developmental biology, Animal Studies, People and places, 030217 neurology & neurosurgery, Population Genetics, New Zealand

Abstract

Ancestral state reconstruction models use genetic data to characterize a group of organisms’ common ancestor. These models have been applied to salmonellosis outbreaks to estimate the number of transmissions between different animal species that share similar geographical locations, with animal host as the state. However, as far as we are aware, no studies have validated these models for outbreak analysis. In this study, salmonellosis outbreaks were simulated using a stochastic Susceptible-Infected-Recovered model, and the host population and transmission parameters of these simulated outbreaks were estimated using Bayesian ancestral state reconstruction models (discrete trait analysis (DTA) and structured coalescent (SC)). These models were unable to accurately estimate the number of transmissions between the host populations or the amount of time spent in each host population. The DTA model was inaccurate because it assumed the number of isolates sampled from each host population was proportional to the number of individuals infected within each host population. The SC model was inaccurate possibly because it assumed that each host population's effective population size was constant over the course of the simulated outbreaks. This study highlights the need for phylodynamic models that can take into consideration factors that influence the characteristics and behavior of outbreaks, e.g. changing effective population sizes, variation in infectious periods, intra-population transmissions, and disproportionate sampling of infected individuals., PLoS ONE, 14 (7), ISSN:1932-6203

Published

2019

3. The effect of carbohydrate sources: Sucrose, invert sugar and components of mānuka honey, on core bacteria in the digestive tract of adult honey bees (Apis mellifera)

Author

Kate Richards, Shanthi G. Parkar, Alastair W. Robertson, Michelle A. Taylor, Dan Jones, and Patrick J. Biggs

Subjects

0301 basic medicine, Sucrose, Disaccharide, Disaccharides, chemistry.chemical_compound, Animal Products, RNA, Ribosomal, 16S, Medicine and Health Sciences, Food science, Phylogeny, Multidisciplinary, Organic Compounds, Microbiota, Eukaryota, food and beverages, Agriculture, Honey, Bees, Insects, Chemistry, Physical Sciences, behavior and behavior mechanisms, Medicine, Honey Bees, Research Article, Arthropoda, Science, 030106 microbiology, Carbohydrates, Biology, Acetobacteraceae, 03 medical and health sciences, Animals, Nectar, Mānuka honey, Sugar, Nutrition, Bacteria, Organic Chemistry, Gut Bacteria, fungi, Organisms, Chemical Compounds, Biology and Life Sciences, Fructose, Honey bee, Invertebrates, Hymenoptera, Diet, Gastrointestinal Tract, Lactobacillus, 030104 developmental biology, chemistry, Food, New Zealand

Abstract

Bacteria within the digestive tract of adult honey bees are likely to play a key role in the digestion of sugar-rich foods. However, the influence of diet on honey bee gut bacteria is not well understood. During periods of low floral abundance, beekeepers often supplement the natural sources of carbohydrate that honey bees collect, such as nectar, with various forms of carbohydrates such as sucrose (a disaccharide) and invert sugar (a mixture of the monosaccharides glucose and fructose). We compared the effect of these sugar supplements on the relative abundance of bacteria in the gut of bees by feeding bees from a single colony, two natural diets: mānuka honey, a monofloral honey with known antibacterial properties, and a hive diet; and artificial diets of invert sugar, sucrose solution, and sucrose solutions containing synthesised compounds associated with the antibacterial properties of mānuka honey. 16S ribosomal RNA (rRNA)-based sequencing showed that dietary regimes containing mānuka honey, sucrose and invert sugar did not alter the relative abundance of dominant core bacteria after 6 days of being fed these diets. However, sucrose-rich diets increased the relative abundances of three sub-dominant core bacteria, Rhizobiaceae, Acetobacteraceae, and Lactobacillus kunkeei, and decreased the relative abundance of Frischella perrara, all which significantly altered the bacterial composition. Acetogenic bacteria from the Rhizobiaceae and Acetobacteraceae families increased two- to five-fold when bees were fed sucrose. These results suggest that sucrose fuels the proliferation of specific low abundance primary sucrose-feeders, which metabolise sugars into monosaccharides, and then to acetate.

Published

2019

4. One dog’s waste is another dog’s wealth: A pilot study of fecal microbiota transplantation in dogs with acute hemorrhagic diarrhea syndrome

Author

Richard K. Burchell, Patrick C. Barko, Kristene Gedye, David A. Williams, Anne C. Midwinter, Arnon Gal, Patrick J. Biggs, and Paolo Pazzi

Subjects

Male, Prevotella, Pilot Projects, Vascular Medicine, Gastroenterology, Feces, South Africa, Clostridioides, Intestinal mucosa, RNA, Ribosomal, 16S, Medicine and Health Sciences, Medicine, Prospective Studies, Intestinal Mucosa, Mammals, Gastrointestinal tract, Multidisciplinary, biology, Eukaryota, Genomics, Fecal Microbiota Transplantation, Actinobacteria, Diarrhea, Medical Microbiology, Vertebrates, Female, Anatomy, medicine.symptom, Gastrointestinal Hemorrhage, Research Article, medicine.medical_specialty, Colon, Science, Firmicutes, Hemorrhage, Gastroenterology and Hepatology, Microbial Genomics, Microbiology, Fusobacteria, Dogs, Signs and Symptoms, Internal medicine, Proteobacteria, Genetics, Animals, Bacteria, Bacteroidetes, business.industry, Hemorrhagic diarrhea, Gut Bacteria, Organisms, Biology and Life Sciences, Fecal bacteriotherapy, Fatty Acids, Volatile, biology.organism_classification, Gastrointestinal Microbiome, Gastrointestinal Tract, Amniotes, Clostridium Infections, Microbiome, Clinical Medicine, business, Zoology, Digestive System, New Zealand

Abstract

Canine acute hemorrhagic diarrhea syndrome (AHDS) has been associated in some studies with Clostridioides perfringens overgrowth and toxin-mediated necrosis of the intestinal mucosa. We aimed to determine the effect of a single fecal microbiota transplantation (FMT) on clinical scores and fecal microbiomes of 1 and 7 dogs with AHDS from New Zealand and South Africa. We hypothesized that FMT would improve AHDS clinical scores and increase microbiota alpha-diversity and short-chain fatty acid (SCFA)-producing microbial communities’ abundances in dogs with AHDS after FMT. We sequenced the V3-V4 region of the 16S-rRNA gene in the feces of AHDS FMT-recipients and sham-treated control dogs, and their healthy donors at admission, discharge, and 30 days post-discharge. There were no significant differences in median AHDS clinical scores between FMT-recipients and sham-treated controls at admission or discharge (P = 0.22, P = 0.41). At admission, the Shannon diversity index (SDI) was lower in AHDS dogs than healthy donors (P = 0.002). The SDI did not change from admission to 30 days in sham-treated dogs yet increased in FMT-recipients from admission to discharge (P = 0.04) to levels not different than donors (P = 0.33) but significantly higher than sham-treated controls (P = 0.002). At 30 days, the SDI did not differ between FMT recipients, sham-treated controls, and donors (P = 0.88). Principal coordinate analysis of the Bray-Curtis index separated post-FMT and donor dogs from pre-FMT and sham-treated dogs (P = 0.009) because of increased SCFA-producing genera’s abundances after FMT. A single co-abundance subnetwork contained many of the same OTUs found to be differentially abundant in FMT-recipients, and the abundance of this module was increased in FMT-recipients at discharge and 30 days, compared to sham-treated controls. We conclude in this small pilot study FMT did not have any clinical benefit. A single FMT procedure has the potential to increase bacterial communities of SCFA-producing genera important for intestinal health up to 30 days post-FMT.

Published

2021

5. Sticky Genomes: Using NGS Evidence to Test Hybrid Speciation Hypotheses

Author

Mary Morgan-Richards, Patrick J. Biggs, Steven A. Trewick, and Simon F. K. Hills

Subjects

0106 biological sciences, 0301 basic medicine, Insecta, Genome, Insect, lcsh:Medicine, 01 natural sciences, Genome, Biochemistry, Database and Informatics Methods, Invertebrate Genomics, Cluster Analysis, lcsh:Science, Genetics, Multidisciplinary, Nucleotide Mapping, High-Throughput Nucleotide Sequencing, Genomics, Complementary DNA, Genomic Databases, Biological Evolution, Insects, Nucleic acids, Research Article, food.ingredient, Arthropoda, Forms of DNA, Acanthoxyla, Mycology, Biology, Research and Analysis Methods, 010603 evolutionary biology, Polymorphism, Single Nucleotide, DNA sequencing, 03 medical and health sciences, food, Animals, Fungal Genetics, Genetic variability, Molecular Biology Techniques, Molecular Biology, Fungal Genomics, Genetic diversity, Sequence Assembly Tools, lcsh:R, Gene Mapping, Organisms, Computational Biology, Biology and Life Sciences, DNA, Genome Analysis, Invertebrates, 030104 developmental biology, Biological Databases, Animal Genomics, Genetic Loci, Hybridization, Genetic, Hybrid speciation, lcsh:Q, human activities, Reference genome

Abstract

Hypotheses of hybrid origin are common. Here we use next generation sequencing to test a hybrid hypothesis for a non-model insect with a large genome. We compared a putative hybrid triploid stick insect species (Acanthoxyla geisovii) with its putative paternal diploid taxon (Clitarchus hookeri), a relationship that provides clear predictions for the relative genetic diversity within each genome. The parental taxon is expected to have comparatively low allelic diversity that is nested within the diversity of the hybrid daughter genome. The scale of genome sequencing required was conveniently achieved by extracting mRNA and sequencing cDNA to examine expressed allelic diversity. This allowed us to test hybrid-progenitor relationships among non-model organisms with large genomes and different ploidy levels. Examination of thousands of independent loci avoids potential problems produced by the silencing of parts of one or other of the parental genomes, a phenomenon sometimes associated with the process of stabilisation of a hybrid genome. Transcript assembles were assessed for evidence of paralogs and/or alternative splice variants before proceeding. Comparison of transcript assemblies was not an appropriate measure of genetic variability, but by mapping reads back to clusters derived from each species we determined levels of allelic diversity. We found greater cDNA sequence diversity among alleles in the putative hybrid species (Acanthoxyla geisovii) than the non-hybrid. The allelic diversity within the putative paternal species (Clitachus hookeri) nested within the hybrid-daughter genome, supports the current view of a hybrid-progenitor relationship for these stick insect species. Next generation sequencing technology provides opportunities for testing evolutionary hypotheses with non-model organisms, including, as here, genomes that are large due to polyploidy.

Published

2016

6. Biochar in Co-Contaminated Soil Manipulates Arsenic Solubility and Microbiological Community Structure, and Promotes Organochlorine Degradation

Author

Patrick J. Biggs, Austen R. D. Ganley, Christopher Anderson, Justin M. O'Sullivan, Samuel J. Gregory, Michael T. McManus, and Marta Camps-Arbestain

Subjects

Hexachlorocyclohexane, Amendment, lcsh:Medicine, complex mixtures, Arsenic, chemistry.chemical_compound, Biochar, Soil Pollutants, lcsh:Science, Soil Microbiology, Chryseobacterium, Multidisciplinary, Chemistry, Ecology, lcsh:R, Soil chemistry, Soil contamination, Biodegradation, Environmental, Solubility, Charcoal, Environmental chemistry, lcsh:Q, Lindane, Soil microbiology, Research Article

Abstract

We examined the effect of biochar on the water-soluble arsenic (As) concentration and the extent of organochlorine degradation in a co-contaminated historic sheep-dip soil during a 180-d glasshouse incubation experiment. Soil microbial activity, bacterial community and structure diversity were also investigated. Biochar made from willow feedstock (Salix sp) was pyrolysed at 350 or 550°C and added to soil at rates of 10 g kg-1 and 20 g kg-1 (representing 30 t ha-1 and 60 t ha-1). The isomers of hexachlorocyclohexane (HCH) alpha-HCH and gamma-HCH (lindane), underwent 10-fold and 4-fold reductions in concentration as a function of biochar treatment. Biochar also resulted in a significant reduction in soil DDT levels (P < 0.01), and increased the DDE:DDT ratio. Soil microbial activity was significantly increased (P < 0.01) under all biochar treatments after 60 days of treatment compared to the control. 16S amplicon sequencing revealed that biochar-amended soil contained more members of the Chryseobacterium, Flavobacterium, Dyadobacter and Pseudomonadaceae which are known bioremediators of hydrocarbons. We hypothesise that a recorded short-term reduction in the soluble As concentration due to biochar amendment allowed native soil microbial communities to overcome As-related stress. We propose that increased microbiological activity (dehydrogenase activity) due to biochar amendment was responsible for enhanced degradation of organochlorines in the soil. Biochar therefore partially overcame the co-contaminant effect of As, allowing for enhanced natural attenuation of organochlorines in soil.

Published

2015

7. Whole-Genome Comparison of Two Campylobacter jejuni Isolates of the Same Sequence Type Reveals Multiple Loci of Different Ancestral Lineage

Author

Philip E. Carter, Adrian L. Cookson, Thomas E. Besser, Grant S. Hotter, Errol Kwan, Vathsala Mohan, Patrick J. Biggs, Julie M. Collins-Emerson, Nigel P. French, and Paul Fearnhead

Subjects

Genome evolution, Evolutionary Processes, DNA recombination, Science, Gene prediction, Hypothetical protein, Biophysics, medicine.disease_cause, Biochemistry, Microbiology, Campylobacter jejuni, Genome, Molecular cell biology, Genetics, medicine, Gastrointestinal Infections, Homologous Recombination, Biology, Microbial Pathogens, Recombination, Genetic, Comparative genomics, Evolutionary Biology, Multidisciplinary, Population Biology, biology, Physics, Campylobacter, Computational Biology, DNA, Genomics, Genome project, Comparative Genomics, biology.organism_classification, Organismal Evolution, Nucleic acids, Infectious Diseases, Mutation, Microbial Evolution, Medicine, Genome, Bacterial, Population Genetics, Research Article

Abstract

Campylobacter jejuni ST-474 is the most important human enteric pathogen in New Zealand, and yet this genotype is rarely found elsewhere in the world. Insight into the evolution of this organism was gained by a whole genome comparison of two ST-474, flaA SVR-14 isolates and other available C. jejuni isolates and genomes. The two isolates were collected from different sources, human (H22082) and retail poultry (P110b), at the same time and from the same geographical location. Solexa sequencing of each isolate resulted in ~1.659 Mb (H22082) and ~1.656 Mb (P110b) of assembled sequences within 28 (H22082) and 29 (P110b) contigs. We analysed 1502 genes for which we had sequences within both ST-474 isolates and within at least one of 11 C. jejuni reference genomes. Although 94.5% of genes were identical between the two ST-474 isolates, we identified 83 genes that differed by at least one nucleotide, including 55 genes with non-synonymous substitutions. These covered 101 kb and contained 672 point differences. We inferred that 22 (3.3%) of these differences were due to mutation and 650 (96.7%) were imported via recombination. Our analysis estimated 38 recombinant breakpoints within these 83 genes, which correspond to recombination events affecting at least 19 loci regions and gives a tract length estimate of ~2 kb. This includes a ~12 kb region displaying non-homologous recombination in one of the ST-474 genomes, with the insertion of two genes, including ykgC, a putative oxidoreductase, and a conserved hypothetical protein of unknown function. Furthermore, our analysis indicates that the source of this recombined DNA is more likely to have come from C. jejuni strains that are more closely related to ST-474. This suggests that the rates of recombination and mutation are similar in order of magnitude, but that recombination has been much more important for generating divergence between the two ST-474 isolates.

Published

2011

8. Impact of systemic antimicrobial therapy on the faecal microbiome in symptomatic dairy cows.

Author

Rose M Collis, Patrick J Biggs, Sara A Burgess, Anne C Midwinter, Gale Brightwell, and Adrian L Cookson

Subjects

Medicine, Science

Abstract

Antimicrobial resistance is a global threat to human and animal health, with the misuse and overuse of antimicrobials suggested as the main drivers of resistance. Antimicrobial therapy can alter the bacterial community composition and the faecal resistome in cattle. Little is known about the impact of systemic antimicrobial therapy on the faecal microbiome in dairy cows in the presence of disease. Therefore, this study aimed to assess the impact of systemic antimicrobial therapy on the faecal microbiome in dairy cows in the pastoral farm environment, by analysing faecal samples from cattle impacted by several different clinically-defined conditions and corresponding antimicrobial treatments. Analysis at the individual animal level showed a decrease in bacterial diversity and richness during antimicrobial treatment but, in many cases, the microbiome diversity recovered post-treatment when the cow re-entered the milking herd. Perturbations in the microbiome composition and the ability of the microbiome to recover were specific at the individual animal level, highlighting that the animal is the main driver of variation. Other factors such as disease severity, the type and duration of antimicrobial treatment and changes in environmental factors may also impact the bovine faecal microbiome. AmpC-producing Escherichia coli were isolated from faeces collected during and post-treatment with ceftiofur from one cow while no third-generation cephalosporin resistant E. coli were isolated from the untreated cow samples. This isolation of genetically similar plasmid-mediated AmpC-producing E. coli has implications for the development and dissemination of antibiotic resistant bacteria and supports the reduction in the use of critically important antimicrobials.

Published

2024

9. One dog's waste is another dog's wealth: A pilot study of fecal microbiota transplantation in dogs with acute hemorrhagic diarrhea syndrome.

Author

Arnon Gal, Patrick C Barko, Patrick J Biggs, Kristene R Gedye, Anne C Midwinter, David A Williams, Richard K Burchell, and Paolo Pazzi

Subjects

Medicine, Science

Abstract

Canine acute hemorrhagic diarrhea syndrome (AHDS) has been associated in some studies with Clostridioides perfringens overgrowth and toxin-mediated necrosis of the intestinal mucosa. We aimed to determine the effect of a single fecal microbiota transplantation (FMT) on clinical scores and fecal microbiomes of 1 and 7 dogs with AHDS from New Zealand and South Africa. We hypothesized that FMT would improve AHDS clinical scores and increase microbiota alpha-diversity and short-chain fatty acid (SCFA)-producing microbial communities' abundances in dogs with AHDS after FMT. We sequenced the V3-V4 region of the 16S-rRNA gene in the feces of AHDS FMT-recipients and sham-treated control dogs, and their healthy donors at admission, discharge, and 30 days post-discharge. There were no significant differences in median AHDS clinical scores between FMT-recipients and sham-treated controls at admission or discharge (P = 0.22, P = 0.41). At admission, the Shannon diversity index (SDI) was lower in AHDS dogs than healthy donors (P = 0.002). The SDI did not change from admission to 30 days in sham-treated dogs yet increased in FMT-recipients from admission to discharge (P = 0.04) to levels not different than donors (P = 0.33) but significantly higher than sham-treated controls (P = 0.002). At 30 days, the SDI did not differ between FMT recipients, sham-treated controls, and donors (P = 0.88). Principal coordinate analysis of the Bray-Curtis index separated post-FMT and donor dogs from pre-FMT and sham-treated dogs (P = 0.009) because of increased SCFA-producing genera's abundances after FMT. A single co-abundance subnetwork contained many of the same OTUs found to be differentially abundant in FMT-recipients, and the abundance of this module was increased in FMT-recipients at discharge and 30 days, compared to sham-treated controls. We conclude in this small pilot study FMT did not have any clinical benefit. A single FMT procedure has the potential to increase bacterial communities of SCFA-producing genera important for intestinal health up to 30 days post-FMT.

Published

2021

10. Genomic epidemiology and carbon metabolism of Escherichia coli serogroup O145 reflect contrasting phylogenies.

Author

Rose M Collis, Patrick J Biggs, Anne C Midwinter, A Springer Browne, David A Wilkinson, Hamid Irshad, Nigel P French, Gale Brightwell, and Adrian L Cookson

Subjects

Medicine, Science

Abstract

Shiga toxin-producing Escherichia coli (STEC) are a leading cause of foodborne outbreaks of human disease, but they reside harmlessly as an asymptomatic commensal in the ruminant gut. STEC serogroup O145 are difficult to isolate as routine diagnostic methods are unable to distinguish non-O157 serogroups due to their heterogeneous metabolic characteristics, resulting in under-reporting which is likely to conceal their true prevalence. In light of these deficiencies, the purpose of this study was a twofold approach to investigate enhanced STEC O145 diagnostic culture-based methods: firstly, to use a genomic epidemiology approach to understand the genetic diversity and population structure of serogroup O145 at both a local (New Zealand) (n = 47) and global scale (n = 75) and, secondly, to identify metabolic characteristics that will help the development of a differential media for this serogroup. Analysis of a subset of E. coli serogroup O145 strains demonstrated considerable diversity in carbon utilisation, which varied in association with eae subtype and sequence type. Several carbon substrates, such as D-serine and D-malic acid, were utilised by the majority of serogroup O145 strains, which, when coupled with current molecular and culture-based methods, could aid in the identification of presumptive E. coli serogroup O145 isolates. These carbon substrates warrant subsequent testing with additional serogroup O145 strains and non-O145 strains. Serogroup O145 strains displayed extensive genetic heterogeneity that was correlated with sequence type and eae subtype, suggesting these genetic markers are good indicators for distinct E. coli phylogenetic lineages. Pangenome analysis identified a core of 3,036 genes and an open pangenome of >14,000 genes, which is consistent with the identification of distinct phylogenetic lineages. Overall, this study highlighted the phenotypic and genotypic heterogeneity within E. coli serogroup O145, suggesting that the development of a differential media targeting this serogroup will be challenging.

Published

2020

11. The effect of carbohydrate sources: Sucrose, invert sugar and components of mānuka honey, on core bacteria in the digestive tract of adult honey bees (Apis mellifera).

Author

Michelle A Taylor, Alastair W Robertson, Patrick J Biggs, Kate K Richards, Daniel F Jones, and Shanthi G Parkar

Subjects

Medicine, Science

Abstract

Bacteria within the digestive tract of adult honey bees are likely to play a key role in the digestion of sugar-rich foods. However, the influence of diet on honey bee gut bacteria is not well understood. During periods of low floral abundance, beekeepers often supplement the natural sources of carbohydrate that honey bees collect, such as nectar, with various forms of carbohydrates such as sucrose (a disaccharide) and invert sugar (a mixture of the monosaccharides glucose and fructose). We compared the effect of these sugar supplements on the relative abundance of bacteria in the gut of bees by feeding bees from a single colony, two natural diets: mānuka honey, a monofloral honey with known antibacterial properties, and a hive diet; and artificial diets of invert sugar, sucrose solution, and sucrose solutions containing synthesised compounds associated with the antibacterial properties of mānuka honey. 16S ribosomal RNA (rRNA)-based sequencing showed that dietary regimes containing mānuka honey, sucrose and invert sugar did not alter the relative abundance of dominant core bacteria after 6 days of being fed these diets. However, sucrose-rich diets increased the relative abundances of three sub-dominant core bacteria, Rhizobiaceae, Acetobacteraceae, and Lactobacillus kunkeei, and decreased the relative abundance of Frischella perrara, all which significantly altered the bacterial composition. Acetogenic bacteria from the Rhizobiaceae and Acetobacteraceae families increased two- to five-fold when bees were fed sucrose. These results suggest that sucrose fuels the proliferation of specific low abundance primary sucrose-feeders, which metabolise sugars into monosaccharides, and then to acetate.

Published

2019

12. Biochar in co-contaminated soil manipulates arsenic solubility and microbiological community structure, and promotes organochlorine degradation.

Author

Samuel J Gregory, Christopher W N Anderson, Marta Camps-Arbestain, Patrick J Biggs, Austen R D Ganley, Justin M O'Sullivan, and Michael T McManus

Subjects

Medicine, Science

Abstract

We examined the effect of biochar on the water-soluble arsenic (As) concentration and the extent of organochlorine degradation in a co-contaminated historic sheep-dip soil during a 180-d glasshouse incubation experiment. Soil microbial activity, bacterial community and structure diversity were also investigated. Biochar made from willow feedstock (Salix sp) was pyrolysed at 350 or 550°C and added to soil at rates of 10 g kg-1 and 20 g kg-1 (representing 30 t ha-1 and 60 t ha-1). The isomers of hexachlorocyclohexane (HCH) alpha-HCH and gamma-HCH (lindane), underwent 10-fold and 4-fold reductions in concentration as a function of biochar treatment. Biochar also resulted in a significant reduction in soil DDT levels (P < 0.01), and increased the DDE:DDT ratio. Soil microbial activity was significantly increased (P < 0.01) under all biochar treatments after 60 days of treatment compared to the control. 16S amplicon sequencing revealed that biochar-amended soil contained more members of the Chryseobacterium, Flavobacterium, Dyadobacter and Pseudomonadaceae which are known bioremediators of hydrocarbons. We hypothesise that a recorded short-term reduction in the soluble As concentration due to biochar amendment allowed native soil microbial communities to overcome As-related stress. We propose that increased microbiological activity (dehydrogenase activity) due to biochar amendment was responsible for enhanced degradation of organochlorines in the soil. Biochar therefore partially overcame the co-contaminant effect of As, allowing for enhanced natural attenuation of organochlorines in soil.

Published

2015

13. Whole-genome comparison of two Campylobacter jejuni isolates of the same sequence type reveals multiple loci of different ancestral lineage.

Author

Patrick J Biggs, Paul Fearnhead, Grant Hotter, Vathsala Mohan, Julie Collins-Emerson, Errol Kwan, Thomas E Besser, Adrian Cookson, Philip E Carter, and Nigel P French

Subjects

Medicine, Science

Abstract

Campylobacter jejuni ST-474 is the most important human enteric pathogen in New Zealand, and yet this genotype is rarely found elsewhere in the world. Insight into the evolution of this organism was gained by a whole genome comparison of two ST-474, flaA SVR-14 isolates and other available C. jejuni isolates and genomes. The two isolates were collected from different sources, human (H22082) and retail poultry (P110b), at the same time and from the same geographical location. Solexa sequencing of each isolate resulted in ~1.659 Mb (H22082) and ~1.656 Mb (P110b) of assembled sequences within 28 (H22082) and 29 (P110b) contigs. We analysed 1502 genes for which we had sequences within both ST-474 isolates and within at least one of 11 C. jejuni reference genomes. Although 94.5% of genes were identical between the two ST-474 isolates, we identified 83 genes that differed by at least one nucleotide, including 55 genes with non-synonymous substitutions. These covered 101 kb and contained 672 point differences. We inferred that 22 (3.3%) of these differences were due to mutation and 650 (96.7%) were imported via recombination. Our analysis estimated 38 recombinant breakpoints within these 83 genes, which correspond to recombination events affecting at least 19 loci regions and gives a tract length estimate of ~2 kb. This includes a ~12 kb region displaying non-homologous recombination in one of the ST-474 genomes, with the insertion of two genes, including ykgC, a putative oxidoreductase, and a conserved hypothetical protein of unknown function. Furthermore, our analysis indicates that the source of this recombined DNA is more likely to have come from C. jejuni strains that are more closely related to ST-474. This suggests that the rates of recombination and mutation are similar in order of magnitude, but that recombination has been much more important for generating divergence between the two ST-474 isolates.

Published

2011

14. Whole-genome comparison of two Campylobacter jejuni isolates of the same sequence type reveals multiple loci of different ancestral lineage.

Author

Patrick J Biggs, Paul Fearnhead, Grant Hotter, Vathsala Mohan, Julie Collins-Emerson, Errol Kwan, Thomas E Besser, Adrian Cookson, Philip E Carter, and Nigel P French