What is he best known for?
The fields of study he is best known for:
His main research concerns Escherichia coli, Genetics, Microbiology, Phylogenetics and Ecology.
Particularly relevant to Colicin is his body of work in Escherichia coli.
His studies in Phylogenetic tree, Typing, Multilocus sequence typing, Genome and Plasmid are all subfields of Genetics research.
His study looks at the relationship between Microbiology and fields such as Virulence, as well as how they intersect with chemical problems.
His study brings together the fields of Escherichia and Phylogenetics.
His Ecology study combines topics in areas such as Enteric bacteria and Pathogenicity.
His most cited work include:
- The Clermont Escherichia coli phylo‐typing method revisited: improvement of specificity and detection of new phylo‐groups (776 citations)
- Processes influencing the distribution of parasite numbers within host populations with special emphasis on parasite-induced host mortalities (582 citations)
- The ecological role of bacteriocins in bacterial competition (287 citations)
What are the main themes of his work throughout his whole career to date?
Escherichia coli, Microbiology, Genetics, Host and Ecology are his primary areas of study.
His study in Escherichia coli is interdisciplinary in nature, drawing from both Phylogenetics, Multilocus sequence typing, Virulence and Phylogenetic tree.
His study focuses on the intersection of Microbiology and fields such as Enterobacteriaceae with connections in the field of Bacteria.
His Genetics research focuses on Population genetics and how it connects with Genetic diversity.
His Host research is multidisciplinary, incorporating perspectives in Abundance, Strain, Salmonella enterica and Habitat.
David M. Gordon interconnects Zoology and Genetic structure in the investigation of issues within Ecology.
He most often published in these fields:
- Escherichia coli (60.00%)
- Microbiology (44.76%)
- Genetics (37.14%)
What were the highlights of his more recent work (between 2015-2021)?
- Escherichia coli (60.00%)
- Microbiology (44.76%)
- Phylogenetic tree (17.14%)
In recent papers he was focusing on the following fields of study:
His primary areas of study are Escherichia coli, Microbiology, Phylogenetic tree, Virulence and Phylogenetics.
David M. Gordon is exploring Escherichia coli as part of his Genetics and Gene and Escherichia coli studies.
His biological study spans a wide range of topics, including Sequence types and INVASIVE ESCHERICHIA COLI.
His research investigates the connection with Phylogenetic tree and areas like Genetic diversity which intersect with concerns in Repetitive Element, Veterinary medicine and Antimicrobial.
His biological study deals with issues like Antibiotic resistance, which deal with fields such as Drug resistance, Feces and Human pathogen.
The Horizontal gene transfer research David M. Gordon does as part of his general Phylogenetics study is frequently linked to other disciplines of science, such as Strain, therefore creating a link between diverse domains of science.
Between 2015 and 2021, his most popular works were:
- Comparative genomics of Crohn's disease-associated adherent-invasive Escherichia coli (57 citations)
- Characterization and rapid identification of phylogroup G in Escherichia coli, a lineage with high virulence and antibiotic resistance potential. (38 citations)
- Phylogenetic diversity, antimicrobial susceptibility and virulence characteristics of phylogroup F Escherichia coli in Australia. (31 citations)
In his most recent research, the most cited papers focused on:
The scientist’s investigation covers issues in Escherichia coli, Virulence, Phylogenetics, Microbiology and Cephalosporin.
His Escherichia coli research entails a greater understanding of Gene.
Virulence is the subject of his research, which falls under Genetics.
While working in this field, he studies both Genetics and Interleukin 10.
His Phylogenetics study integrates concerns from other disciplines, such as Microbiome, Ecology, Bacteria and Mobile genetic elements.
Microbiology is closely attributed to Plasmid in his study.
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