Doyle Group
Helminth GenomicsĀ
Genomics increasingly plays a critical role in understanding the biology of parasitic worms. At the foundation of many wet and dry lab studies is the reference genome, which can provide great insights into the form and function of parasites and the evolutionary processes that make them successful. We have led and contributed to generating high-quality reference genomes for several parasitic worm species, supporting ongoing curation of genome annotations and resources that are shared openly for our work and the parasitology community. We have led the generation of rich datasets to understand parasite biology, including developmental transcriptional timecourses and are currently working on single-nuclei RNAseq and spatial atlases to both better understand the developmental biology of these parasites and reveal greater knowledge of the expression characteristics of many genes of unknown function.
A strong theme in the group is focused on understanding parasite responses to drug treatment. We use natural host-parasite systems such as Haemonchus contortus in sheep and field isolates of parasites such as Teladorsagia circumcincta and Dirofilaria immitis collected from around the world to map genetic variation associated with drug resistance to the vital drug classes used to control parasitic worms. In humans, we have contributed to the understanding of the genetics of praziquantel resistance in Schistosoma mansoni and are currently focused on understanding treatment response variation in large cohorts of soil-transmitted parasites collected as part of clinical trials to evaluate new approaches for control.
The ability to accurately and sensitively diagnose parasite infections is at the forefront of efforts to control parasites as a public health problem and their elimination. We have surveyed soil-transmitted helminth diversity to understand the impact of genetic variation on the success of molecular diagnostics and are currently developing scaleable and portable amplicon sequencing approaches to detect mixed parasite infections. We aim to use these tools to measure the impact of treatment approaches and interactions with other variables, such as environmental and health outcomes, on parasite community diversity.
Collectively, the work of the Helminth Genomics team aims to build foundational knowledge of parasites that infect humans and animals and to use this knowledge to improve the control of parasites as a human and animal health burden worldwide.
Core team
Dr Sarah K Buddenborg
Postdoctoral Fellow
Dr Javier Gandasegui
Staff Scientist