Literature DB >> 27863902

Prediction and Prevention of Parasitic Diseases Using a Landscape Genomics Framework.

Philipp Schwabl1, Martin S Llewellyn2, Erin L Landguth3, Björn Andersson4, Uriel Kitron5, Jaime A Costales6, Sofía Ocaña6, Mario J Grijalva7.   

Abstract

Substantial heterogeneity exists in the dispersal, distribution and transmission of parasitic species. Understanding and predicting how such features are governed by the ecological variation of landscape they inhabit is the central goal of spatial epidemiology. Genetic data can further inform functional connectivity among parasite, host and vector populations in a landscape. Gene flow correlates with the spread of epidemiologically relevant phenotypes among parasite and vector populations (e.g., virulence, drug and pesticide resistance), as well as invasion and re-invasion risk where parasite transmission is absent due to current or past intervention measures. However, the formal integration of spatial and genetic data ('landscape genetics') is scarcely ever applied to parasites. Here, we discuss the specific challenges and practical prospects for the use of landscape genetics and genomics to understand the biology and control of parasitic disease and present a practical framework for doing so.
Copyright © 2016 Elsevier Ltd. All rights reserved.

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Year:  2016        PMID: 27863902      PMCID: PMC5376512          DOI: 10.1016/j.pt.2016.10.008

Source DB:  PubMed          Journal:  Trends Parasitol        ISSN: 1471-4922


  80 in total

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2.  Likelihood-based inferences under isolation by distance: two-dimensional habitats and confidence intervals.

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4.  Navigating the pitfalls and promise of landscape genetics.

Authors:  Jonathan L Richardson; Steven P Brady; Ian J Wang; Stephen F Spear
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Review 5.  Leishmaniasis: complexity at the host-pathogen interface.

Authors:  Paul Kaye; Phillip Scott
Journal:  Nat Rev Microbiol       Date:  2011-07-11       Impact factor: 60.633

6.  Developmental time and mortality of larvae of Triatoma infestans infected with Trypanosoma cruzi.

Authors:  G A Schaub
Journal:  Trans R Soc Trop Med Hyg       Date:  1988       Impact factor: 2.184

7.  High resolution of human evolutionary trees with polymorphic microsatellites.

Authors:  A M Bowcock; A Ruiz-Linares; J Tomfohrde; E Minch; J R Kidd; L L Cavalli-Sforza
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8.  Testing for associations between loci and environmental gradients using latent factor mixed models.

Authors:  Eric Frichot; Sean D Schoville; Guillaume Bouchard; Olivier François
Journal:  Mol Biol Evol       Date:  2013-03-29       Impact factor: 16.240

9.  Ecological host fitting of Trypanosoma cruzi TcI in Bolivia: mosaic population structure, hybridization and a role for humans in Andean parasite dispersal.

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10.  Taxonomy, diversity, temporal and geographical distribution of Cutaneous Leishmaniasis in Colombia: A retrospective study.

Authors:  Juan David Ramírez; Carolina Hernández; Cielo M León; Martha S Ayala; Carolina Flórez; Camila González
Journal:  Sci Rep       Date:  2016-06-22       Impact factor: 4.379
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Journal:  Evolution       Date:  2020-06-03       Impact factor: 3.694

2.  Genome-wide SNPs reveal the drivers of gene flow in an urban population of the Asian Tiger Mosquito, Aedes albopictus.

Authors:  Thomas L Schmidt; Gordana Rašić; Dongjing Zhang; Xiaoying Zheng; Zhiyong Xi; Ary A Hoffmann
Journal:  PLoS Negl Trop Dis       Date:  2017-10-18

Review 3.  Towards a more healthy conservation paradigm: integrating disease and molecular ecology to aid biological conservation.

Authors:  Pooja Gupta; V V Robin; Guha Dharmarajan
Journal:  J Genet       Date:  2020       Impact factor: 1.166

Review 4.  Genomic Epidemiology in Filarial Nematodes: Transforming the Basis for Elimination Program Decisions.

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Journal:  Front Genet       Date:  2020-01-09       Impact factor: 4.599

5.  Host relatedness and landscape connectivity shape pathogen spread in the puma, a large secretive carnivore.

Authors:  Nicholas M Fountain-Jones; Simona Kraberger; Roderick B Gagne; Daryl R Trumbo; Patricia E Salerno; W Chris Funk; Kevin Crooks; Roman Biek; Mathew Alldredge; Ken Logan; Guy Baele; Simon Dellicour; Holly B Ernest; Sue VandeWoude; Scott Carver; Meggan E Craft
Journal:  Commun Biol       Date:  2021-01-04

6.  Population genomics and geographic dispersal in Chagas disease vectors: Landscape drivers and evidence of possible adaptation to the domestic setting.

Authors:  Luis E Hernandez-Castro; Anita G Villacís; Arne Jacobs; Bachar Cheaib; Casey C Day; Sofía Ocaña-Mayorga; Cesar A Yumiseva; Antonella Bacigalupo; Björn Andersson; Louise Matthews; Erin L Landguth; Jaime A Costales; Martin S Llewellyn; Mario J Grijalva
Journal:  PLoS Genet       Date:  2022-02-04       Impact factor: 5.917

7.  2b-RAD genotyping for population genomic studies of Chagas disease vectors: Rhodnius ecuadoriensis in Ecuador.

Authors:  Luis E Hernandez-Castro; Marta Paterno; Anita G Villacís; Björn Andersson; Jaime A Costales; Michele De Noia; Sofía Ocaña-Mayorga; Cesar A Yumiseva; Mario J Grijalva; Martin S Llewellyn
Journal:  PLoS Negl Trop Dis       Date:  2017-07-19

Review 8.  Pathogens in space: Advancing understanding of pathogen dynamics and disease ecology through landscape genetics.

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  8 in total

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