Parasitic Nematodes - from Genomes to Control

Overview

Journal Vet Parasitol

Publisher Elsevier

Specialties Parasitology
Veterinary Medicine

Date 2007 Jun 15

PMID 17560034

Citations 27

Authors

Makedonka Mitreva

Dante S Zarlenga

James P McCarter

Douglas P Jasmer

Affiliations

Soon will be listed here.

Abstract

The diseases caused by parasitic nematodes in domestic and companion animals are major factors that decrease production and quality of the agricultural products. Methods available for the control of the parasitic nematode infections are mainly based on chemical treatment, non-chemical management practices, immune modulation and biological control. However, even with integrated pest management that frequently combines these approaches, the effective and long-lasting control strategies are hampered by the persistent exposure of host animals to environmental stages of parasites, the incomplete protective response of the host and acquisition of anthelmintic resistance by an increasing number of parasitic nematodes. Therefore, the challenges to improve control of parasitic nematode infections are multi-fold and no single category of information will meet them all. However, new information, such as nematode genomics, functional genomics and proteomics, can strengthen basic and applied biological research aimed to develop improvements. In this review we will, summarize existing control strategies of nematode infections and discuss ongoing developments in nematode genomics. Genomics approaches offer a growing and fundamental base of information, which when coupled with downstream functional genomics and proteomics can accelerate progress towards developing more efficient and sustainable control programs.

Citing Articles

Recent Advances in Life History Transition with Nematode-Trapping Fungus and Its Application in Sustainable Agriculture.

Wang D, Ma N, Rao W, Zhang Y Pathogens. 2023; 12(3).

PMID: 36986289 PMC: 10056792. DOI: 10.3390/pathogens12030367.

Advances in Omic Studies Drive Discoveries in the Biology of Anisakid Nematodes.

DAmelio S, Lombardo F, Pizzarelli A, Bellini I, Cavallero S Genes (Basel). 2020; 11(7).

PMID: 32679891 PMC: 7397233. DOI: 10.3390/genes11070801.

Recent advances in functional genomics for parasitic nematodes of mammals.

Castelletto M, Gang S, Hallem E J Exp Biol. 2020; 223(Pt Suppl 1).

PMID: 32034038 PMC: 7790190. DOI: 10.1242/jeb.206482.

The role of carbon dioxide in nematode behaviour and physiology.

Banerjee N, Hallem E Parasitology. 2019; 147(8):841-854.

PMID: 31601281 PMC: 7148182. DOI: 10.1017/S0031182019001422.

Characterization of parasite-specific indels and their proposed relevance for selective anthelminthic drug targeting.

Wang Q, Heizer E, Rosa B, Wildman S, Janetka J, Mitreva M Infect Genet Evol. 2016; 39:201-211.

PMID: 26829384 PMC: 4789095. DOI: 10.1016/j.meegid.2016.01.025.