Next-generation biological control: The need for integrating genetics and genomics

Kelley Leung; Erica Ras; Kim B. Ferguson; Simone Ariens; Dirk Babendreier; Piter Bijma; Kostas Bourtzis; Jacques Brodeur; Margreet A. Bruins; Alejandra Centurion; Sophie R. Chattington; Milena Chinchilla-Ramirez; Marcel Dicke; Nina E. Fatouros; Joel Gonzalez-Cabrera; Thomas V. M. Groot; Tim Haye; Markus Knapp; Panagiota Koskinioti; Sophie Le Hesran; Manolis Lyrakis; Angeliki Paspati; Meritxell Perez-Hedo; Wouter N. Plouvier; Christian Schloetterer; Judith M. Stahl; Andra Thiel; Alberto Urbaneja; Louis van de Zande; Eveline C. Verhulst; Louise E. M. Vet; Sander Visser; John H. Werren; Shuwen Xia; Bas J. Zwaan; Sara Magalhaes; Leo W. Beukeboom; Bart A. Pannebakker

doi:10.1111/brv.12641

Next-generation biological control: The need for integrating genetics and genomics

Kelley Leung^*, Erica Ras, Kim B. Ferguson, Simone Ariens, Dirk Babendreier, Piter Bijma, Kostas Bourtzis, Jacques Brodeur, Margreet A. Bruins, Alejandra Centurion, Sophie R. Chattington, Milena Chinchilla-Ramirez, Marcel Dicke, Nina E. Fatouros, Joel Gonzalez-Cabrera, Thomas V. M. Groot, Tim Haye, Markus Knapp, Panagiota Koskinioti, Sophie Le HesranManolis Lyrakis, Angeliki Paspati, Meritxell Perez-Hedo, Wouter N. Plouvier, Christian Schloetterer, Judith M. Stahl, Andra Thiel, Alberto Urbaneja, Louis van de Zande, Eveline C. Verhulst, Louise E. M. Vet, Sander Visser, John H. Werren, Shuwen Xia, Bas J. Zwaan, Sara Magalhaes, Leo W. Beukeboom, Bart A. Pannebakker

^*Bijbehorende auteur voor dit werk

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Biological control is widely successful at controlling pests, but effective biocontrol agents are now more difficult to import from countries of origin due to more restrictive international trade laws (the Nagoya Protocol). Coupled with increasing demand, the efficacy of existing and new biocontrol agents needs to be improved with genetic and genomic approaches. Although they have been underutilised in the past, application of genetic and genomic techniques is becoming more feasible from both technological and economic perspectives. We review current methods and provide a framework for using them. First, it is necessary to identify which biocontrol trait to select and in what direction. Next, the genes or markers linked to these traits need be determined, including how to implement this information into a selective breeding program. Choosing a trait can be assisted by modelling to account for the proper agro-ecological context, and by knowing which traits have sufficiently high heritability values. We provide guidelines for designing genomic strategies in biocontrol programs, which depend on the organism, budget, and desired objective. Genomic approaches start with genome sequencing and assembly. We provide a guide for deciding the most successful sequencing strategy for biocontrol agents. Gene discovery involves quantitative trait loci analyses, transcriptomic and proteomic studies, and gene editing. Improving biocontrol practices includes marker-assisted selection, genomic selection and microbiome manipulation of biocontrol agents, and monitoring for genetic variation during rearing and post-release. We conclude by identifying the most promising applications of genetic and genomic methods to improve biological control efficacy.

Originele taal-2	English
Pagina's (van-tot)	1838-1854
Aantal pagina's	17
Tijdschrift	Biological Reviews
Volume	95
Nummer van het tijdschrift	6
Vroegere onlinedatum	14-aug.-2020
DOI's	https://doi.org/10.1111/brv.12641
Status	Published - 1-dec.-2020

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10.1111/brv.12641Licentie: CC BY

Next‐generation biological control: the need for integrating genetics and genomicsFinal publisher's version, 3,07 MBLicentie: CC BY

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Leung, K., Ras, E., Ferguson, K. B., Ariens, S., Babendreier, D., Bijma, P., Bourtzis, K., Brodeur, J., Bruins, M. A., Centurion, A., Chattington, S. R., Chinchilla-Ramirez, M., Dicke, M., Fatouros, N. E., Gonzalez-Cabrera, J., Groot, T. V. M., Haye, T., Knapp, M., Koskinioti, P., ... Pannebakker, B. A. (2020). Next-generation biological control: The need for integrating genetics and genomics. Biological Reviews, 95(6), 1838-1854. https://doi.org/10.1111/brv.12641

@article{3646f6611c91474b966f3c383a977e14,

title = "Next-generation biological control: The need for integrating genetics and genomics",

abstract = "Biological control is widely successful at controlling pests, but effective biocontrol agents are now more difficult to import from countries of origin due to more restrictive international trade laws (the Nagoya Protocol). Coupled with increasing demand, the efficacy of existing and new biocontrol agents needs to be improved with genetic and genomic approaches. Although they have been underutilised in the past, application of genetic and genomic techniques is becoming more feasible from both technological and economic perspectives. We review current methods and provide a framework for using them. First, it is necessary to identify which biocontrol trait to select and in what direction. Next, the genes or markers linked to these traits need be determined, including how to implement this information into a selective breeding program. Choosing a trait can be assisted by modelling to account for the proper agro-ecological context, and by knowing which traits have sufficiently high heritability values. We provide guidelines for designing genomic strategies in biocontrol programs, which depend on the organism, budget, and desired objective. Genomic approaches start with genome sequencing and assembly. We provide a guide for deciding the most successful sequencing strategy for biocontrol agents. Gene discovery involves quantitative trait loci analyses, transcriptomic and proteomic studies, and gene editing. Improving biocontrol practices includes marker-assisted selection, genomic selection and microbiome manipulation of biocontrol agents, and monitoring for genetic variation during rearing and post-release. We conclude by identifying the most promising applications of genetic and genomic methods to improve biological control efficacy.",

keywords = "artificial selection, biological control, genetics, genome assembly, genomics, insect breeding, microbiome, modelling, QUANTITATIVE TRAIT LOCI, LIFE-HISTORY TRAITS, AXYRIDIS COLEOPTERA-COCCINELLIDAE, GUT CONTENT-ANALYSIS, PARASITOID WASP, CYTOPLASMIC INCOMPATIBILITY, ARTIFICIAL SELECTION, NASONIA-VITRIPENNIS, SEX DETERMINATION, CONTROL AGENTS",

author = "Kelley Leung and Erica Ras and Ferguson, {Kim B.} and Simone Ariens and Dirk Babendreier and Piter Bijma and Kostas Bourtzis and Jacques Brodeur and Bruins, {Margreet A.} and Alejandra Centurion and Chattington, {Sophie R.} and Milena Chinchilla-Ramirez and Marcel Dicke and Fatouros, {Nina E.} and Joel Gonzalez-Cabrera and Groot, {Thomas V. M.} and Tim Haye and Markus Knapp and Panagiota Koskinioti and {Le Hesran}, Sophie and Manolis Lyrakis and Angeliki Paspati and Meritxell Perez-Hedo and Plouvier, {Wouter N.} and Christian Schloetterer and Stahl, {Judith M.} and Andra Thiel and Alberto Urbaneja and {van de Zande}, Louis and Verhulst, {Eveline C.} and Vet, {Louise E. M.} and Sander Visser and Werren, {John H.} and Shuwen Xia and Zwaan, {Bas J.} and Sara Magalhaes and Beukeboom, {Leo W.} and Pannebakker, {Bart A.}",

year = "2020",

month = dec,

day = "1",

doi = "10.1111/brv.12641",

language = "English",

volume = "95",

pages = "1838--1854",

journal = "Biological Reviews",

issn = "0006-3231",

publisher = "Wiley",

number = "6",

}

Leung, K, Ras, E, Ferguson, KB, Ariens, S, Babendreier, D, Bijma, P, Bourtzis, K, Brodeur, J, Bruins, MA, Centurion, A, Chattington, SR, Chinchilla-Ramirez, M, Dicke, M, Fatouros, NE, Gonzalez-Cabrera, J, Groot, TVM, Haye, T, Knapp, M, Koskinioti, P, Le Hesran, S, Lyrakis, M, Paspati, A, Perez-Hedo, M, Plouvier, WN, Schloetterer, C, Stahl, JM, Thiel, A, Urbaneja, A, van de Zande, L, Verhulst, EC, Vet, LEM, Visser, S, Werren, JH, Xia, S, Zwaan, BJ, Magalhaes, S, Beukeboom, LW & Pannebakker, BA 2020, 'Next-generation biological control: The need for integrating genetics and genomics', Biological Reviews, vol. 95, nr. 6, blz. 1838-1854. https://doi.org/10.1111/brv.12641

TY - JOUR

T1 - Next-generation biological control

T2 - The need for integrating genetics and genomics

AU - Leung, Kelley

AU - Ras, Erica

AU - Ferguson, Kim B.

AU - Ariens, Simone

AU - Babendreier, Dirk

AU - Bijma, Piter

AU - Bourtzis, Kostas

AU - Brodeur, Jacques

AU - Bruins, Margreet A.

AU - Centurion, Alejandra

AU - Chattington, Sophie R.

AU - Chinchilla-Ramirez, Milena

AU - Dicke, Marcel

AU - Fatouros, Nina E.

AU - Gonzalez-Cabrera, Joel

AU - Groot, Thomas V. M.

AU - Haye, Tim

AU - Knapp, Markus

AU - Koskinioti, Panagiota

AU - Le Hesran, Sophie

AU - Lyrakis, Manolis

AU - Paspati, Angeliki

AU - Perez-Hedo, Meritxell

AU - Plouvier, Wouter N.

AU - Schloetterer, Christian

AU - Stahl, Judith M.

AU - Thiel, Andra

AU - Urbaneja, Alberto

AU - van de Zande, Louis

AU - Verhulst, Eveline C.

AU - Vet, Louise E. M.

AU - Visser, Sander

AU - Werren, John H.

AU - Xia, Shuwen

AU - Zwaan, Bas J.

AU - Magalhaes, Sara

AU - Beukeboom, Leo W.

AU - Pannebakker, Bart A.

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Biological control is widely successful at controlling pests, but effective biocontrol agents are now more difficult to import from countries of origin due to more restrictive international trade laws (the Nagoya Protocol). Coupled with increasing demand, the efficacy of existing and new biocontrol agents needs to be improved with genetic and genomic approaches. Although they have been underutilised in the past, application of genetic and genomic techniques is becoming more feasible from both technological and economic perspectives. We review current methods and provide a framework for using them. First, it is necessary to identify which biocontrol trait to select and in what direction. Next, the genes or markers linked to these traits need be determined, including how to implement this information into a selective breeding program. Choosing a trait can be assisted by modelling to account for the proper agro-ecological context, and by knowing which traits have sufficiently high heritability values. We provide guidelines for designing genomic strategies in biocontrol programs, which depend on the organism, budget, and desired objective. Genomic approaches start with genome sequencing and assembly. We provide a guide for deciding the most successful sequencing strategy for biocontrol agents. Gene discovery involves quantitative trait loci analyses, transcriptomic and proteomic studies, and gene editing. Improving biocontrol practices includes marker-assisted selection, genomic selection and microbiome manipulation of biocontrol agents, and monitoring for genetic variation during rearing and post-release. We conclude by identifying the most promising applications of genetic and genomic methods to improve biological control efficacy.

AB - Biological control is widely successful at controlling pests, but effective biocontrol agents are now more difficult to import from countries of origin due to more restrictive international trade laws (the Nagoya Protocol). Coupled with increasing demand, the efficacy of existing and new biocontrol agents needs to be improved with genetic and genomic approaches. Although they have been underutilised in the past, application of genetic and genomic techniques is becoming more feasible from both technological and economic perspectives. We review current methods and provide a framework for using them. First, it is necessary to identify which biocontrol trait to select and in what direction. Next, the genes or markers linked to these traits need be determined, including how to implement this information into a selective breeding program. Choosing a trait can be assisted by modelling to account for the proper agro-ecological context, and by knowing which traits have sufficiently high heritability values. We provide guidelines for designing genomic strategies in biocontrol programs, which depend on the organism, budget, and desired objective. Genomic approaches start with genome sequencing and assembly. We provide a guide for deciding the most successful sequencing strategy for biocontrol agents. Gene discovery involves quantitative trait loci analyses, transcriptomic and proteomic studies, and gene editing. Improving biocontrol practices includes marker-assisted selection, genomic selection and microbiome manipulation of biocontrol agents, and monitoring for genetic variation during rearing and post-release. We conclude by identifying the most promising applications of genetic and genomic methods to improve biological control efficacy.

KW - artificial selection

KW - biological control

KW - genetics

KW - genome assembly

KW - genomics

KW - insect breeding

KW - microbiome

KW - modelling

KW - QUANTITATIVE TRAIT LOCI

KW - LIFE-HISTORY TRAITS

KW - AXYRIDIS COLEOPTERA-COCCINELLIDAE

KW - GUT CONTENT-ANALYSIS

KW - PARASITOID WASP

KW - CYTOPLASMIC INCOMPATIBILITY

KW - ARTIFICIAL SELECTION

KW - NASONIA-VITRIPENNIS

KW - SEX DETERMINATION

KW - CONTROL AGENTS

U2 - 10.1111/brv.12641

DO - 10.1111/brv.12641

M3 - Article

SN - 0006-3231

VL - 95

SP - 1838

EP - 1854

JO - Biological Reviews

JF - Biological Reviews

IS - 6

ER -