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Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti

BACKGROUND: Aedes aegypti is the primary vector of arthropod-borne viruses and one of the most widespread and invasive mosquito species. Due to the lack of efficient specific drugs or vaccination strategies, vector population control methods, such as the sterile insect technique, are receiving renew...

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Autores principales: Augustinos, Antonios A., Misbah-ul-Haq, Muhammad, Carvalho, Danilo O., de la Fuente, Lucia Duran, Koskinioti, Panagiota, Bourtzis, Kostas
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7747368/
https://www.ncbi.nlm.nih.gov/pubmed/33339503
http://dx.doi.org/10.1186/s12863-020-00949-w
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author Augustinos, Antonios A.
Misbah-ul-Haq, Muhammad
Carvalho, Danilo O.
de la Fuente, Lucia Duran
Koskinioti, Panagiota
Bourtzis, Kostas
author_facet Augustinos, Antonios A.
Misbah-ul-Haq, Muhammad
Carvalho, Danilo O.
de la Fuente, Lucia Duran
Koskinioti, Panagiota
Bourtzis, Kostas
author_sort Augustinos, Antonios A.
collection PubMed
description BACKGROUND: Aedes aegypti is the primary vector of arthropod-borne viruses and one of the most widespread and invasive mosquito species. Due to the lack of efficient specific drugs or vaccination strategies, vector population control methods, such as the sterile insect technique, are receiving renewed interest. However, availability of a reliable genetic sexing strategy is crucial, since there is almost zero tolerance for accidentally released females. Development of genetic sexing strains through classical genetics is hindered by genetic recombination that is not suppressed in males as is the case in many Diptera. Isolation of naturally-occurring or irradiation-induced inversions can enhance the genetic stability of genetic sexing strains developed through genetically linking desirable phenotypes with the male determining region. RESULTS: For the induction and isolation of inversions through irradiation, 200 male pupae of the ‘BRA’ wild type strain were irradiated at 30 Gy and 100 isomale lines were set up by crossing with homozygous ‘red-eye’ (re) mutant females. Recombination between re and the M locus and the white (w) gene (causing a recessive white eye phenotype when mutated) and the M locus was tested in 45 and 32 lines, respectively. One inversion (Inv35) reduced recombination between both re and the M locus, and wand the M locus, consistent with the presence of a rather extended inversion between the two morphological mutations, that includes the M locus. Another inversion (Inv5) reduced recombination only between w and the M locus. In search of naturally-occurring, recombination-suppressing inversions, homozygous females from the red eye and the white eye strains were crossed with seventeen and fourteen wild type strains collected worldwide, representing either recently colonized or long-established laboratory populations. Despite evidence of varying frequencies of recombination, no combination led to the elimination or substantial reduction of recombination. CONCLUSION: Inducing inversions through irradiation is a feasible strategy to isolate recombination suppressors either on the M or the m chromosome for Aedes aegypti. Such inversions can be incorporated in genetic sexing strains developed through classical genetics to enhance their genetic stability and support SIT or other approaches that aim to population suppression through male-delivered sterility. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s12863-020-00949-w.
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spelling pubmed-77473682020-12-21 Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti Augustinos, Antonios A. Misbah-ul-Haq, Muhammad Carvalho, Danilo O. de la Fuente, Lucia Duran Koskinioti, Panagiota Bourtzis, Kostas BMC Genet Research BACKGROUND: Aedes aegypti is the primary vector of arthropod-borne viruses and one of the most widespread and invasive mosquito species. Due to the lack of efficient specific drugs or vaccination strategies, vector population control methods, such as the sterile insect technique, are receiving renewed interest. However, availability of a reliable genetic sexing strategy is crucial, since there is almost zero tolerance for accidentally released females. Development of genetic sexing strains through classical genetics is hindered by genetic recombination that is not suppressed in males as is the case in many Diptera. Isolation of naturally-occurring or irradiation-induced inversions can enhance the genetic stability of genetic sexing strains developed through genetically linking desirable phenotypes with the male determining region. RESULTS: For the induction and isolation of inversions through irradiation, 200 male pupae of the ‘BRA’ wild type strain were irradiated at 30 Gy and 100 isomale lines were set up by crossing with homozygous ‘red-eye’ (re) mutant females. Recombination between re and the M locus and the white (w) gene (causing a recessive white eye phenotype when mutated) and the M locus was tested in 45 and 32 lines, respectively. One inversion (Inv35) reduced recombination between both re and the M locus, and wand the M locus, consistent with the presence of a rather extended inversion between the two morphological mutations, that includes the M locus. Another inversion (Inv5) reduced recombination only between w and the M locus. In search of naturally-occurring, recombination-suppressing inversions, homozygous females from the red eye and the white eye strains were crossed with seventeen and fourteen wild type strains collected worldwide, representing either recently colonized or long-established laboratory populations. Despite evidence of varying frequencies of recombination, no combination led to the elimination or substantial reduction of recombination. CONCLUSION: Inducing inversions through irradiation is a feasible strategy to isolate recombination suppressors either on the M or the m chromosome for Aedes aegypti. Such inversions can be incorporated in genetic sexing strains developed through classical genetics to enhance their genetic stability and support SIT or other approaches that aim to population suppression through male-delivered sterility. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s12863-020-00949-w. BioMed Central 2020-12-18 /pmc/articles/PMC7747368/ /pubmed/33339503 http://dx.doi.org/10.1186/s12863-020-00949-w Text en © The Author(s) 2020 Open AccessThis is an open access article distributed under the terms of the Creative Commons Attribution IGO License (https://creativecommons.org/licenses/by/3.0/igo/) which permits unrestricted use, distribution, and reproduction in any medium, provided appropriate credit to the original author(s) and the source is given.
spellingShingle Research
Augustinos, Antonios A.
Misbah-ul-Haq, Muhammad
Carvalho, Danilo O.
de la Fuente, Lucia Duran
Koskinioti, Panagiota
Bourtzis, Kostas
Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti
title Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti
title_full Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti
title_fullStr Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti
title_full_unstemmed Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti
title_short Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti
title_sort irradiation induced inversions suppress recombination between the m locus and morphological markers in aedes aegypti
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7747368/
https://www.ncbi.nlm.nih.gov/pubmed/33339503
http://dx.doi.org/10.1186/s12863-020-00949-w
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