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Deep orange gene editing triggers temperature-sensitive lethal phenotypes in Ceratitis capitata
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Deep orange gene editing triggers temperature-sensitive lethal phenotypes in Ceratitis capitata
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Journal Article
Deep orange gene editing triggers temperature-sensitive lethal phenotypes in Ceratitis capitata
2024
Overview
Background
The Mediterranean fruit fly,
Ceratitis capitata
, is a significant agricultural pest managed through area-wide integrated pest management (AW-IPM) including a sterile insect technique (SIT) component. Male-only releases increase the efficiency and cost-effectiveness of SIT programs, which can be achieved through the development of genetic sexing strains (GSS). The most successful GSS developed to date is the
C. capitata
VIENNA 8 GSS, constructed using classical genetic approaches and an irradiation-induced translocation with two selectable markers: the
white pupae
(
wp
) and
temperature-sensitive lethal
(
tsl
) genes. However, currently used methods for selecting suitable markers and inducing translocations are stochastic and non-specific, resulting in a laborious and time-consuming process. Recent efforts have focused on identifying the gene(s) and the causal mutation(s) for suitable phenotypes, such as wp and tsl, which could be used as selectable markers for developing a generic approach for constructing GSS. The
wp
gene was recently identified, and efforts have been initiated to identify the
tsl
gene. This study investigates
Ceratitis capitata deep orange
(
Ccdor
) as a
tsl
candidate gene and its potential to induce tsl phenotypes.
Results
An integrated approach based on cytogenetics, genomics, bioinformatics, and gene editing was used to characterize the
Ccdor
. Its location was confirmed on the right arm of chromosome 5 in the putative
tsl
genomic region. Knock-out of
Ccdor
using CRISPR/Cas9-NHEJ and targeting the fourth exon resulted in lethality at mid- and late-pupal stage, while the successful application of CRISPR HDR introducing a point mutation on the sixth exon resulted in the establishment of the desired strain and two additional strains (
dor 12del
and
dor 51dup
), all of them expressing tsl phenotypes and presenting no (or minimal) fitness cost when reared at 25 °C. One of the strains exhibited complete lethality when embryos were exposed at 36 °C.
Conclusions
Gene editing of the
deep orange
gene in
Ceratitis capitata
resulted in the establishment of temperature-sensitive lethal mutant strains. The induced mutations did not significantly affect the rearing efficiency of the strains. As
deep orange
is a highly conserved gene, these data suggest that it can be considered a target for the development of
tsl
mutations which could potentially be used to develop novel genetic sexing strains in insect pests and disease vectors.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Animals
/ Biomedical Engineering/Biotechnology
/ Ceratitis capitata - genetics
/ Chemistry and Materials Science
/ Control
/ CRISPR
/ death
/ Editing
/ Embryos
/ exons
/ Females
/ Fruits
/ Genes
/ Genomes
/ Genomics
/ Insects
/ Male
/ Males
/ mutants
/ Mutation
/ Pest Control, Biological - methods
/ Pests
/ Plant Breeding/Biotechnology
/ Proteins
/ Sexing
/ Temperature-sensitive mutant
/ Vectors
/ Wp gene
