Targeting gene expression to the female larval fat body of transgenic <i>Aedes aegypti</i> mosquitoes

Totten, Daniel C.; Vuong, Mai; Літвінова, О. В.; Jinwal, Umesh K.; Gulia-Nuss, Monika; Harrell, Robert A.

doi:10.1111/imb.12005

Cited by 6 publications

(2 citation statements)

References 86 publications

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“…In Aedes aegypti , a number of regulatory elements able to drive gene expression in specific tissues have been identified through transgenesis. These include the midgut 23 24 , the eye 25 , salivary glands 26 27 , testis 28 , fat body 29 30 31 , female flight muscle 32 , and ubiquitous expression 33 34 . Several regulatory elements have also been identified that drive expression in the female germline.…”

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confidence: 99%

Identification of germline transcriptional regulatory elements in Aedes aegypti

Akbari

Papathanos

Sandler

et al. 2014

Sci Rep

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The mosquito Aedes aegypti is the principal vector for the yellow fever and dengue viruses, and is also responsible for recent outbreaks of the alphavirus chikungunya. Vector control strategies utilizing engineered gene drive systems are being developed as a means of replacing wild, pathogen transmitting mosquitoes with individuals refractory to disease transmission, or bringing about population suppression. Several of these systems, including Medea, UDMEL, and site-specific nucleases, which can be used to drive genes into populations or bring about population suppression, utilize transcriptional regulatory elements that drive germline-specific expression. Here we report the identification of multiple regulatory elements able to drive gene expression specifically in the female germline, or in the male and female germline, in the mosquito Aedes aegypti. These elements can also be used as tools with which to probe the roles of specific genes in germline function and in the early embryo, through overexpression or RNA interference.

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mentioning

confidence: 99%

Identification of germline transcriptional regulatory elements in Aedes aegypti

Akbari

Papathanos

Sandler

et al. 2014

Sci Rep

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“…Hexamerin-encoding transcripts corresponding to contig 1221 were found highly accumulated in both larvae and adults. Hexamerins expressed in adult mosquitoes have been reported [47] but their function during this developmental stage is unknown. Abundant larval mRNAs encoding ribosomal proteins, translation initiation factors and elongation factors represent the active protein synthesis machinery, consistent with the rapid growth rate during the third and fourth instars of mosquito larvae.…”

Section: Resultsmentioning

confidence: 99%

Transcriptome Sequencing and Developmental Regulation of Gene Expression in Anopheles aquasalis

et al. 2014

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Background Anopheles aquasalis is a major malaria vector in coastal areas of South and Central America where it breeds preferentially in brackish water. This species is very susceptible to Plasmodium vivax and it has been already incriminated as responsible vector in malaria outbreaks. There has been no high-throughput investigation into the sequencing of An. aquasalis genes, transcripts and proteins despite its epidemiological relevance. Here we describe the sequencing, assembly and annotation of the An. aquasalis transcriptome.Methodology/Principal FindingsA total of 419 thousand cDNA sequence reads, encompassing 164 million nucleotides, were assembled in 7544 contigs of ≥2 sequences, and 1999 singletons. The majority of the An. aquasalis transcripts encode proteins with their closest counterparts in another neotropical malaria vector, An. darlingi. Several analyses in different protein databases were used to annotate and predict the putative functions of the deduced An. aquasalis proteins. Larval and adult-specific transcripts were represented by 121 and 424 contig sequences, respectively. Fifty-one transcripts were only detected in blood-fed females. The data also reveal a list of transcripts up- or down-regulated in adult females after a blood meal. Transcripts associated with immunity, signaling networks and blood feeding and digestion are discussed.Conclusions/SignificanceThis study represents the first large-scale effort to sequence the transcriptome of An. aquasalis. It provides valuable information that will facilitate studies on the biology of this species and may lead to novel strategies to reduce malaria transmission on the South American continent. The An. aquasalis transcriptome is accessible at http://exon.niaid.nih.gov/transcriptome/An_aquasalis/Anaquexcel.xlsx.

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Midgut-specific expression of CYP321A8 P450 gene increases deltamethrin tolerance in the fall armyworm Spodoptera frugiperda

Chen

Palli

2022

J Pest Sci

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Targeting gene expression to the female larval fat body of transgenic Aedes aegypti mosquitoes

Cited by 6 publications

References 86 publications

Identification of germline transcriptional regulatory elements in Aedes aegypti

Identification of germline transcriptional regulatory elements in Aedes aegypti

Transcriptome Sequencing and Developmental Regulation of Gene Expression in Anopheles aquasalis

Midgut-specific expression of CYP321A8 P450 gene increases deltamethrin tolerance in the fall armyworm Spodoptera frugiperda

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