Transcriptome of the adult female malaria mosquito vector Anopheles albimanus.

Jesús Martínez-Barnetche; Rosa E. Gómez-Barreto; Marbella Ovilla-Muñoz; Juan Téllez-Sosa; David E.García López; Rhoel R. Dinglasan; Ceereena Ubaida Mohien; Robert M. MacCallum; Seth N. Redmond; John G. Gibbons; Antonis Rokas; Carlos A. Machado; Febe E. Cazares-Raga; Lilia González-Cerón; Salvador Hernández-Martínez; Mario H.Rodríguez López

doi:10.1186/1471-2164-13-207

Transcriptome of the adult female malaria mosquito vector Anopheles albimanus.

Jesús Martínez-Barnetche, Rosa E. Gómez-Barreto, Marbella Ovilla-Muñoz, Juan Téllez-Sosa, David E.García López, Rhoel R. Dinglasan, Ceereena Ubaida Mohien, Robert M. MacCallum, Seth N. Redmond, John G. Gibbons, Antonis Rokas, Carlos A. Machado, Febe E. Cazares-Raga, Lilia González-Cerón, Salvador Hernández-Martínez, Mario H.Rodríguez López

Research output: Contribution to journal › Article › Research › peer-review

28 Citations (Scopus)

Abstract

Human Malaria is transmitted by mosquitoes of the genus Anopheles. Transmission is a complex phenomenon involving biological and environmental factors of humans, parasites and mosquitoes. Among more than 500 anopheline species, only a few species from different branches of the mosquito evolutionary tree transmit malaria, suggesting that their vectorial capacity has evolved independently. Anopheles albimanus (subgenus Nyssorhynchus) is an important malaria vector in the Americas. The divergence time between Anopheles gambiae, the main malaria vector in Africa, and the Neotropical vectors has been estimated to be 100 My. To better understand the biological basis of malaria transmission and to develop novel and effective means of vector control, there is a need to explore the mosquito biology beyond the An. gambiae complex. We sequenced the transcriptome of the An. albimanus adult female. By combining Sanger, 454 and Illumina sequences from cDNA libraries derived from the midgut, cuticular fat body, dorsal vessel, salivary gland and whole body, we generated a single, high-quality assembly containing 16,669 transcripts, 92% of which mapped to the An. darlingi genome and covered 90% of the core eukaryotic genome. Bidirectional comparisons between the An. gambiae, An. darlingi and An. albimanus predicted proteomes allowed the identification of 3,772 putative orthologs. More than half of the transcripts had a match to proteins in other insect vectors and had an InterPro annotation. We identified several protein families that may be relevant to the study of Plasmodium-mosquito interaction. An open source transcript annotation browser called GDAV (Genome-Delinked Annotation Viewer) was developed to facilitate public access to the data generated by this and future transcriptome projects. We have explored the adult female transcriptome of one important New World malaria vector, An. albimanus. We identified protein-coding transcripts involved in biological processes that may be relevant to the Plasmodium lifecycle and can serve as the starting point for searching targets for novel control strategies. Our data increase the available genomic information regarding An. albimanus several hundred-fold, and will facilitate molecular research in medical entomology, evolutionary biology, genomics and proteomics of anopheline mosquito vectors. The data reported in this manuscript is accessible to the community via the VectorBase website (http://www.vectorbase.org/Other/AdditionalOrganisms/).

Original language	English
Journal	BMC Genomics
Volume	13
DOIs	https://doi.org/10.1186/1471-2164-13-207
Publication status	Published - 1 Jan 2012
Externally published	Yes

Keywords

Animals
Anopheles
Anopheles: genetics
Chromosome Mapping
Databases, Genetic
Expressed Sequence Tags
Female
Gene Library
Genome
Host-Parasite Interactions
Insect Vectors
Insect Vectors: genetics
Plasmodium
Plasmodium: physiology
Proteome
Proteome: metabolism
Sequence Analysis, DNA
Transcriptome
Transcriptome: genetics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1186/1471-2164-13-207

Cite this

Martínez-Barnetche, J., Gómez-Barreto, R. E., Ovilla-Muñoz, M., Téllez-Sosa, J., López, D. E. G., Dinglasan, R. R., Mohien, C. U., MacCallum, R. M., Redmond, S. N., Gibbons, J. G., Rokas, A., Machado, C. A., Cazares-Raga, F. E., González-Cerón, L., Hernández-Martínez, S., & López, M. H. R. (2012). Transcriptome of the adult female malaria mosquito vector Anopheles albimanus. BMC Genomics, 13. https://doi.org/10.1186/1471-2164-13-207

Martínez-Barnetche, Jesús ; Gómez-Barreto, Rosa E. ; Ovilla-Muñoz, Marbella ; Téllez-Sosa, Juan ; López, David E.García ; Dinglasan, Rhoel R. ; Mohien, Ceereena Ubaida ; MacCallum, Robert M. ; Redmond, Seth N. ; Gibbons, John G. ; Rokas, Antonis ; Machado, Carlos A. ; Cazares-Raga, Febe E. ; González-Cerón, Lilia ; Hernández-Martínez, Salvador ; López, Mario H.Rodríguez. / Transcriptome of the adult female malaria mosquito vector Anopheles albimanus. In: BMC Genomics. 2012 ; Vol. 13.

@article{2b2e2d2f68434f85ae1b8cd2289f3b4a,

title = "Transcriptome of the adult female malaria mosquito vector Anopheles albimanus.",

abstract = "Human Malaria is transmitted by mosquitoes of the genus Anopheles. Transmission is a complex phenomenon involving biological and environmental factors of humans, parasites and mosquitoes. Among more than 500 anopheline species, only a few species from different branches of the mosquito evolutionary tree transmit malaria, suggesting that their vectorial capacity has evolved independently. Anopheles albimanus (subgenus Nyssorhynchus) is an important malaria vector in the Americas. The divergence time between Anopheles gambiae, the main malaria vector in Africa, and the Neotropical vectors has been estimated to be 100 My. To better understand the biological basis of malaria transmission and to develop novel and effective means of vector control, there is a need to explore the mosquito biology beyond the An. gambiae complex. We sequenced the transcriptome of the An. albimanus adult female. By combining Sanger, 454 and Illumina sequences from cDNA libraries derived from the midgut, cuticular fat body, dorsal vessel, salivary gland and whole body, we generated a single, high-quality assembly containing 16,669 transcripts, 92% of which mapped to the An. darlingi genome and covered 90% of the core eukaryotic genome. Bidirectional comparisons between the An. gambiae, An. darlingi and An. albimanus predicted proteomes allowed the identification of 3,772 putative orthologs. More than half of the transcripts had a match to proteins in other insect vectors and had an InterPro annotation. We identified several protein families that may be relevant to the study of Plasmodium-mosquito interaction. An open source transcript annotation browser called GDAV (Genome-Delinked Annotation Viewer) was developed to facilitate public access to the data generated by this and future transcriptome projects. We have explored the adult female transcriptome of one important New World malaria vector, An. albimanus. We identified protein-coding transcripts involved in biological processes that may be relevant to the Plasmodium lifecycle and can serve as the starting point for searching targets for novel control strategies. Our data increase the available genomic information regarding An. albimanus several hundred-fold, and will facilitate molecular research in medical entomology, evolutionary biology, genomics and proteomics of anopheline mosquito vectors. The data reported in this manuscript is accessible to the community via the VectorBase website (http://www.vectorbase.org/Other/AdditionalOrganisms/).",

keywords = "Animals, Anopheles, Anopheles: genetics, Chromosome Mapping, Databases, Genetic, Expressed Sequence Tags, Female, Gene Library, Genome, Host-Parasite Interactions, Insect Vectors, Insect Vectors: genetics, Plasmodium, Plasmodium: physiology, Proteome, Proteome: metabolism, Sequence Analysis, DNA, Transcriptome, Transcriptome: genetics",

author = "Jes{\'u}s Mart{\'i}nez-Barnetche and G{\'o}mez-Barreto, {Rosa E.} and Marbella Ovilla-Mu{\~n}oz and Juan T{\'e}llez-Sosa and L{\'o}pez, {David E.Garc{\'i}a} and Dinglasan, {Rhoel R.} and Mohien, {Ceereena Ubaida} and MacCallum, {Robert M.} and Redmond, {Seth N.} and Gibbons, {John G.} and Antonis Rokas and Machado, {Carlos A.} and Cazares-Raga, {Febe E.} and Lilia Gonz{\'a}lez-Cer{\'o}n and Salvador Hern{\'a}ndez-Mart{\'i}nez and L{\'o}pez, {Mario H.Rodr{\'i}guez}",

year = "2012",

month = jan,

day = "1",

doi = "10.1186/1471-2164-13-207",

language = "English",

volume = "13",

journal = "BMC Genomics",

issn = "1471-2164",

publisher = "BioMed Central",

}

Martínez-Barnetche, J, Gómez-Barreto, RE, Ovilla-Muñoz, M, Téllez-Sosa, J, López, DEG, Dinglasan, RR, Mohien, CU, MacCallum, RM, Redmond, SN, Gibbons, JG, Rokas, A, Machado, CA, Cazares-Raga, FE, González-Cerón, L, Hernández-Martínez, S & López, MHR 2012, 'Transcriptome of the adult female malaria mosquito vector Anopheles albimanus.', BMC Genomics, vol. 13. https://doi.org/10.1186/1471-2164-13-207

Transcriptome of the adult female malaria mosquito vector Anopheles albimanus. / Martínez-Barnetche, Jesús; Gómez-Barreto, Rosa E.; Ovilla-Muñoz, Marbella; Téllez-Sosa, Juan; López, David E.García; Dinglasan, Rhoel R.; Mohien, Ceereena Ubaida; MacCallum, Robert M.; Redmond, Seth N.; Gibbons, John G.; Rokas, Antonis; Machado, Carlos A.; Cazares-Raga, Febe E.; González-Cerón, Lilia; Hernández-Martínez, Salvador; López, Mario H.Rodríguez.

In: BMC Genomics, Vol. 13, 01.01.2012.

Research output: Contribution to journal › Article › Research › peer-review

TY - JOUR

T1 - Transcriptome of the adult female malaria mosquito vector Anopheles albimanus.

AU - Martínez-Barnetche, Jesús

AU - Gómez-Barreto, Rosa E.

AU - Ovilla-Muñoz, Marbella

AU - Téllez-Sosa, Juan

AU - López, David E.García

AU - Dinglasan, Rhoel R.

AU - Mohien, Ceereena Ubaida

AU - MacCallum, Robert M.

AU - Redmond, Seth N.

AU - Gibbons, John G.

AU - Rokas, Antonis

AU - Machado, Carlos A.

AU - Cazares-Raga, Febe E.

AU - González-Cerón, Lilia

AU - Hernández-Martínez, Salvador

AU - López, Mario H.Rodríguez

PY - 2012/1/1

Y1 - 2012/1/1

N2 - Human Malaria is transmitted by mosquitoes of the genus Anopheles. Transmission is a complex phenomenon involving biological and environmental factors of humans, parasites and mosquitoes. Among more than 500 anopheline species, only a few species from different branches of the mosquito evolutionary tree transmit malaria, suggesting that their vectorial capacity has evolved independently. Anopheles albimanus (subgenus Nyssorhynchus) is an important malaria vector in the Americas. The divergence time between Anopheles gambiae, the main malaria vector in Africa, and the Neotropical vectors has been estimated to be 100 My. To better understand the biological basis of malaria transmission and to develop novel and effective means of vector control, there is a need to explore the mosquito biology beyond the An. gambiae complex. We sequenced the transcriptome of the An. albimanus adult female. By combining Sanger, 454 and Illumina sequences from cDNA libraries derived from the midgut, cuticular fat body, dorsal vessel, salivary gland and whole body, we generated a single, high-quality assembly containing 16,669 transcripts, 92% of which mapped to the An. darlingi genome and covered 90% of the core eukaryotic genome. Bidirectional comparisons between the An. gambiae, An. darlingi and An. albimanus predicted proteomes allowed the identification of 3,772 putative orthologs. More than half of the transcripts had a match to proteins in other insect vectors and had an InterPro annotation. We identified several protein families that may be relevant to the study of Plasmodium-mosquito interaction. An open source transcript annotation browser called GDAV (Genome-Delinked Annotation Viewer) was developed to facilitate public access to the data generated by this and future transcriptome projects. We have explored the adult female transcriptome of one important New World malaria vector, An. albimanus. We identified protein-coding transcripts involved in biological processes that may be relevant to the Plasmodium lifecycle and can serve as the starting point for searching targets for novel control strategies. Our data increase the available genomic information regarding An. albimanus several hundred-fold, and will facilitate molecular research in medical entomology, evolutionary biology, genomics and proteomics of anopheline mosquito vectors. The data reported in this manuscript is accessible to the community via the VectorBase website (http://www.vectorbase.org/Other/AdditionalOrganisms/).

AB - Human Malaria is transmitted by mosquitoes of the genus Anopheles. Transmission is a complex phenomenon involving biological and environmental factors of humans, parasites and mosquitoes. Among more than 500 anopheline species, only a few species from different branches of the mosquito evolutionary tree transmit malaria, suggesting that their vectorial capacity has evolved independently. Anopheles albimanus (subgenus Nyssorhynchus) is an important malaria vector in the Americas. The divergence time between Anopheles gambiae, the main malaria vector in Africa, and the Neotropical vectors has been estimated to be 100 My. To better understand the biological basis of malaria transmission and to develop novel and effective means of vector control, there is a need to explore the mosquito biology beyond the An. gambiae complex. We sequenced the transcriptome of the An. albimanus adult female. By combining Sanger, 454 and Illumina sequences from cDNA libraries derived from the midgut, cuticular fat body, dorsal vessel, salivary gland and whole body, we generated a single, high-quality assembly containing 16,669 transcripts, 92% of which mapped to the An. darlingi genome and covered 90% of the core eukaryotic genome. Bidirectional comparisons between the An. gambiae, An. darlingi and An. albimanus predicted proteomes allowed the identification of 3,772 putative orthologs. More than half of the transcripts had a match to proteins in other insect vectors and had an InterPro annotation. We identified several protein families that may be relevant to the study of Plasmodium-mosquito interaction. An open source transcript annotation browser called GDAV (Genome-Delinked Annotation Viewer) was developed to facilitate public access to the data generated by this and future transcriptome projects. We have explored the adult female transcriptome of one important New World malaria vector, An. albimanus. We identified protein-coding transcripts involved in biological processes that may be relevant to the Plasmodium lifecycle and can serve as the starting point for searching targets for novel control strategies. Our data increase the available genomic information regarding An. albimanus several hundred-fold, and will facilitate molecular research in medical entomology, evolutionary biology, genomics and proteomics of anopheline mosquito vectors. The data reported in this manuscript is accessible to the community via the VectorBase website (http://www.vectorbase.org/Other/AdditionalOrganisms/).

KW - Animals

KW - Anopheles

KW - Anopheles: genetics

KW - Chromosome Mapping

KW - Databases, Genetic

KW - Expressed Sequence Tags

KW - Female

KW - Gene Library

KW - Genome

KW - Host-Parasite Interactions

KW - Insect Vectors

KW - Insect Vectors: genetics

KW - Plasmodium

KW - Plasmodium: physiology

KW - Proteome

KW - Proteome: metabolism

KW - Sequence Analysis, DNA

KW - Transcriptome

KW - Transcriptome: genetics

UR - http://www.scopus.com/inward/record.url?scp=84861533252&partnerID=8YFLogxK

U2 - 10.1186/1471-2164-13-207

DO - 10.1186/1471-2164-13-207

M3 - Article

C2 - 22646700

VL - 13

JO - BMC Genomics

JF - BMC Genomics

SN - 1471-2164

ER -

Transcriptome of the adult female malaria mosquito vector Anopheles albimanus.

Abstract

Keywords

UN SDGs

Access to Document

Other files and links

Cite this