Nil Rahola
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Explore the profile of Nil Rahola including associated specialties, affiliations and a list of published articles.
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46
Citations
801
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Recent Articles
1.
Haba Y, Aardema M, Afonso M, Agramonte N, Albright J, Alho A, et al.
bioRxiv
. 2025 Feb;
PMID: 39975080
Understanding how life is adapting to urban environments represents an important challenge in evolutionary biology. Here we investigate a widely cited example of urban adaptation, form , also known as...
2.
Rahola N, Ayala D, Bouafou L, Makanga B, Johnson H, Heaton H, et al.
Wellcome Open Res
. 2025 Feb;
9:553.
PMID: 39931114
We present a genome assembly from an individual female (the malaria mosquito; Arthropoda; Insecta; Diptera; Culicidae). The genome sequence is 224 megabases in span. Most of the assembly is scaffolded...
3.
Makanga B, Ayala D, Rahola N, Bouafou L, Johnson H, Heaton H, et al.
Wellcome Open Res
. 2024 Nov;
9:554.
PMID: 39507815
We present a genome assembly from an individual female (the malaria mosquito; Arthropoda; Insecta; Diptera; Culicidae) from Lopé, Gabon. The genome sequence is 225.7 megabases in span. Most of the...
4.
Bouafou L, Ayala D, Makanga B, Rahola N, Johnson H, Heaton H, et al.
Wellcome Open Res
. 2024 Oct;
9:551.
PMID: 39429628
We present genome assembly from individual female (African malaria mosquito; Arthropoda; Insecta; Diptera; Culicidae) from Lopé, Gabon. The genome sequence is 270 megabases in span. Most of the assembly is...
5.
Bouafou L, Makanga B, Rahola N, Bodde M, Ngangue M, Daron J, et al.
Evol Appl
. 2024 Jun;
17(6):e13693.
PMID: 38828055
The adaptation of malaria vectors to domestic settings is directly linked to their ability to feed on humans. The strength of this species-habitat association is unequal across the species within...
6.
Daron J, Bouafou L, Tennessen J, Rahola N, Makanga B, Akone-Ella O, et al.
bioRxiv
. 2024 May;
PMID: 38798379
Significance: , a major African malaria vector, thrives from humid rainforests to dry savannahs and coastal areas. This ecological success is linked to its close association with domestic settings, with...
7.
Carney R, Long A, Low R, Zohdy S, Palmer J, Elias P, et al.
Citiz Sci
. 2024 Apr;
8(1).
PMID: 38616822
Even as novel technologies emerge and medicines advance, pathogen-transmitting mosquitoes pose a deadly and accelerating public health threat. Detecting and mitigating the spread of in Africa is now critical to...
8.
Mouillaud T, Berger A, Buysse M, Rahola N, Daron J, Agbor J, et al.
Evol Appl
. 2023 Dec;
16(12):1999-2006.
PMID: 38143905
Since the discovery of natural malaria vector populations infected by the endosymbiont bacterium , a renewed interest has arisen for using this bacterium as an alternative for malaria control. Among...
9.
Obame-Nkoghe J, Roiz D, Ngangue M, Costantini C, Rahola N, Jiolle D, et al.
PLoS Negl Trop Dis
. 2023 Aug;
17(8):e0011501.
PMID: 37585443
Background: Since its first record in urban areas of Central-Africa in the 2000s, the invasive mosquito, Aedes albopictus, has spread throughout the region, including in remote villages in forested areas,...
10.
Gutierrez-Lopez R, Egeter B, Paupy C, Rahola N, Makanga B, Jiolle D, et al.
Bull Entomol Res
. 2023 May;
113(4):456-468.
PMID: 37183666
Mosquito surveillance programmes are essential to assess the risks of local vector-borne disease outbreaks as well as for early detection of mosquito invasion events. Surveys are usually performed with traditional...