Abstract
In French Guiana, the malaria, a parasitic infection transmitted by Anopheline mosquitoes, remains a disease of public health importance. To prevent malaria transmission, the main effective way remains Anopheles control. For an effective control, accurate Anopheles species identification is indispensable to distinguish malaria vectors from non-vectors. Although, morphological and molecular methods are largely used, an innovative tool, based on protein pattern comparisons, the Matrix Assisted Laser Desorption / Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF MS) profiling, emerged this last decade for arthropod identification. However, the limited mosquito fauna diversity of reference MS spectra remains one of the main drawback for its large usage. The aim of the present study was then to create and to share reference MS spectra for the identification of French Guiana Anopheline species. A total of eight distinct Anopheles species, among which four are malaria vectors, were collected in 6 areas. To improve Anopheles identification, two body parts, legs and thoraxes, were independently submitted to MS for the creation of respective reference MS spectra database (DB). This study underlined that double checking by MS enhanced the Anopheles identification confidence and rate of reliable classification. The sharing of this reference MS spectra DB should make easier Anopheles species monitoring in endemic malaria area to help malaria vector control or elimination programs.
Highlights
Since 2005, malaria cases declined significantly in French Guiana, an oversea territory of France located in South-America
Among the mosquitoes captured in the 6 distinct sites from French Guiana (Fig 1), uniquely anopheline specimens were selected
c oxidase I (COI) gene sequences were queried against GenBank (NCBI) and the Barcode of Life Data (BOLD) Systems
Summary
Since 2005, malaria cases declined significantly in French Guiana, an oversea territory of France located in South-America. Thirtythree mosquitoes from the genus Anopheles have been reported in French Guiana [5]. Members in the subgenus Anopheles and Nyssorhynchus have been implicated in malaria transmission in French Guiana. An. nuneztovari sl, An. oswaldoi sl, An. intermedius, An. marajoara and An. ininii were found naturally infected with Plasmodium sporozoites and were suspected to be secondary vectors [2,3,10]. Malaria transmission is further complicated as some of these secondary vectors belong to species complexes, characterized by similar morphological characteristics, such as An. oswaldoi [11], An. marajoara [12] and An. nuneztovari [13]
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