Molecular characterization of proteolytic bacteria associated with Malaria vectors: Anopheles sundaicus and Anopheles vagus

Molecular characterization of proteolytic bacteria associated with Malaria vectors: Anopheles sundaicus and Anopheles vagus

BACKGROUND Anopheles (An.) sp. transmits Plasmodium parasites that cause malaria. In its life cycle in the mosquito’s body, Plasmodium passes through 2 mosquito organs, namely the salivary glands and midgut. The bacterial community (symbiont bacteria) in these organs has been known to influence and/...

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Bibliographic Details
Published in:Universa medicina Vol. 43; no. 2
Main Authors: Kartika Senjarini, Antje Labes, Syubbanul Wathon, Rike Oktarianti, Tri Yudani Mardining Raras, Naura Paramitha Cindy Ardyah, Dita Paramytha Agustin, Durotun Ainiyah, Diah Ayu Utami
Format: Journal Article
Language:English
Published: Faculty of Medicine Trisakti University 01-08-2024
Subjects:
Anopheles
bacteria
malaria vectors
midgut
molecular identification
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Summary:BACKGROUND Anopheles (An.) sp. transmits Plasmodium parasites that cause malaria. In its life cycle in the mosquito’s body, Plasmodium passes through 2 mosquito organs, namely the salivary glands and midgut. The bacterial community (symbiont bacteria) in these organs has been known to influence and/or inhibit the development of the Plasmodium life cycle by producing specific proteases. This research aims to isolate and characterize symbiotic bacteria with proteolytic activity from 2 important malaria vectors in Indonesia: An. sundaicus and An. vagus. METHODS A total of 183 bacterial originating from the salivary glands and midgut were successfully isolated. Initial screening was carried out based on morphological differences, followed by purification of the selected isolates to obtain single colonies. The selected isolates were then subjected to an initial proteolytic ability test using skim milk agar media. Only isolates with proteolytic activity were further characterized with the 16SrDNA molecular marker. The isolates were pabs5 from the salivary glands and pabs3 from the midgut of An. vagus, while pdbs3 and ecbs4 were isolates from the salivary glands and midgut of An. sundaicus. RESULTS Morphological and molecular characterization showed that both pabs5 and pabs3 isolates were Pseudomonas (Ps.) aeruginosa, while ecbs4 was Enterobacter cloacae and pdbs3 was Pantoea dispersa. These species were first discovered in Anopheles vagus and Anopheles sundaicus. CONCLUSION The ability of Ps. aeruginosa and Pantoea dispersa to produce proteases indicated their potential role in the exploration of new strategies to control mosquito vectors that transmit pathogens.
ISSN:2407-2230
1907-3062
DOI:10.18051/UnivMed.2024.v43.202-212