TY - JOUR
T1 - INDIGENOUS BACILLUS SPECIES ISOLATED FROM AEDES AEGYPTI LARVAE
T2 - ISOLATION, LARVICIDAL TOXICITY SCREENING, PHENOTYPIC CHARACTERIZATION, AND MOLECULAR IDENTIFICATION
AU - Salamun,
AU - Susetyo, Rizky Danang
AU - Husniyah, Hakimatul
AU - Geraldi, Almando
AU - Ni’Matuzahroh, null
AU - Fatimah,
AU - Nafidiastri, Farah Aisyah
AU - Nisa’, Nabilatun
AU - Salamy, Muhammad Fath Alhaqqi Sanis
N1 - Publisher Copyright:
© (2023). All Rights Reserved.
PY - 2023
Y1 - 2023
N2 - Vector-borne diseases transmitted by mosquitoes are considered a significant public health problem worldwide. Aedes aegypti is one of the mosquito species responsible for transmitting these diseases. One environmentally friendly method of vector control is the use of microbial agents such as Bacillus species. This study aimed to explore investigate indigenous entomopathogenic bacteria of Bacillus species isolated from A. aegypti larvae. Larvae samples were collected from breeding sites of A. aegypti. All isolates underwent screening and affirmation confirmation tests to assess their larvicidal toxicity against A. aegypti larvae. Phenotypic characterizations and molecular identifications were conducted to determine the species of the Bacillus isolates based on similarity index and percent identity (%ID). Phylogenetic trees were used to compare the isolates with other Bacillus species. The results revealed 120 isolates of Bacillus species from A. aegypti larvae samples. Among them, three isolates (LS3.3, LS9.1, and LSD4.2) exhibited the highest larvicidal toxicity in the confirmation test, resulting in larval mortality rates of 100%, 96.7%, and 100%, respectively, after 48 hours of exposure. Molecular identifications, showed that LSD4.2 had a 99.16% ID with Bacillus velezensis, LS3.3 had a 98.22% ID with Bacillus mojavensis, and LS9.1 had a 99.93% ID with Bacillus subtilis. These three bacteria from the Bacillus genus have been reported to offer significant benefits to humans.
AB - Vector-borne diseases transmitted by mosquitoes are considered a significant public health problem worldwide. Aedes aegypti is one of the mosquito species responsible for transmitting these diseases. One environmentally friendly method of vector control is the use of microbial agents such as Bacillus species. This study aimed to explore investigate indigenous entomopathogenic bacteria of Bacillus species isolated from A. aegypti larvae. Larvae samples were collected from breeding sites of A. aegypti. All isolates underwent screening and affirmation confirmation tests to assess their larvicidal toxicity against A. aegypti larvae. Phenotypic characterizations and molecular identifications were conducted to determine the species of the Bacillus isolates based on similarity index and percent identity (%ID). Phylogenetic trees were used to compare the isolates with other Bacillus species. The results revealed 120 isolates of Bacillus species from A. aegypti larvae samples. Among them, three isolates (LS3.3, LS9.1, and LSD4.2) exhibited the highest larvicidal toxicity in the confirmation test, resulting in larval mortality rates of 100%, 96.7%, and 100%, respectively, after 48 hours of exposure. Molecular identifications, showed that LSD4.2 had a 99.16% ID with Bacillus velezensis, LS3.3 had a 98.22% ID with Bacillus mojavensis, and LS9.1 had a 99.93% ID with Bacillus subtilis. These three bacteria from the Bacillus genus have been reported to offer significant benefits to humans.
KW - Aedes aegypti
KW - Bacillus mojavensis
KW - Bacillus subtilis
KW - Bacillus velezensis
KW - Dengue vector
KW - Larvicidal toxicity
UR - http://www.scopus.com/inward/record.url?scp=85169059348&partnerID=8YFLogxK
U2 - 10.11598/btb.2023.30.2.1938
DO - 10.11598/btb.2023.30.2.1938
M3 - Article
AN - SCOPUS:85169059348
SN - 0215-6334
VL - 30
SP - 242
EP - 252
JO - Biotropia
JF - Biotropia
IS - 2
ER -