Detection and molecular characterization of carbendazim‐resistant Colletotrichum truncatum Isolates causing anthracnose of soybean in Thailand

A loss of fungicide efficacy, particularly for carbendazim, was noted in soybean fields in Thailand and was considered to be due to the development of Colletotrichum truncatum resistance. The carbendazim sensitivity of C. truncatum populations isolated from various soybean fields in Thailand was thu...

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Bibliographic Details
Published inJournal of phytopathology Vol. 168; no. 5; pp. 267 - 278
Main Authors Poti, Teeranai, Mahawan, Kanyarat, Cheewangkoon, Ratchadawan, Arunothayanan, Hatthaya, Akimitsu, Kazuya, Nalumpang, Sarunya
Format Journal Article
LanguageEnglish
Published Berlin Wiley Subscription Services, Inc 01.05.2020
Subjects
Adenine
Alanine
Amino acids
Anthracnose
Carbendazim
carbendazim resistance
Colletotrichum truncatum
Cytosine
Fungicides
Glutamic acid
Mutation
Mycelia
Nucleotides
soybean
Soybeans
Tub2 gene
Tubulin
β2‐tubulin gene
Thailand
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Summary:A loss of fungicide efficacy, particularly for carbendazim, was noted in soybean fields in Thailand and was considered to be due to the development of Colletotrichum truncatum resistance. The carbendazim sensitivity of C. truncatum populations isolated from various soybean fields in Thailand was thus evaluated with in vitro sensitivity assays and molecular characterization of mutations in the sequences of the ß2‐tubulin (TUB2) gene that confer carbendazim resistance in the pathogen. Among 52 isolates, 46 isolates were classified as highly resistant (HR) to carbendazim (EC50 > 1,000 µg/ml). All HR isolates grew on PDA amended with carbendazim at 1,000 µg/ml. Six isolates were classified as carbendazim sensitive (S) (EC50 < 1 µg/ml). Mycelial growth on PDA amended with 1 µg/ml carbendazim was inhibited by over 50% compared with growth on PDA alone. When a partial TUB2 gene from the isolates was amplified and analysed using predicted amino acid sequences, an alteration from glutamic acid to alanine at codon 198 (E198A) was found in 45 HR isolates for which the EC50 was higher than 2000 µg/ml. This mutation resulted from a nucleotide substitution from adenine to cytosine (GAG → GCG). The other HR isolate, CtPhS_1, with EC50 of 1,127 µg/ml, had an alteration at codon 200 (F200Y) (TTC → TAC).
ISSN:0931-1785
1439-0434
DOI:10.1111/jph.12888