Akademik Veri Yönetim Sistemi
Journal Of Oleo Science, cilt.70, sa.11, ss.1-10, 2021 (SCI-Expanded)
Reducing allergenicity and increasing oleic content are important goals in groundnut breeding
studies. Ara h 1 is a major allergen gene and Delta(12)-fatty-acid desaturase (FAD2) is responsible for
converting oleic into linoleic acid. These genes have homoeologues with one copy in each subgenome,
identified as Ara h 1.01, Ara h 1.02, ahFAD2A and ahFAD2B in tetraploid groundnut. To alter functional
properties of these genes we have generated an Ethyl Methane Sulfonate (EMS) induced mutant population
to be used in Targeting Induced Local Lesions in Genomes (TILLING) approach. Seeds were exposed to two
EMS concentrations and the germination rates were calculated as 90.1% (1353 plants) for 0.4% and 60.4%
(906 plants) for 1.2% EMS concentrations in the M1 generation. Among the 1541 M2 mutants, 768 were
analyzed by TILLING using four homoeologous genes. Two heterozygous mutations were identified in the
ahFAD2B and ahFAD2A gene regions from 1.2% and 0.4% EMS-treated populations, respectively. The
mutation in ahFAD2B resulted in an amino acid change, which was serine to threonine predicted to be
tolerated according to SIFT analysis. The other mutation causing amino acid change, glycine to aspartic
acid was predicted to affect protein function in ahFAD2A. No mutations were detected in Ara h 1.01 and Ara
h 1.02 for both EMS-treatments after sequencing. We estimated the overall mutation rate to be 1 mutation
every 2139 kb. The mutation frequencies were also 1/317 kb for ahFAD2A in 0.4% EMS and 1/466 kb for
ahFAD2B in 1.2% EMS treatments. The results demonstrated that TILLING is a powerful tool to interfere
with gene function in crops and the mutagenized population developed in this study can be used as an
efficient reverse genetics tool for groundnut improvement and functional genomics.