Insight into the Root Transcriptome of a Boron-Tolerant Triticum zhukovskyi Genotype Grown under Boron Toxicity

Boron (B) toxicity is an important abiotic stress that drastically damages agricultural production worldwide, mostly in arid regions. Several studies have reported large losses wheat due to high B arable land. The identification of different B-toxicity-tolerant germplasm and using them breeding programs develop tolerant cultivars a potential solution toxicity. However, tolerance such largely relies on the molecular changes plants under at transcriptome level. Thus, aim this study determine transcriptomic response roots Triticum zhukovskyi genotype, PI296968, grown highly toxic environment (10 mM B) comparison with control (3.1 μM treatment. T. hexaploid species forming separate lineage from main can be good source genes for various stresses. it has been hardly explored any condition. This first literature reporting genotype along occurring as compared In present study, 5992 were found significantly differentially expressed, 1679 4313 up- down-regulated genes, respectively. A number transcription factors pathways identified involved genotype. total 12582 novel transcripts determined 9238 3344 coding noncoding transcripts, results not only suggest several candidate further studied improve upcoming programs, but also enhance understanding regulatory processes behind Further experiments are suggested functionally characterize high-B-responsive confirm their role providing plants.