Varsha Meena

TL;DR: Interestingly, Fe starvation leads to a significant temporal increase of glutathione S-transferase at both the transcriptional level and enzymatic activity level, which indicates the involvement of glutATHione in response to Fe stress in wheat roots.

TL;DR: This study will lay foundation to prioritize functional assessment of the candidate ZIFL as a putative TOM protein in wheat and suggest the varying expression patterns during development of wheat seedlings and also against abiotic/biotic stresses.

TL;DR: Quantitative expression analysis suggests that most of the VTL genes are induced mostly during the Fe surplus condition, thereby reinforcing their role in metal homeostasis, and the detailed characterization of wheat V TL genes that could provide an important genetic framework for addressing metalHomeostasis in bread wheat is dealt with.

TL;DR: Interestingly, most of the wheat VTL genes were significantly up-regulated in a tissue-specific manner under Zn, Mn and Cu deficiency conditions, but TaVTL2,TaVTL3 and TaV TL5 were upregulated in the presence of cobalt stress.

TL;DR: In this paper, a comprehensive physiological and molecular analysis of hexaploid wheat response to single (Fe, P) and its combinatorial deficiencies was provided, which showed that inhibition of the primary root growth occurs in response to Fe deficiency; however, growth was rescued when combinatory deficiencies occurred, and the Fe-responsive cis-regulatory elements in the roots in Fe stress conditions were enriched compared to the combined stress.