Scientific Reports (Nov 2023)

Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta)

  • Vitor Batista Pinto,
  • Pedro Marcus Pereira Vidigal,
  • Maximiller Dal-Bianco,
  • Fabricio Almeida-Silva,
  • Thiago Motta Venancio,
  • José Marcelo Soriano Viana

DOI
https://doi.org/10.1038/s41598-023-46810-9
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 9

Abstract

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Abstract Aluminum (Al) toxicity limits crop production worldwide. Although studies have identified genes associated with Al tolerance in crops, a large amount of data remains unexplored using other strategies. Here, we searched for single substitutions and InDels across differentially expressed genes (DEGs), linked DEGs to Al-tolerance QTLs reported in the literature for common maize, and investigated the alternative splicing regulated by Al3+ toxicity. We found 929 substitutions between DEGs in Al-tolerant and 464 in Al-sensitive inbred lines, of which 165 and 80 were non-synonymous, respectively. Only 12 NS variants had deleterious predicted effect on protein function in Al-tolerant and 13 in Al-sensitive. Moreover, 378 DEGs were mapped in Al-QTL regions for the Al-tolerant and 213 for the Al-sensitive. Furthermore, Al stress is primarily regulated at the transcriptional level in popcorn. Important genes identified, such as HDT1, SWEET4a, GSTs, SAD9, PIP2-2, CASP-like 5, and AGP, may benefit molecular assisted popcorn breeding or be useful in biotechnological approaches. These findings offer insights into the mechanisms of Al tolerance in popcorn and provide a ‘hypothesis-free’ strategy for identifying and prioritizing candidate genes that could be used to develop molecular markers or cultivars resilient to acidic soils.