Identification of Quantitative Trait Loci and Candidate Genes Involved in Rice Seedling Growth Under Hypoxic Stress
Nari Kim, Rahmatullah Jan, Saleem Asif, Sajjad Asaf, Zakirullah Khan, Kyung-Min Kim

TL;DR
This study identifies genetic regions and genes in rice that help seedlings survive low-oxygen conditions, which could aid in breeding more resilient rice varieties.
Contribution
The study identifies novel QTLs and candidate genes associated with hypoxia tolerance in rice seedlings.
Findings
Three QTLs (qSL-8, qSL-10, qFW-2) were identified as significantly associated with hypoxia tolerance in rice.
Eight candidate genes showed differential regulation under hypoxia, with Os08g0431900 being highly conserved and linked to stress responses.
Shoot length and fresh weight were key indicators of hypoxia tolerance, while root length was unaffected.
Abstract
Studying hypoxia in rice is particularly important because oxygen deficiency during germination severely limits seedling establishment. Understanding the molecular and physiological mechanisms underlying hypoxic tolerance is therefore crucial for improving rice yield stability under flooded or waterlogged conditions. Progress in developing rice cultivars that thrive under flooding and low oxygen (hypoxic) conditions has been limited over the past two decades due to a lack of tolerant plant varieties and a limited understanding of genetic mechanisms. This study evaluated hypoxia tolerance in the Cheongcheong Nagdong Double Haploid (CNDH) rice population, along with their parent lines, for hypoxia tolerance. Significant phenotypic differences were identified, with the Cheongcheong and CNDH lines CNDH13, CNDH35, and CNDH91 showing strong hypoxia tolerance, while Nagdong and CNDH lines…
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Taxonomy
TopicsPlant responses to water stress · Plant Water Relations and Carbon Dynamics · Rice Cultivation and Yield Improvement
