Integrated transcriptomics and physio-biochemical analysis revealed key genes affecting the seed germination of Leymus chinensis
Yumei Feng, Wenlong Gong, Lemeng Liu, Chunyu Tian, Yanting Yang, Zinian Wu

TL;DR
This study identifies key genes and pathways involved in seed germination of Leymus chinensis, offering insights to improve its germination rates.
Contribution
The study integrates transcriptomics and biochemical analysis to reveal novel candidate genes and pathways regulating seed germination in Leymus chinensis.
Findings
Gibberellin content increase is a key factor promoting seed germination in L. chinensis.
RNA-seq analysis identified thousands of differentially expressed genes across seed developmental stages.
Candidate genes in hormone signaling and metabolism pathways were linked to germination regulation.
Abstract
Leymus chinensis, also known as alkali grass, is a perennial rhizomatous herbaceous plant with a significant ecological and economic value. However, its industrial development is hindered by low seed germination rates. Therefore, how to break the seed dormancy and improve the germination rate of L. chinensis seeds has become a hot topic nowadays. In this study, the increase of gibberellin (GA) content is one of the main factors promoting the seed germination of L. chinensis. Furthermore, to further explore the molecular mechanisms underlying seed germination regulation, RNA sequencing (RNA-seq) analysis of seeds at different developmental stages was carried out to explore the potential regulatory factors of seed hulls affecting the seed germination of L. chinensis. A total of 21,564, 21,010, and 31,795 differentially expressed genes (DEGs) were identified in “H_CK_0 vs. DH_CK_0”,…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsSeed Germination and Physiology · Genetic and Environmental Crop Studies · Plant Molecular Biology Research
