“…Six major pathways have been identified for regulating flowering time in plants, comprising three external pathways (photoperiodic regulation, vernalization, and ambient temperature) and three endogenous pathways (autonomous, age, and gibberellin pathways) [33][34][35][36]. This study primarily examines the regulatory pathways of photoperiod and vernalization within the external signaling cascades.…”
Wintergrazer-70 and Ganyin No1 are high-yield forage varieties suitable for cultivation in high-altitude areas of Tibet (4300 m above sea level). Ganyin No1 was developed from Wintergrazer-70, with the latter serving as its parent variety. Ganyin No1 was identified as a spring variety, and subsequent RNA sequencing was conducted. RNA sequencing analysis identified 4 differentially expressed genes related to vernalization and 28 genes related to photoperiod regulation. The Sc7296g5-i1G3 gene is related to the flowering inhibition of rye, which may be related to the phenotypic difference in the Ganyin No1 variety in winter and spring. This finding provides valuable insights for future research on Ganyin No1, especially in addressing feed shortages in Tibet during winter and spring.
“…Six major pathways have been identified for regulating flowering time in plants, comprising three external pathways (photoperiodic regulation, vernalization, and ambient temperature) and three endogenous pathways (autonomous, age, and gibberellin pathways) [33][34][35][36]. This study primarily examines the regulatory pathways of photoperiod and vernalization within the external signaling cascades.…”
Wintergrazer-70 and Ganyin No1 are high-yield forage varieties suitable for cultivation in high-altitude areas of Tibet (4300 m above sea level). Ganyin No1 was developed from Wintergrazer-70, with the latter serving as its parent variety. Ganyin No1 was identified as a spring variety, and subsequent RNA sequencing was conducted. RNA sequencing analysis identified 4 differentially expressed genes related to vernalization and 28 genes related to photoperiod regulation. The Sc7296g5-i1G3 gene is related to the flowering inhibition of rye, which may be related to the phenotypic difference in the Ganyin No1 variety in winter and spring. This finding provides valuable insights for future research on Ganyin No1, especially in addressing feed shortages in Tibet during winter and spring.
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