Integrated analysis of the physiology, RNA, and microRNA involved in black locust (Robinia pseudoacacia) rejuvenation

Abstract: Background Rejuvenation is a key process that enables perennial woody plants to regain growth potential. In Robinia pseudoacacia plantations, natural root sprouting individuals provide good material for studying the rejuvenation of woody plants. However, the physiological differences and molecular mechanisms underlying black locust rejuvenation remain unclear. In this study, we compared the physiological conditions and molecular responses of rejuvenated individuals and mother trees. Results Our analysis of … Show more

“…R. pseudoacacia is native to North America and was first introduced to China in 1877 [1]. R. pseudoacacia possesses the most significant ecological and economic characteristics, including excellent coppicing, fast growth, high yield, and adaptability to a wide range of environments [2].…”

“…Thus, the current study was conducted to control the adventitious root formation in etiolated hypocotyls of R. pseudoacacia. The key objectives of this study were: (1) to investigate the histological changes of adventitious root formation; (2) to elucidate the molecular mechanism for adventitious root formation; and (3) to identify the genes involved in enriched pathways. High throughput sequencing analysis was conducted to monitor the global changes occurring at the gene expression levels during adventitious root formation in R. pseudoacacia.…”

Transcriptomic and Anatomic Profiling Reveal Etiolation Promotes Adventitious Rooting by Exogenous Application of 1-Naphthalene Acetic Acid in Robinia pseudoacacia L.

“…R. pseudoacacia is native to North America and was first introduced to China in 1877 [1]. R. pseudoacacia possesses the most significant ecological and economic characteristics, including excellent coppicing, fast growth, high yield, and adaptability to a wide range of environments [2].…”

“…Thus, the current study was conducted to control the adventitious root formation in etiolated hypocotyls of R. pseudoacacia. The key objectives of this study were: (1) to investigate the histological changes of adventitious root formation; (2) to elucidate the molecular mechanism for adventitious root formation; and (3) to identify the genes involved in enriched pathways. High throughput sequencing analysis was conducted to monitor the global changes occurring at the gene expression levels during adventitious root formation in R. pseudoacacia.…”

Transcriptomic and Anatomic Profiling Reveal Etiolation Promotes Adventitious Rooting by Exogenous Application of 1-Naphthalene Acetic Acid in Robinia pseudoacacia L.