Abstract
Litchi is an important woody fruit tree. Floral initiation in litchi is triggered by low temperatures. However, defective flowering is a major challenge for litchi production in times of climate change and global warming. Previous studies have shown that the reactive oxygen species (ROS) generated by methyl viologen dichloride hydrate (MV) promotes flowering. In this study, potted trees were transferred to growth chambers for low-temperature (LT), medium-temperature (MT), and high-temperature (HT) treatments. Trees at MT were subjected to ROS treatment to promote flowering, and those at LT were induced to flower. RNA-sequencing was applied to obtain a global transcriptome of the apical meristem and reveal potential gene networks controlling the transformation from vegetative meristems (VM) into inflorescence meristems (IM). We assembled 73,117 unigenes with a mean size of 790 bp and 11741 unigenes were identified as both chilling and ROS responsive genes (CRRGs), of which 48 were identified as flowering-related CRRGs, 59 were plant hormone signal transduction CRRGs, and 146 were plant hormone biosynthesis-related CRRGs. Genes co-expression network analysis indicated inner relationships, suggesting that ROS and chilling promotes the VM to IM transition through a regulatory gene network of transcription factors, hormones, and flowering regulators.
Highlights
Litchi is an evergreen fruit tree in southern Asia
Under MT conditions, the methyl viologen dichloride hydrate (MV)-generated reactive oxygen species (ROS) treatment increased the percentage of flowering trees 60%
The stressed plants do not need to wait for the arrival of a season when photoperiodic conditions are suitable for flowering, and such precocious flowering might be important for species preservation[17]
Summary
Litchi is an evergreen fruit tree in southern Asia. Floral initiation in litchi is triggered by low temperatures and enhanced by drought in autumn and winter[1, 2]. We have previously shown that ROS generated by viologen dichloride hydrate (MV) promotes flowering and increases the expression of LcAP1 in the floral buds at 18/13 °C (day/night), which is not low enough for the floral induction of litchi[11, 12], suggesting that ROS treatment could partially bypass the chilling effect, showing potential value for flowering control in the litchi industry. Treatments 0D L30D L75D M30D M75D MM30D MM75D H30D H75D the global genetic networks at the transcriptome level involved in the transformation from a vegetative meristem (VM) into an inflorescence meristem (IM) in most plant species, including litchi, are still poorly understood.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
