About Us
News
Announcement
Research
Conservation & Horticulture
Public Education
Graduate Study
Scientist
International Cooperation
Resources
Annual Reports
Publications & Papers
Visit XTBG
Societies
XTBG Seminar
Open Positions
4th XSBN Symposium
CAS-SEABRI
PFS-Tropical Asia
Links
 
   Location:Home > Research > Research Progress
Scion length determines efficiency of graft-transmitted JcFT for floral induction in Jatropha
Author: Tang Mingyong
ArticleSource:
Update time: 2021-09-14
Close
Text Size: A A A
Print

 

Flowering, which involves a developmental phase change from a vegetative state to a reproductive state, is of fundamental importance to the plant life cycle. In the model species Arabidopsis thaliana, the FLOWERING LOCUS T (FT) protein is transported from leaves to shoot apices and induces flowering. However, contradictory conclusions about floral induction via graft-transmitted FT in trees were reported in previous studies. 

In a study published in Tree Physiology, researchers from Xishuangbanna Tropical Botanical Garden (XTBG) demonstrated that Jatropha curcas florigens (JcFT proteins) can be transmitted by grafting to induce floral transition in woody perennial species of the Jatropha genus, and the efficiency of graft-transmitted JcFT for floral induction depends on the transporting distance. 

The researchers employed the extremely early-flowering transgenic J. curcas overexpressing JcFT driven by the phloem-specific A. thaliana SUCROSE TRANSPORTER 2 (SUC2) promote and the non-flowering transgenic J. curcas obtained by RNA interference (RNAi), together with five perennial woody species in genus Jatropha of the family Euphorbiaceae. 

They first investigated the functions of graft-transmitted JcFT in floral induction in woody perennial species of the Jatropha genus and found that JcFT was essential for floral initiation in J. curcas. 

They then grafted two-month-old shoots of four other Jatropha species onto wild types and SUC2:JcFT transgenic J. curcas seedlings, respectively. The results suggested that, by being transported from the rootstock to the scion, JcFT also functioned as a flowering accelerator in other woody perennial plant species of the Jatropha genus. 

They further found that graft-transmitted JcFT rescued the non-flowering phenotype of JcFT-RNAi transgenic J. curcas. The abundance of JcFT in the buds of the scions decreased with increasing scion length, and thus the efficiency of graft-transmitted JcFT for floral induction depended on scion length. 

 “Our findings may help explain previous seemingly contradictory observations regarding floral induction via graft-transmitted FT in trees,” said TANG Mingyong of XTBG. 

  

Contact 

TANG Mingyong Ph.D 

Key Laboratory of Tropical Plant Resources and Sustainable Use, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Menglun 666303, Yunnan, China                   

E-mail: tangmingyong@xtbg.ac.cn   

 

JcFT accelerates Jatropha flowering via grafting. (Image by TANG Mingyong) 

  Appendix Download
Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences. Menglun, Mengla, Yunnan 666303, China
Copyright XTBG 2005-2014 Powered by XTBG Information Center