Abstract
BackgroundCompared with annual herbaceous plants, woody perennials require a longer period of juvenile phase to flowering, and many traits can be only expressed in adulthood, which seriously makes the breeding efficiency of new varieties slower. For the study of poplar early flowering, the main focus is on the study Arabidopsis homologue gene CO/FT. Based on studies of Arabidopsis, rice and other plant species, some important research progress has been made on the regulation of flowering time by NF-Y subunits. However, little is known about the function of NF-Y regulating flowering in poplar.ResultsIn the present study, we have identified PtNF-YB family members in poplar and focus on the function of the PtNF-YB1 regulate flowering timing using transgenic Arabidopsis and tomato. To understand this mechanisms, the expression levels of three known flowering genes (CO, FT and SOC1) were examined with RT-PCR in transgenic Arabidopsis. We used the Y2H and BiFC to assay the interactions between PtNF-YB1 and PtCO (PtCO1 and PtCO2) proteins. Finally, the potential molecular mechanism model in which PtNF-YB1 play a role in regulating flowering in poplar was discussed.ConclusionsIn this study, we have characterized the poplar NF-YB gene family and confirmed the function of the PtNF-YB1 regulate flowering timing. At the same time, we found that the function of PtNF-YB1 to improve early flowering can overcome species barriers. Therefore, PtNF-YB1 can be used as a potential candidate gene to improve early flowering by genetic transformation in poplar and other crops.
Highlights
Compared with annual herbaceous plants, woody perennials require a longer period of juvenile phase to flowering, and many traits can be only expressed in adulthood, which seriously makes the breeding efficiency of new varieties slower
Identification of poplar PtNF-YBs In order to identify poplar analogs of PtNF-YB proteins, amino acid sequences of Arabidopsis and rice NF-YBs sequences were used to search against the Phytozome database Populus trichocarpa V3.0
The identified PtNF-YB genes in poplar encode proteins ranging from 143 to 295 amino acids in length with an average of 192 amino acids
Summary
Compared with annual herbaceous plants, woody perennials require a longer period of juvenile phase to flowering, and many traits can be only expressed in adulthood, which seriously makes the breeding efficiency of new varieties slower. Compared with annual herbaceous plants, woody perennials plants need longer juvenile phase to enter the flowering stage, and many traits can only be expressed in adulthood, which will seriously affect the breeding efficiency of woody plants. Promoting early flowering of trees and shortening their juvenile phase can effectively shorten the traditional cross breeding cycle, accelerate the breeding process, and increase the breeding efficiency [5]. The research on the mechanism of early-flower induction is the need to promote the development of forestry science, and the key to understanding the molecular mechanism of sexual reproduction in plants. Little is known about the physiological and genetic factors involving the flower induction in poplar
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