Sucrose metabolism and candidate genes during catkin fibers development in poplar

Abstract

AbstractPoplar is an important tree species for ecological protection, wood production, bioenergy and urban greening; it has been widely planted worldwide. However, the catkin fibers produced by female poplars can cause environmental pollution and safety hazards during spring. This study focused onPopulus tomentosa, and revealed the sucrose metabolism regulatory mechanism of catkin fibers development from morphological, physiological and molecular aspects. Paraffin section suggested that poplar catkin fibers were not seed hairs and produced from the epidermal cells of funicle and placenta. Sucrose degradation via invertase and sucrose synthase played the dominant role during poplar catkin fibers development. The expression patterns revealed that sucrose metabolism-related genes played important roles during catkin fibers development. Y1H analysis indicated that there was a potential interaction betweensucrose synthase 2 (PtoSUS2)/vacuolar invertase 3 (PtoVIN3)and MYB/ bHLH transcription factors in poplar. Finally, the two key genes,PtoSUS2andPtoVIN3, had roles inArabidopsistrichome density, indicating that sucrose metabolism is important in poplar catkin fibers development. This study is not only helpful for clarifying the mechanism of sucrose regulation during trichome development in perennial woody plants, but also establishes a foundation to solve poplar catkin fibers pollution through genetic engineering methods.HighlightSucrose degradation via invertase and sucrose synthase plays an important role in poplar catkin fibers development, andPtoSUS2andPtoVIN3are potential promising targets to solve poplar catkin fibers pollution.