Research links micronutrient copper with pollen fertility and seed/grain yield
The global demand for high-yield crops is increasing with growing population and decreasing farmland resources. These trends force the utilization of marginal lands for agricultural purposes. The bioavailability of essential mineral nutrients such as copper in these soils is often low, causing the reduced crop growth and fertility, and consequently low grain yield or even total crop failure. Although copper is recognized as an essential micronutrient for plant fertility, scientists still do not completely know which reproductive structures of plants require copper, how copper is delivered there and how copper transport processes are regulated. These questions are currently being addressed in the Vatamaniuk lab using model plants Arabidopsis thaliana and Brachypodium distachyon as well as a crop species, wheat, Triticum aestivum.
In studies using A. thaliana, the Vatamaniuk research group identified a new protein, CITF1, whose transcript accumulates in A. thaliana flowers during periods of copper deficiency. CITF1 acts as a transcription regulator: it regulates copper uptake into the roots and its delivery to flowers, working in tandem with SPL7 that is the central regulator of copper homeostasis in this plant species. When SPL7 and CITF1 do not function, as in the citf1 spl7 double mutant, its seedlings die and its pollen becomes infertile. Working with CHESS scientist, Rong Huang, at F3 beamline, a member of the Vatamaniuk research group, Ju-Chen Chia has shown that the sites of pollen production, anthers of flowers, accumulate the majority of the absorbed copper in A. thaliana. Huang and Chia also showed that copper accumulation was somewhat lower in anthers and carpels of the citf1 mutant and was further reduced in anthers and carpels of the spl7 mutant compared to wild-type plants (Fig. 1). They also showed that the majority of anthers of the citf1 spl7 double mutant lacked copper and that this deficiency resulted in pollen infertility.