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Key gene to accelerate sugarcane growth is identified

Publicado em 02 janeiro 2019

Despite international breeding efforts, advanced agronomy and effective management of pests and diseases, sugarcane yields have been static for decades owing to constraints on culm development. The culm's sugar storage capacity is physically limited, restricting the volume of sucrose and biomass that can be obtained from the crop for sugar and second-generation (2G) ethanol production, according to experts in the area.

"Breaking through this developmental threshold by conventional breeding [crossing of varieties] is proving hard," said Professor Marcelo Menossi of the Department of Genetics, Evolution & Bioagents at the University of Campinas's Biology Institute (IB-UNICAMP) in Brazil.

Menossi - Collaboration - Students - Colleagues - Brazil Menossi, in collaboration with postgraduate students supervised by him and with colleagues at Brazil's National Bioethanol Science & Technology Laboratory (CTBE), Sugar Research Australia and Germany's Martin Luther University Halle-Wittenberg (MLU), found that the key to surmounting this constraint on sugarcane yield could lie in a gene called ScGAI.

In a study performed during a project linked to BIOEN, the Bioenergy Research Program from FAPESP—São Paulo Research Foundation, Menossi and collaborators discovered that ScGAI is an important regulator of culm development in sugarcane.

Activity - Gene - Sugarcane - Lines - Australia By manipulating the activity of this gene in transgenic sugarcane lines developed in Australia, the researchers succeeded in substantially increasing culm volume and changing the allocation of carbon to structural and storage molecules. They have now reported their findings in an article published in Journal of Experimental Botany.

"The sugarcane variety in which we altered the expression of ScGAI developed far more quickly. This means it should be possible to breed a variety of energy sugarcane that matures faster and has higher biomass production per unit of time," Menossi said.

Discovery - PhD - Research - Rafael - Garcia The discovery was derived from the Ph.D. research of Rafael Garcia Tavares, conducted at IB-UNICAMP under Menossi's supervision and with a scholarship from FAPESP.