The BOOSTER gene in poplar trees boosts photosynthesis and biomass, with potential applications for improving crop yields. Researchers from the Center for Advanced Bioenergy and Bioproducts Innovation ...

A gene called Booster has been identified in poplar trees that boosts photosynthesis and growth by up to 200% in controlled ...

A team of scientists with two Department of Energy Bioenergy Research Centers have identified a gene in a poplar tree that ...

The trees showed up to 62% more Rubisco content, about a 25% increase in net leaf carbon dioxide uptake, as much as 37% ...

A team of scientists from the Center for Advanced Bioenergy and Bioproducts Innovation at the University of Illinois ...

杨树中的 BOOSTER ...

Scientists are engineering climate-resilient potatoes that thrive under extreme heatwave conditions, promising increased ...

A team has engineered potato to be more resilient to global warming showing 30% increases in tuber mass under heatwave conditions. This adaptation may provide greater food security for families ...

An Illinois team has engineered potatoes to be more resilient to global warming, showing 30 percent increases in tuber mass under heatwave conditions.

35亿年前，伴随蓝藻的诞生，光合作用登上了历史舞台，并牢牢占据着生物化学循环的C位。植物为了能最大程度的进行光合作用，可谓是耍尽花招，争奇斗艳。究其根本其竞争的本质是对光合作用的三要素：光、水和CO2的竞争。