Successful field performance in dry-warm environments of soybean expressing the sunflower transcription factor HaHB4

RIBICHICH, K F; CHIOZZA, M; ÁVALOS-BRITEZ, S; CABELLO, J V; ARCE, A L; WATSON, G; ARIAS, C; PORTAPILA, M; TRUCCO, F; OTEGUI, M E; CHAN, R L

JOURNAL OF EXPERIMENTAL BOTANY

OXFORD UNIV PRESS

Año: 2020

0022-0957

Soybean yield is limited primarily by abiotic constraints. No transgenic soybean with improved abiotic-stress tolerance is available in the market. We transformed soybean plants with genetic constructs able to express the sunflower transcription factor HaHB4, which confers drought tolerance to Arabidopsis and wheat plants. One line (b10H) carrying the sunflower promoter was chosen among three independent lines because it exhibited the best performance in seed yield (SY). Such line was evaluated in the greenhouse and in twenty-seven field trials developed in different environments of Argentina. In greenhouse experiments, transgenic plants showed increased SY under stress conditions together with wider epycotyl diameter, enlarged xylem area and enhanced water use efficiency than controls. They also exhibited enhanced SY in warm-dry field conditions. This response was accompanied by the increased in seed number that was not compensated by the decreased in individual seed weight. The transcriptome analysis of plants from a field trial with maximum SY difference between genotypes indicated an induction of genes encoding redox and heat shock proteins in b10H. Collectively, our results indicate that soybeans transformed with HaHB4 are expected to have reduced SY penalization when cropped in warm-dry conditions, which constitute the best target environments for this technology.