Molecular mechanisms of fowering under long days and stem growth habit in soybean

Abstract

Precise timing of fowering is critical to crop adaptation and productivity in a given environment. A number of classical E genes controlling flowering time and maturity have been identifed in soybean [Glycine max (L.) Merr.]. The public availability of the soybean genome sequence has accelerated the identifcation of orthologues of Arabidopsis flowering genes and their functional analysis, and has allowed notable progress towards understanding the molecular mechanisms of flowering in soybean. Great progress has been made particularly in identifying genes and modules that inhibit flowering in long-day conditions, because a reduced or absent inhibition of flowering by long daylengths is an essential trait for soybean, a short-day (SD) plant, to expand its adaptability toward higher latitude environments. In contrast, the molecular mechanism of floral induction by SDs remains elusive in soybean. Here we present an update on recent work on molecular mechanisms of flowering under long days and of stem growth habit, outlining the progress in the identifcation of genes responsible, the interplay between photoperiod and age-dependent miRNA-mediated modules, and the conservation and divergence in photoperiodic flowering and stem growth habit in soybean relative to other legumes, Arabidopsis, and rice (Oryza sativa L.).