Frost, abscisic acid, and desiccation hasten embryo development in Brassica napus

Seed development in canola (Brassica napus) following a mild nonlethal freeze was examined with respect to abscisic acid (ABA) levels, desiccation, and expression of LEA.76 and isocitrate lyase (ICL) transcripts. Plants with seed of 70 and 55% moisture contents were frozen to -5 degrees C for 3 hours, and seed development followed after thawing. In addition, similar processes were compared during induction of extreme desiccation tolerance by application of ABA in Brassica microspore-derived haploid embryos in culture. A mild freeze/thaw caused a premature switch in seed developmental direction from predesiccation to desiccation as indicated by an immediate and accelerated loss of seed moisture to levels similar to the mature seed in 7 instead of 35 days, and by elevated ABA levels and induction of low levels of LEA.76 and ICL transcripts. Similarly, addition of ABA to haploid embryos in culture resulted in the induction of desiccation tolerance and low levels of late embryogenesis-abundant (LEA) but not ICL transcripts. In contrast, normal seed development and desiccation of ABA-treated (desiccation-tolerant) embryos resulted in the induction of ICL and very high levels of LEA.76 transcripts. Similarly, desiccation of control (desiccation-sensitive) embryos resulted in very high levels of LEA.76 transcripts. These results indicate that although LEA-type proteins have been implicated in the development of desiccation tolerance, high transcript levels of LEA.76 were not observed in the induction of desiccation tolerance either by a hastening of the maturation process in the developing Brassica seed, or by the exogenous application of ABA to Brassica haploid embryos in culture