Seed mucilage evolution: diverse molecular mechanisms generate versatile
ecological functions for particular environments
- Sébastien Viudes,
- Vincent Burlat,
- Christophe Dunand
Sébastien Viudes
Laboratoire de recherche en sciences vegetales
Corresponding Author:sebastien.viudes@lrsv.ups-tlse.fr
Author ProfileVincent Burlat
Laboratoire de recherche en sciences vegetales
Author ProfileChristophe Dunand
Laboratoire de recherche en sciences vegetales
Author ProfileAbstract
Polysaccharidic mucilage is a widespread plant trait with diverse
features, often present around plant structures in contact with the
environment, providing numerous functions including protection and
adhesion. Seed mucilage is released upon imbibition and therefore can
play roles in the early seedling stages, but the evolutionary origins of
this trait are unclear. Its presence in several flowering plant species
suggests that it was present in their last common ancestor whereas the
extreme inter-species morphological and chemical natural diversity
suggests multiple origins. Here, we summarize the recent advances on
molecular mechanisms and ecological functions underlying this inter- and
intra-species natural diversity. A master regulatory complex balancing
carbon partitioning in seed appears to be conserved among flowering
plants with a sequential evolution of its molecular components. At the
intra-species level, a high polymorphism was detected for a few genes in
relation to the observed morphological diversity. Historically, the
ecological functions of seed mucilage were mostly related to germination
and seed dissemination but recently some exosystemic functions were
uncovered such as soil micro-organism control and plant establishment
support. These recent advances enable drawing a clearer picture of the
seed mucilage evolution, the underlying molecular mechanisms, and the
associated ecological roles.