ABSTRACT
Global crop production is being challenged by rapid population growth, declining natural resources, and dramatic climatic turnovers. These challenges have prompted plant breeders to explore new ventures to enhance adaptation and sustainability in crops. One intriguing approach to make agriculture more sustainable is by turning annual systems into perennial which offers many economic and biodiversity-friendly benefits. Previous attempts to develop a perennial cereal crop employed a classical breeding approach and extended over a long period with limited success. Thus, elucidating the genetic basis of perenniality at the molecular level can accelerate the breeding process.
Here, we investigated the genetic basis of bulb formation in the barley congener species Hordeum bulbosum by elucidating the transcripts presence/absence variation compared with other annual species in the Poaceae, and a differential expression analysis of meristem tissues. The PAV analysis recaptured the expected phylogeny and indicated that H. bulbosum is enriched with developmental and disease responsive genes that are absent among annual species. Next, the abundance of transcripts was quantified and allowed to identify differentially expressed genes that are associated with bulb formation pathways in addition to major circadian clock genes that regulate flowering. A first model for the bulb formation pathway is suggested and include developmental and starch biosynthesis genes. To the best of our knowledge this is the first transcriptome developed for H. bulbosum and the first attempt to describe the regulation of bulb initiation in cereals at the molecular level.
Competing Interest Statement
The authors have declared no competing interest.