Investigating the genetic components of tuber bruising in a breeding population of tetraploid potatoes.

Background: Tuber bruising in tetraploid potatoes (Solanum tuberosum) is a trait of economic importance, as it affects tubers' fitness for sale. Understanding the genetic components affecting tuber bruising is a key step in developing potato lines with increased resistance to bruising. As the tetraploid setting renders genetic analyses more complex, there is still much to learn about this complex phenotype.

In vivo single-molecule analysis reveals COOLAIR RNA structural diversity.

Cellular RNAs are heterogeneous with respect to their alternative processing and secondary structures, but the functional importance of this complexity is still poorly understood. A set of alternatively processed antisense non-coding transcripts, which are collectively called COOLAIR, are generated at the Arabidopsis floral-repressor locus FLOWERING LOCUS C (FLC). Different isoforms of COOLAIR influence FLC transcriptional output in warm and cold conditions.

Natural temperature fluctuations promote regulation of .

Plants monitor many aspects of their fluctuating environments to help align their development with seasons. Molecular understanding of how noisy temperature cues are registered has emerged from dissection of vernalization in , which involves a multiphase cold-dependent silencing of the floral repressor locus (). Cold-induced transcriptional silencing precedes a low probability PRC2 epigenetic switching mechanism.

The epigenetic regulator ICU11 as an accessory protein of Polycomb Repressive Complex 2.

Molecular mechanisms enabling the switching and maintenance of epigenetic states are not fully understood. Distinct histone modifications are often associated with ON/OFF epigenetic states, but how these states are stably maintained through DNA replication, yet in certain situations switch from one to another remains unclear. Here, we address this problem through identification of INCURVATA11 (ICU11) as a Polycomb Repressive Complex 2 accessory protein.

Absence of warmth permits epigenetic memory of winter in Arabidopsis.

Plants integrate widely fluctuating temperatures to monitor seasonal progression. Here, we investigate the temperature signals in field conditions that result in vernalisation, the mechanism by which flowering is aligned with spring. We find that multiple, distinct aspects of the temperature profile contribute to vernalisation.