1. Post-transcriptional Regulation of FLOWERING LOCUS T Modulates Heat-Dependent Source-Sink Development in Potato
- Author
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Uwe Sonnewald, Sophia Sonnewald, Csaba Hornyik, Günter G. Lehretz, and José M. Corral
- Subjects
0301 basic medicine ,Small RNA ,Hot Temperature ,Transgene ,Biology ,General Biochemistry, Genetics and Molecular Biology ,03 medical and health sciences ,0302 clinical medicine ,Downregulation and upregulation ,Gene Expression Regulation, Plant ,Gene silencing ,Post-transcriptional regulation ,Plant Proteins ,Solanum tuberosum ,Messenger RNA ,Base Sequence ,fungi ,food and beverages ,Meristem ,Plants, Genetically Modified ,Phenotype ,Cell biology ,Plant Tubers ,030104 developmental biology ,RNA, Plant ,General Agricultural and Biological Sciences ,030217 neurology & neurosurgery - Abstract
Summary Understanding tuberization in the major crop plant potato (Solanum tuberosum L.) is of importance to secure yield even under changing environmental conditions. Tuber formation is controlled by a homolog of the floral inductor FLOWERING LOCUS T, referred to as SP6A. To gain deeper insights into its function, we created transgenic potato plants overexpressing a codon-optimized version of SP6A, SP6Acop, to avoid silencing effects. These plants exhibited extremely early tuberization at the juvenile stage, hindering green biomass development and indicating a tremendous shift in the source sink balance. The meristem identity was altered in dormant buds of transgenic tubers. This strong phenotype, not being reported so far for plants overexpressing an unmodified SP6A, could be due to post-transcriptional regulation. In fact, a putative SP6A-specific small regulatory RNA was identified in potato. It was effectively repressing SP6A mRNA accumulation in transient assays as well as in leaves of young potato plants prior to tuber formation. SP6A expression is downregulated under heat, preventing tuberization. The molecular mechanism has not been elucidated yet. We showed that this small RNA is strongly upregulated under heat. The importance of the small RNA was demonstrated by overexpression of a target mimicry construct, which led to an increased SP6A expression, enabling tuberization even under continuous heat conditions, which abolished tuber formation in the wild-type. Thus, our study describes an additional regulatory mechanism for SP6A besides the well-known pathway that integrates both developmental and environmental signals to control tuberization and is therefore a promising target for breeding of heat-tolerant potato.
- Published
- 2018