Outputs (2)

Low-temperature and circadian signals are integrated by the sigma factor SIG5 (2023)
Journal Article
Cano-Ramirez, D. L., Panter, P. E., Takemura, T., de Fraine, T. S., de Barros Dantas, L. L., Dekeya, R., …Dodd, A. N. (2023). Low-temperature and circadian signals are integrated by the sigma factor SIG5. Nature Plants, 9(4), 661-672. https://doi.org/10.1038/s41477-023-01377-1

Chloroplasts are a common feature of plant cells and aspects of their metabolism, including photosynthesis, are influenced by low-temperature conditions. Chloroplasts contain a small circular genome that encodes essential components of the photosynth... Read More about Low-temperature and circadian signals are integrated by the sigma factor SIG5.

Cell-wall fucosylation in Arabidopsis influences control of leaf water loss and alters stomatal development and mechanical properties (2023)
Journal Article
Panter, P. E., Seifert, J., Dale, M., Pridgeon, A. J., Hulme, R., Ramsay, N., Contera, S., & Knight, H. (2023). Cell-wall fucosylation in Arabidopsis influences control of leaf water loss and alters stomatal development and mechanical properties. Journal of Experimental Botany, 74(8), 2680-2691. https://doi.org/10.1093/jxb/erad039

The Arabidopsis sensitive-to-freezing8 (sfr8) mutant exhibits reduced cell-wall (CW) fucose levels and compromised freezing tolerance. To examine whether CW fucosylation affects the response to desiccation also, we tested the effect of leaf excision... Read More about Cell-wall fucosylation in Arabidopsis influences control of leaf water loss and alters stomatal development and mechanical properties.