Conserved gene modules regulate light signals in algae and plants

• Autores: Pedro de los Reyes Rodríguez, M. Teresa Ruiz, Gloria Serrano Bueno, Francisco José Romero Campero, José M. Romero, Federico Valverde Albacete
• Localización: Biosaia: Revista de los másteres de Biotecnología Sanitaria y Biotecnología Ambiental, Industrial y Alimentaria, ISSN-e 2254-3821, Nº. 9, 2020
• Idioma: inglés
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• Resumen

  • In the Plant Development Unit (PDU) we aim to discover mechanisms that allowed photosynthetic organisms to reach the level of developmental complexity shown today. Plants are particularly good models as they have been evolving as light autotrophs for millions of years, ever since the first bacteria developed oxygenic photosynthesis and killed 99% of existing species in the process. But light is not only the main source of energy for plants, it is also one of the main regulators of their development, as endo-symbiotic cyanobacteria (chloroplasts) perfected their physiological synchronization with the emerging eukaryotes . Another important aspect of plant evolution was the transit to the aerial world and the acquisition of characteristics that allowed them to successfully colonise this new habitat. In the PDU we have followed the evolution of the day length response (photoperiod) that coordinates the daily physiological activities of plants and can be also used to regulate seasonal behaviours such as winter recesses or flowering time.

    When gene expression networks from photoperiod experiments from microalgae, bryophytes and higher plants are compared, a common nodular structure is discovered. Following these discoveries, we have isolated ancestor algal genes that show the same function as higher plants in the response to photoperiod such as the CONSTANS-DOF module. We are currently investigating common regulatory mechanisms in photoperiod sensing such as the effect on the circadian clock, senescence, retrograde signalling and protein stability.

• Referencias bibliográficas
  • Ku, C et al. (2015) Endosymbiotic gene transfer from prokaryotic pangenomes: Inherited chimerism in eukaryotes. PNAS 112, 10139.
  • Morris, JL et al. (2018) The timescale of early land plant evolution. PNAS 115, E2274.
  • Serrano-Bueno, G et al. (2017) Evolution of photoperiod sensing in plants and algae. Current Opin Plant Biol 37, 10.
  • Romero-Campero, JA et al. (2013) A contribution to the study of plant development evolution based on gene co-expression networks. Front Plant...
  • Lucas-Reina, E et al. (2015) An evolutionarily conserved DOF-CONSTANS module controls plant photoperiodic signalling. Plant Phys 168, 561.
  • Gabillly, ST et al. (2019) regulation of photoprotection gene expression in Chlamydomonas by a putative E3 ubiquitin ligase complex and a...
  • Serrano-Bueno, G. et al. (2019) CONSTANS-FKBP12 interaction contributes to modulate photoperiodic flowering in Arabidopsis. The Plant Journal...