RT Conference Proceedings
T1 Analysis of Arabidopsis SYT1 mutants and chimeras reveal insights about its dynamic and function on ER-PM MCS.
A1 Morello-López, Jorge
A1 Benítez-Fuente, Francisco
A1 Collado, Javier
A1 Fernández-Busnadiego, Rubén
A1 Ruiz-López, Noemí
A1 Botella-Mesa, Miguel Ángel
K1 Plantas - Efectos del estrés
K1 Estrés (Fisiología)
AB The endoplasmic reticulum (ER) extends throughout the cell and forms Membrane Contact Sites (MCS) with other organelles. MCS are essential for lipid transport, calcium signaling and organelle communication. In plants, ER-Plasma Membrane (ER-PM) MCS contain some proteins which, while being anchored to the ER, can attach with the PM through electrostatic interactions. Arabidopsis thaliana SYT1 is one of the most studied ER-PM tethers in plants, as it contributes to both biotic and abiotic stress tolerance.To study SYT1 dynamics and function, our group has generated Arabidopsis stable lines expressing mutant versions of SYT1, to remove SYT1 Ca2+ binding site (SYT1MutC2), and to cause a blockage of the SMP hydrophobic channel (SYT1MutSMP). Additionally, we generated chimeric versions of SYT1, switching the SMP domain by its analogue of human E-Syt1 and TMEM24 proteins (SYT1ESYT1 and SYT1TMEM24 respectively).Our results demonstrate that both SYT1MutC2 and SYT1MutSMP lines complement the cold and salt stress phenotypes of the syt1 mutant. On the other side, SYT1ESYT1 and SYTTMEM24 chimeras do not complement such phenotypes, which confirms the essential role of SYT1 SMP domain in cold and salt stress tolerance, as well as the functional differences of SYT1 SMP domain compared to E-Syt1 and TMEM24 SMP domains. Moreover, confocal analysis of SYT1MutC2 line evidenced an altered dynamic of SYT1 in terms of cortical ER relocalization upon prolonged salt stress treatment. Altogether, these findings indicate that SYT1 Ca2+ binding site is not essential for SYT1 salt stress tolerance, but influences SYT1 dynamics on salt-induced ER-PM MCS expansion.
YR 2023
FD 2023
LK https://hdl.handle.net/10630/27792
UL https://hdl.handle.net/10630/27792
LA spa
DS RIUMA. Repositorio Institucional de la Universidad de Málaga
RD 20 ene 2026