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Listar por autor "Morello-López, Jorge"
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Analysis of Arabidopsis SYT1 mutants and chimeras reveal insights about its dynamic and function on ER-PM MCS.
Morello-López, Jorge; Benítez-Fuente, Francisco; Collado, Javier; Fernández-Busnadiego, Rubén; Ruiz-López, Noemí; Botella-Mesa, Miguel Ángel[et al.] (2023)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, ... -
Identification of NTMC2T5, a new lipid transfer protein family at ER-chloroplast contact sites involved in stress response
Huércano Rubens, Carolina; Percio-Vargas, Francisco; Sánchez-Vera, Victoria; Morello-López, Jorge; Salas-Liñán, Joaquín J; Ruiz-López, Noemí[et al.] (2022-09)Plants are sessile organisms and they have perfected a complex molecular signalling network to detect and respond to different environmental stresses. In plants, fatty acid synthesis takes place at chloroplasts, and they ... -
Localization and characterization of SMP-containing proteins in Membrane Contact Sites
Huércano Rubens, Carolina; Sánchez-Vera, Victoria; Percio-Vargas, Francisco; Morello-López, Jorge; Botella-Mesa, Miguel Ángel; Ruiz-López, Noemí[et al.] (2021)Membrane contact sites (MCS) are discrete regions where two membranes from different organelles are closely apposed (10-30 nm). In those regions, non-vesicular transfer of lipids takes place to ensure proper organelle ... -
NTMC2T5 protein family: newly identified ER-chloroplast contact site proteins involved in abiotic stress.
Morello-López, Jorge; Salas-Liñán, Joaquín J; Ruiz-López, Noemí; Huércano Rubens, Carolina (2022-08)Plants are sessile organisms and therefore they have perfected a complex molecular signalling network to detect and respond to the different environmental stresses such as high temperatures, salinity, or drought. In plants, ... -
NTMC2T5: lipid transfer proteins at ER-chloroplast contact sites involved in plant stress.
Huércano Rubens, Carolina; Morello-López, Jorge; Salas-Liñán, Joaquín J; Ruiz-López, Noemí (2022-09)Chloroplasts are the site of fatty acid synthesis in plants; however, these fatty acids are assembled into glycerolipids at the ER. Later on, some of these ER-assembled glycerolipids will be transferred back to the ... -
NTMC2T5: newly identified lipid transfer proteins at ER-chloroplast contact sites.
Salas-Liñán, Joaquín J; Cuevas Corral, Oliver; Morello-López, Jorge; Ruiz-López, Noemí; Huércano Rubens, Carolina (2022)In plants, fatty acid synthesis takes place at chloroplasts, and they are assembled into glycerolipids and sphingolipids at the endoplasmic reticulum (ER). Then, the newly synthetized lipids in the ER are delivered to ... -
SMP-containing proteins at membrane contact sites: subcellular localization and characterization.
Huércano Rubens, Carolina; Percio-Vargas, Francisco; Sánchez-Vera, Victoria; Morello-López, Jorge; Botella-Mesa, Miguel Ángel; Ruiz-López, Noemí[et al.] (2021)Membrane contact sites (MCS) are microdomains where two membranes of two different organelles are in close apposition, but they do not fuse. MCS are essential for non-vesicular transport of lipids. This lipid transport is ... -
SYT6 protein role in Arabidopsis thaliana contact sites.
Moya-Barrientos, Miriam; Huércano Rubens, Carolina; Morello-López, Jorge; Cardeñas Echevarría, Carlos; Boutté, Yohann; Sánchez-Vera, Victoria; Ruiz-López, Noemí[et al.] (2024)The SYT6 protein from A. thaliana (AT3G18370) has recently been identified as a lipid transfer protein localized at membrane contact sites (MCS). MCS are regions where membranes of two organelles closely approach without ... -
SYT6: a newly identified protein involved in ER - trans-Golgi network Membrane Contact Sites
SYT6 is a newly identified lipid transport protein from ER - trans-Golgi network Membrane Contact Sites. Our results show that: • SYT6 contacts trans-Golgi network vesicles through its coiled-coil domain. • SYT6 can ...