Xport-A functions as a chaperone by stabilizing the first 5 transmembrane domains of Rhodopsin-1

EMC is required for the biogenesis of Xport-A in mammalian cells. A

EMC is required for biogenesis of Xport‐A, an essential chaperone of Rhodopsin‐1 and the TRP channel

Solubilization and Stabilization of Membrane Proteins by Cycloalkane-Modified Amphiphilic Polymers

Deletion of Emc1 in photoreceptor cells causes retinal degeneration in mice - Li - 2023 - The FEBS Journal - Wiley Online Library

Deletion of Emc1 in photoreceptor cells causes retinal degeneration in mice - Li - 2023 - The FEBS Journal - Wiley Online Library

Xport-A functions as a chaperone by stabilizing the first 5 transmembrane domains of Rhodopsin-1

EMC is required for biogenesis and membrane insertion of Xport-A, an essential chaperone of rhodopsin-1 and the TRP channel

Molecular modeling of wild-type Drosophila Rhodopsin 1. a, model of

PDF) Xport-A functions as a chaperone by stabilizing the first 5 transmembrane domains of Rhodopsin-1

Biomolecules, Free Full-Text

Overall JSR1 structure in complex with 9-cis retinal. (A) Overall

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Advancing synthetic biology through cell-free protein synthesis - Computational and Structural Biotechnology Journal

PDF) Xport-A functions as a chaperone by stabilizing the first five transmembrane domains of rhodopsin-1

Rhodopsin biosynthesis defects in santa maria¹. (A) Previously proposed