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Structural insight into the human SID1 transmembrane family member 2 reveals its lipid hydrolytic activity

Dandan Qian, Ye Cong, Runhao Wang, Quan Chen (), Chuangye Yan () and Deshun Gong ()
Additional contact information
Dandan Qian: Nankai University
Ye Cong: Tsinghua University
Runhao Wang: Nankai University
Quan Chen: Nankai University
Chuangye Yan: Tsinghua University
Deshun Gong: Nankai University

Nature Communications, 2023, vol. 14, issue 1, 1-10

Abstract: Abstract The systemic RNAi-defective (SID) transmembrane family member 2 (SIDT2) is a putative nucleic acid channel or transporter that plays essential roles in nucleic acid transport and lipid metabolism. Here, we report the cryo-electron microscopy (EM) structures of human SIDT2, which forms a tightly packed dimer with extensive interactions mediated by two previously uncharacterized extracellular/luminal β-strand-rich domains and the unique transmembrane domain (TMD). The TMD of each SIDT2 protomer contains eleven transmembrane helices (TMs), and no discernible nucleic acid conduction pathway has been identified within the TMD, suggesting that it may act as a transporter. Intriguingly, TM3-6 and TM9-11 form a large cavity with a putative catalytic zinc atom coordinated by three conserved histidine residues and one aspartate residue lying approximately 6 Å from the extracellular/luminal surface of the membrane. Notably, SIDT2 can hydrolyze C18 ceramide into sphingosine and fatty acid with a slow rate. The information presented advances the understanding of the structure-function relationships in the SID1 family proteins.

Date: 2023
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DOI: 10.1038/s41467-023-39335-2

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