Structural basis for substrate recognition mechanism of human SLC26A7

Solute carrier family 26 (SLC26) mainly mediates transmembrane transport of various anion ions, including chloride and other halide ions, bicarbonate, oxalate, and sulfate. Many severe hereditary human diseases are correlated with SLC26 protein mutations. Here we report cryo-EM structures of human S...

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Published inNature communications Vol. 16; no. 1; pp. 7600 - 10
Main Authors Li, Xiaorong, Yang, Xiaoxu, Lu, Xiaoli, Lin, Bingqian, Zhang, Yuanyuan, Huang, Bangdong, Zhou, Yutong, Huang, Jing, Wu, Kun, Zhou, Qiang, Chi, Ximin
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 15.08.2025
Nature Publishing Group
Nature Portfolio
Subjects
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Bicarbonates
Binding Sites
Chloride
Chlorides
Chlorides - metabolism
Congenital diseases
Cryoelectron Microscopy
HEK293 Cells
Humanities and Social Sciences
Humans
Iodides
Iodides - chemistry
Iodides - metabolism
Ions
Kidney stones
Molecular dynamics
Molecular Dynamics Simulation
multidisciplinary
Mutation
Nitrates
Protein Binding
Protein transport
Proteins
Recognition
Science
Science (multidisciplinary)
Substrate Specificity
Sulfate Transporters - chemistry
Sulfate Transporters - genetics
Sulfate Transporters - metabolism
Thyroid gland
Transmembrane proteins
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Summary:Solute carrier family 26 (SLC26) mainly mediates transmembrane transport of various anion ions, including chloride and other halide ions, bicarbonate, oxalate, and sulfate. Many severe hereditary human diseases are correlated with SLC26 protein mutations. Here we report cryo-EM structures of human SLC26A7 in apo and iodide binding states. We identify non-canonical binding site for halide ions in SLC26A7. Molecular dynamics simulation and electrophysiological assay confirm the functional importance of key residues involved in iodide and chloride coordination. Together, our discovery marks a step towards an in-depth understanding of SLC26 family protein transport mechanisms. Solute carrier family 26 (SLC26) mediates transmembrane transport of negatively charged ions. Here, the authors report cryo-EM structures of human SLC26A7 in apo and iodide binding states, providing insight into the ion recognition mechanism of SLC26 family proteins.
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ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-025-62792-w