Dongliang Liu scite author profile

Voltage-gated sodium channel Nav1.7 represents a promising target for pain relief. Here we report the cryo–electron microscopy structures of the human Nav1.7-β1-β2 complex bound to two combinations of pore blockers and gating modifier toxins (GMTs), tetrodotoxin with protoxin-II and saxitoxin with huwentoxin-IV, both determined at overall resolutions of 3.2 angstroms. The two structures are nearly identical except for minor shifts of voltage-sensing domain II (VSDII), whose S3-S4 linker accommodates the two GMTs in a similar manner. One additional protoxin-II sits on top of the S3-S4 linker in VSDIV. The structures may represent an inactivated state with all four VSDs “up” and the intracellular gate closed. The structures illuminate the path toward mechanistic understanding of the function and disease of Nav1.7 and establish the foundation for structure-aided development of analgesics.

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Structures of the human spliceosomes before and after release of the ligated exon

Zhang

Zhan

Yan

et al. 2019

Cell Res

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Pre-mRNA splicing is executed by the spliceosome, which has eight major functional states each with distinct composition. Five of these eight human spliceosomal complexes, all preceding exon ligation, have been structurally characterized. In this study, we report the cryo-electron microscopy structures of the human post-catalytic spliceosome (P complex) and intron lariat spliceosome (ILS) at average resolutions of 3.0 and 2.9 Å, respectively. In the P complex, the ligated exon remains anchored to loop I of U5 small nuclear RNA, and the 3′-splice site is recognized by the junction between the 5′-splice site and the branch point sequence. The ATPase/helicase Prp22, along with the ligated exon and eight other proteins, are dissociated in the P-to-ILS transition. Intriguingly, the ILS complex exists in two distinct conformations, one with the ATPase/helicase Prp43 and one without. Comparison of these three late-stage human spliceosomes reveals mechanistic insights into exon release and spliceosome disassembly.

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Structures of the Human Spliceosomes Before and After Release of the Ligated Exon

Zhang

Zhan

Yan

et al. 2018

Preprint

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Pre-mRNA splicing is executed by the spliceosome, which has eight major functional states each with distinct composition. Five of these eight human spliceosomal complexes, all preceding exon ligation, have been structurally characterized. In this study, we report the cryo-electron microscopy structures of the human post-catalytic spliceosome (P complex) and intron lariat spliceosome (ILS) at average resolutions of 3.0 and 2.9 Å, respectively. In the P complex, the ligated exon remains anchored to loop I of U5 small nuclear RNA, and the 3'-splice site is recognized by the junction between the 5'-splice site and the branch point sequence. The ATPase/helicase Prp22, along with the ligated exon and eight other proteins, are dissociated in the P-to-ILS transition. Intriguingly, the ILS complex exists in two distinct conformations, one with the ATPase/helicase Prp43 and one without. Comparison of these three late-stage human spliceosomes reveals mechanistic insights into exon release and spliceosome disassembly.

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Dongliang Liu

Structures of human Na _v 1.7 channel in complex with auxiliary subunits and animal toxins

Structures of the human spliceosomes before and after release of the ligated exon

Structures of the Human Spliceosomes Before and After Release of the Ligated Exon

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Dongliang Liu

Structures of human Na v 1.7 channel in complex with auxiliary subunits and animal toxins

Structures of the human spliceosomes before and after release of the ligated exon

Structures of the Human Spliceosomes Before and After Release of the Ligated Exon

Contact Info

Product

Resources

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Structures of human Na _v 1.7 channel in complex with auxiliary subunits and animal toxins