SASH1 is a novel binding partner to disassemble Caskin1 tandem SAM homopolymer through heterogeneous SAM-SAM interaction.

Calcium/calmodulin-dependent serine protein kinase (CASK) interaction protein 1/2 (Caskin1/2) is essential neuronal synaptic scaffold protein in nervous system development. Knockouts of Caskin1/2 display severe deficits in novelty recognition and spatial memory. The tandem sterile alpha motif (SAM) domains of Caskin1/2, also conserved in their Drosophila homolog Ckn, are known to form homopolymers, yet their dynamic regulation mechanism remains unclear.

Inhibition and transport mechanisms of the ABC transporter hMRP5.

Human multidrug resistance protein 5 (hMRP5) effluxes anticancer and antivirus drugs, driving multidrug resistance. To uncover the mechanism of hMRP5, we determine six distinct cryo-EM structures, revealing an autoinhibitory N-terminal peptide that must dissociate to permit subsequent substrate recruitment. Guided by these molecular insights, we design an inhibitory peptide that could block substrate entry into the transport pathway.

Structural characteristics of alpha-fetoprotein, including N-glycosylation, metal ion and fatty acid binding sites.

Alpha-fetoprotein (AFP), a serum glycoprotein, is expressed during embryonic development and the pathogenesis of liver cancer. It serves as a clinical tumor marker, function as a carcinogen, immune suppressor, and transport vehicle; but the detailed AFP structural information has not yet been reported. In this study, we used single-particle cryo-electron microscopy(cryo-EM) to analyze the structure of the recombinant AFP obtained a 3.

Structure and transport mechanism of the human calcium pump SPCA1.

Secretory-pathway Ca-ATPases (SPCAs) play critical roles in maintaining Ca homeostasis, but the exact mechanism of SPCAs-mediated Ca transport remains unclear. Here, we determined six cryo-electron microscopy (cryo-EM) structures of human SPCA1 (hSPCA1) in a series of intermediate states, revealing a near-complete conformational cycle. With the aid of molecular dynamics simulations, these structures offer a clear structural basis for Ca entry and release in hSPCA1.

Uniform thin ice on ultraflat graphene for high-resolution cryo-EM.

Cryo-electron microscopy (cryo-EM) visualizes the atomic structure of macromolecules that are embedded in vitrified thin ice at their close-to-native state. However, the homogeneity of ice thickness, a key factor to ensure high image quality, is poorly controlled during specimen preparation and has become one of the main challenges for high-resolution cryo-EM. Here we found that the uniformity of thin ice relies on the surface flatness of the supporting film, and developed a method to use ultraflat graphene (UFG) as the support for cryo-EM specimen preparation to achieve better control of vitreous ice thickness.

Cryo-EM structure shows how two IGF1 hormones bind to the human IGF1R receptor.

IGF1R plays an important role in regulating cellular metabolism and cell growth, and has been identified as an anti-cancer and diabetes drug target. Although research have been reported many crystal and cryo-EM structures of IGF1R, the mechanism of ligand binding remains controversial, mainly because the structure differences among its cryo-EM, crystal and homologous protein insulin receptor structures. Here, we further determined one new high-resolution symmetric cryo-EM structure of ligand-bound IGF1R and be the first to prove that the receptor could bind to two IGFI molecules by single particle cryo-electron microscopy.

Cryo-EM structure studies of the human VPS10 domain-containing receptor SorCS3.

The human VPS10 domain-containing receptor SorCS3 belongs to the Vps10p-domain receptor family and is an important receptor for regulating normal cellular functions via protein sorting. Here, we determined the cryo-EM structure of the full-length SorCS3 receptor and further found that there were at least three distinct conformations (monomer, M-shaped dimer and N-shaped dimer) of SorCS3 in the apo state. The differences between the two dimer conformations were caused by PKD1-2 assembly.

Cryo-EM studies of the apo states of human IGF1R.

IGF1R plays an important role in regulating cellular metabolism and growth. As a single transmembrane protein, its structure is flexible. Although previous studies revealed some structures of IGF1R, the cryo-EM apo structures of the receptor have never been reported.

Cryo-EM Structure Reveals Polymorphic Ligand-bound States of IGF1R.

Type 1 insulin-like growth factor receptor (IGF1R) plays an important role in regulating cellular metabolism and cell growth and has been identified as an anticancer drug target. Although previous studies have revealed some structures of IGF1R with different ligands, the continuous dynamic conformation change remains unclear. Here, we report 10 distinct structures (7.

Cryo-EM structures reveal distinct apo conformations of sortilin-related receptor SORLA.

Sorting-related receptor with A-type repeats (SORLA) is an important receptor for regulating normal cellular functions via protein sorting. Here, we determined the structures of the full-length SORLA and identified two distinct conformations of apo-SORLA using single-particle cryogenic electron microscopy. In contrast to homologous proteins, both monomer and dimer forms of SORLA existed in a neutral solution.