Experimental Investigations on the Structure of Yeast Mitochondrial Pyruvate Carriers.

Mitochondrial pyruvate carrier (MPC) transports pyruvate from the cytoplasm into the mitochondrial matrix to participate in the tricarboxylic acid (TCA) cycle, which further generates the energy for the physiological activities of cells. Two interacting subunits, MPC1 and MPC2 or MPC3, form a heterodimer to conduct transport function. However, the structural basis of how the MPC complex transports pyruvate is still lacking.

DNA-Mediated Assembly of Multispecific Antibodies for T Cell Engaging and Tumor Killing.

Targeting T-cells against cancer cells is a direct means of treating cancer, and has already shown great responses in clinical treatment of B-cell malignancies. A simple way to redirect T-cells to cancer cells is by using multispecific antibody (MsAb) that contains different arms for specifically "grabbing" the T-cells and cancer cells; as such, the T-cells are activated upon target engagement and the killing begins. Here, a nucleic acid mediated protein-protein assembly (NAPPA) approach is implemented to construct a MsAb for T-cell engaging and tumor killing.

Specific Lipid Binding of Membrane Proteins in Detergent Micelles Characterized by NMR and Molecular Dynamics.

Many membrane proteins bind specifically to lipids as an integral component of their structures. The ability of detergents to support lipid binding is thus an important consideration when solubilizing membrane proteins for structural studies. In particular, the zwitterionic phosphocholine (PC)-based detergents, which have been widely used in solution NMR studies of channels and transporters, are controversial because of their strong solubilization power and thus perceived as more denaturing than nonionic detergents such as the maltosides.

Substrate-modulated ADP/ATP-transporter dynamics revealed by NMR relaxation dispersion.

The ADP/ATP carrier (AAC) transports ADP and ATP across the inner mitochondrial membrane. Unlike most transporters, which have two-fold direct or inverted quasisymmetry, AAC has apparent three-fold rotational symmetry. Further, its transport rate is relatively fast for transporters that carry large solutes.

Molecular Basis of MgATP Selectivity of the Mitochondrial SCaMC Carrier.

The mitochondrial matrix is the supplier of cellular ATP. The short Ca(2+)-binding mitochondrial carrier (SCaMC) is one of the two mitochondrial carriers responsible for transporting ATP across the mitochondrial inner membrane. While the ADP/ATP carrier (AAC) accounts for the bulk ADP/ATP recycling in the matrix, the function of SCaMC is important for mitochondrial activities that depend on adenine nucleotides, such as gluconeogenesis and mitochondrial biogenesis.