Structures of the human mitochondrial ribosome bound to EF-G1 reveal distinct features of mitochondrial translation elongation
Ravi Kiran Koripella, Manjuli R. Sharma, Kalpana Bhargava, Partha P. Datta, Prem S. Kaushal, Pooja Keshavan, Linda Spremulli, Nilesh K. Banavali, Rajendra K. Agrawal
Abstract
Abstract The mammalian mitochondrial ribosome (mitoribosome) and its associated translational factors have evolved to accommodate greater participation of proteins in mitochondrial translation. Here we present the 2.68–3.96 Å cryo-EM structures of the human 55S mitoribosome in complex with the human mitochondrial elongation factor G1 (EF-G1 mt ) in three distinct conformational states, including an intermediate state and a post-translocational state. These structures reveal the role of several mitochondria-specific (mito-specific) mitoribosomal proteins (MRPs) and a mito-specific segment of EF-G1 mt in mitochondrial tRNA (tRNA mt ) translocation. In particular, the mito-specific C-terminal extension in EF-G1 mt is directly involved in translocation of the acceptor arm of the A-site tRNA mt . In addition to the ratchet-like and independent head-swiveling motions exhibited by the small mitoribosomal subunit, we discover significant conformational changes in MRP mL45 at the nascent polypeptide-exit site within the large mitoribosomal subunit that could be critical for tethering of the elongating mitoribosome onto the inner-mitochondrial membrane.