The three dimensional structure of a protein determines its biological function. How a protein folds, however, has been the central research problem for decades. The intermediates on the folding paths, which the protein can assume transiently, are of particular interest as they not only reveal the structural dynamics of a...
Methanotrophs, bacteria that can metabolize methane, remain a promising solution to mitigating the effects of climate change by removing atmospheric methane and converting it to useful chemical precursors. However, a full understanding of the main enzyme they use to oxidize methane, particulate methane monooxygenase (pMMO), is critical for harnessing their...
Voltage-gated potassium (KV) currents play a crucial role in shaping and controlling the firing patterns that serve as the fundamental basis for the differential signal processing from the ear to the auditory cortex, with distinct firing patterns observed with high- and low-frequency phenotypes. This is an interesting phenomenon, in the...
DNA topoisomerases are enzymes present in all domains of life. They are responsible for maintaining the topological state of DNA in cells through supercoiling, relaxation, catenation, decatenation, knotting and unknotting. DNA gyrase is a unique topoisomerase, present mainly in bacteria that can introduce negative supercoils into DNA utilizing ATP hydrolysis....
Transfer of information across membranes is fundamental to the function of all organisms and is primarily initiated by transmembrane receptors. This is an allosteric process and involves conformational coupling between ligand-binding domain and signaling domain of a receptor. This allosteric mechanism of activation is unclear for many receptors. Moreover, for...
The last decade has witnessed a rapid transformation in our understanding of the structure of chromatin, the nuclear complex of DNA and its structural proteins. While, barring mutations, the DNA sequence in each cell of the human body is the same, it is the structure of the chromatin complex that...
The structural aspects of biological systems are tightly paired with their functions. This understanding has been demonstrated over a broad range of length scales, spanning the ultrastructure of a cell to the macroscopic architecture of organs. Connecting structure and function relies on the integration of physical and biological sciences to...
Pathogenic bacteria scavenge essential nutrients including metals, amino acids and peptides to survive within the hostile host environment. Bacteria utilize ATP-binding cassette (ABC) transporters, powered by the energy of ATP hydrolysis, to move substrates across cellular membranes. The substrate-binding protein (SBP) shuttles substrate in the periplasm and directs the substrate...
Store-operated Ca2+ entry through Orai1 channels mediate transcriptional, proliferative, and effector cell programs in many cells and are activated through a unique inside-out mechanism involving binding of the endoplasmic reticulum Ca2+ sensor, STIM1, to cytoplasmic sites on Orai1. Mutations in Orai1 that block channel activation or evoke constitutive channel activity...
Voltage-gated potassium (KV) currents play a crucial role in shaping and controlling the firing patterns that serve as the fundamental basis for the differential signal processing from the ear to the auditory cortex, with distinct firing patterns observed with high- and low-frequency phenotypes. This is an interesting phenomenon, in the...