How Do You Spell PROTEIN ALPHA HELICAL CONFORMATION?

1. The protein alpha helical conformation refers to the specific three-dimensional structure adopted by a polypeptide chain, characterized by its secondary structure in which the backbone forms a stable helical coil. This conformation is commonly found in proteins and is one of the main structural motifs.

   In an alpha helix, the polypeptide chain is coiled in a right-handed spiral with the backbone forming the central axis of the helix. The helical coil is stabilized by hydrogen bonding between the carbonyl oxygen atom of one residue and the amide hydrogen atom of a residue four positions ahead along the chain. This regular hydrogen bonding pattern allows for a tight and stable helical structure.

   The alpha helix is characterized by its specific geometry, including the pitch (distance between each complete turn of the helix), the rise (vertical distance between two consecutive residues), and the number of residues per turn. The most common form of the alpha helix is the α-helix, which spans 3.6 residues per turn, with a rise of 1.5 angstroms per residue and a pitch of 5.4 angstroms per turn.

   The protein alpha helical conformation plays a fundamental role in protein structure and function. It provides stability to the polypeptide chain and allows for efficient packing of amino acid side chains within the protein interior. Additionally, alpha helices can participate in important protein-protein interactions, serve as membrane-spanning regions, or act as recognition motifs for other molecules, such as DNA or RNA.

Common Misspellings for PROTEIN ALPHA HELICAL CONFORMATION