Survey
* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project
Download Macromolecules
Document related concepts
no text concepts found
Transcript
Macromolecules Macromolecules are giants of the atomic world. The prefix “macro-” means "very large scale." Indeed, macromolecules dwarf other molecules involved in life’s chemistry, such as table salt (NaCl) or water (H2O). Macromolecules are typically comprised of at least 1,000 atoms, with repeated structures of smaller components. The process of polymerization links together the smaller components (monomers). It’s the extent of repetition that leads to large size. It’s the large size of macromolecules that dictates their importance in living systems. They are the basis of complex cellular life. Macromolecules are not intrinsically stable. They are not created in the absence of life, nor can they persist for long outside living systems. Essentially, a macromolecule is a single molecule that consists of many covalently linked subunit molecules. A polymer is a single molecule composed of similar monomers. In physiology, the four major macromolecules are: 1. Nucleic acids - made of nucleotide subunits linked through their phosphate backbone. 2. Proteins - made of amino acid subunits linked between carbon and nitrogen. 3. Lipids - typically large molecules comprised of nonpolar bonds, making them hydrophobic. Some lipids contain covalently attached polar groups, which may act as attachment points for multiple hydrophobic lipid molecules. 4. Carbohydrates - have covalently linked sugar groups. So far, we have discussed the major elements and types of bonds that are important in the functioning of a cell. Together these elements and bonds define the major properties of the four classes of macromolecules that make up a cell: carbohydrates, proteins, lipids and nucleic acids. In this module, we will explore these macromolecules. Carbohydrates, proteins and nucleic acids are all examples of polymers. Polymers are very large molecules composed of smaller units joined by covalent bonds using a common set of chemical reactions. Proteins are linear polymers of amino acids all joined by peptide bonds. Polysaccharides are the carbohydrates joined through glycosidic bonds in sometimes quite complex branched structures. DNA and RNA are polymers of nucleic acids linked by phosphodiester bonds. This module includes a discussion of the structures of these organic macromolecules.
Related documents