Lipids do not consist of monomers and polymers. They are diverse molecules that include fats, phospholipids, and steroids, and they are not built from repeating units like carbohydrates, proteins, and nucleic acids.
The common pathway in the production of biological polymers involves the polymerization of monomer units. Monomers are joined together through chemical reactions to form long chains known as polymers. This process is facilitated by enzymes and occurs in the cells of organisms.
Yes, plastic is typically made from polymers. Polymers are long chains of repeating molecules, and plastics are derived from these long chains. The properties of plastics can vary depending on the specific type of polymer used in their production.
Chemical reactions like dehydration synthesis and hydrolysis are important for the synthesis and breakdown of biological molecules. Dehydration synthesis joins monomers to form polymers by removing water, while hydrolysis breaks down polymers into monomers by adding water. These reactions are crucial for building complex biological molecules like proteins, carbohydrates, and lipids, as well as breaking them down for energy and recycling.
Monomers are the smaller molecular units that are used to build polymers in living organisms, such as amino acids forming proteins. Polymers are large molecules made up of repeating units of monomers, like DNA made of nucleotide monomers. The statement that monomers and polymers found in living organisms are false is inaccurate; they are essential components of biological molecules.
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Lipids do not consist of monomers and polymers. They are diverse molecules that include fats, phospholipids, and steroids, and they are not built from repeating units like carbohydrates, proteins, and nucleic acids.
In most biological polymers, it is water. This is called dehydration synthesis
The common pathway in the production of biological polymers involves the polymerization of monomer units. Monomers are joined together through chemical reactions to form long chains known as polymers. This process is facilitated by enzymes and occurs in the cells of organisms.
These are composites of biological (often animal-derived) and synthetic materials such as polymers.
These are three of the four major biological macromolecules. (The fourth are lipids.) Each of these macromolecules are polymers and are made up of smaller component parts called monomers.
Nitrogen Oxygen Hydrogen Carbon
Yes, plastic is typically made from polymers. Polymers are long chains of repeating molecules, and plastics are derived from these long chains. The properties of plastics can vary depending on the specific type of polymer used in their production.
The class of large organic molecules that include polymers is proteins, nucleic acids, and carbohydrates. Lipids are the fourth major class of large organic molecules, but they are not polymers.
Macromolecule from biological polymerization can be called Bio-polymers.
Karen Dawn Thomas has written: 'Biological interactions with synthetic polymers'
Otto Kratky has written: 'Physical chemistry of high polymers of biological interest'