Concept explainers
Videos
What properties of the carbon atom make it especially suitable as the structural basis for nearly all
To explain: The properties of a carbon atom that make it structurally suitable as a structural basis for nearly all biomolecules.
Introduction: Carbon atom is the major component of several biomolecules. The carbon atom carrying biomolecules are diverse and stable owing to different properties of the carbon atom. Interaction of carbon with each other and with other elements is of biological importance.
Explanation of Solution
Different properties associated with carbon atom make is suitable as a structural basis for several biomolecules. The properties are mentioned below:
- Valency of 4:
The carbon atom is having a valence of 4. The carbon atom will form 4 chemical bonds with the other atoms. The carbon atom has 4 electrons in its outermost orbital. The carbon atom requires 4 more electrons to complete the octet having 8 electrons. The presence of 8 electrons in the outermost orbital provides stability to the carbon atom.
Hence, carbon binds with other 4 molecules to acquire stability. This property of carbon provides greater diversity to carbon-containing molecules in terms of molecular structure and function.
- Binding of C atom to other atoms:
The carbon atom has the capacity to bind to other molecules like sulfur, hydrogen, and nitrogen respectively. Nitrogen, sulfur, and hydrogen form an important component of several biomolecules. Nitrogen forms an important component of DNA while proteins are composed of hydrogen and sulfur.
Hence, the binding capacity of C atom with other atoms makes C atom as structurally suitable for several biomolecules.
- Asymmetric nature of the C atom:
The carbon atom is asymmetric in nature. The asymmetric nature of the C atom specifies that all the 4 atoms in the bonding are different. The carbon atom is also stable even if all 4 partners are different which is observed in diverse biological compounds.
Hence, the asymmetric nature of the C atom makes it structurally suitable for several biomolecules.
Want to see more full solutions like this?
Chapter 2 Solutions
Becker's World of the Cell (9th Edition)
- Why is it important to specify the 3-D structure of amino acids?arrow_forwardWhat are the structural differences between (a) purines and pyrimidines, and (b) ribose and deoxyribose sugars?arrow_forwardWhat type of intramolecular interactions can be found between amino acids within proteins to help maintain their native structure?arrow_forward
- What is the importance of the –R group (variable radical) in an amino acid molecule?arrow_forwardWhat is the contribution of dilsulfide bonds in proteins?Which groups or side chain participate in these reactions? Discuss with examples in detail.arrow_forwardWhat is the two factors determining the primary structure of a polypeptide chainarrow_forward
- Which kinds of interactions can be seen in the tertiary structure of proteins?arrow_forwardWhy is it important to specify the three-dimensional structure of amino acids?arrow_forwardIf the amino acids alanine and glycine react to form a peptide bond, is there more than one reaction product? If so, what products?arrow_forward
- What is the structure, origin and catalytic role of Flavin nucleotides?arrow_forwardWhy is proline frequently encountered at the places in the myoglobin and hemoglobin molecules where the polypeptide chain turns a corner?arrow_forwardWhy is the structure of ornithine so similar to the structure of citrulline?arrow_forward
Biology (MindTap Course List)BiologyISBN:9781337392938Author:Eldra Solomon, Charles Martin, Diana W. Martin, Linda R. BergPublisher:Cengage Learning