Genetics-And-Evolution-Molecular-Basis-Of-Inheritance-1
DNA Basics:
Structure: Double helix with two antiparallel strands.
Components: Deoxyribose sugar, phosphate group, nitrogenous bases (A, T, C, G).
Base Pairing: Adenine (A) pairs with Thymine (T), Cytosine (C) pairs with Guanine (G).
Functions of DNA:
Storage of Genetic Information: Encodes instructions for organism’s development and functioning.
Replication: Accurate copying of genetic information for cell division.
Transcription and Translation: DNA serves as a template for RNA synthesis; RNA translates genetic code into proteins.
Gene Expression: Regulates which genes are active or inactive.
Watson and Crick Model:
Double-Stranded Helix: Two antiparallel strands with right-handed twist.
Complementary Base Pairing: A-T, C-G with hydrogen bonds.
Sugar-Phosphate Backbone: Forms the DNA double helix structure.
Significance:
Replication Mechanism: Explains how genetic information is accurately copied.
Genetic Code: Basis for encoding proteins.
Mutations and Heritability: Understand how changes in DNA can lead to variations and hereditary traits.
DNA vs. RNA:
Sugar: DNA has deoxyribose; RNA has ribose.
Strands: DNA is double-stranded; RNA is usually single-stranded.
Bases: DNA uses Thymine (T); RNA uses Uracil (U) instead of T.
Function: DNA stores genetic info; RNA is involved in protein synthesis and various other cellular roles.
Location: DNA is primarily in the nucleus; RNA is found throughout the cell.
Stability: DNA is more stable; RNA is less stable due to 2’-OH group.