Nucleic Acids and Nucleotides PDF

Summary

This document provides an overview of nucleic acids and nucleotides, highlighting their structure, function, and crucial roles in genetic information storage and transmission. It covers topics like DNA, RNA, nucleotide composition, and applications of nucleic acids in areas such as genetic engineering and forensic science. The document is well-suited for students studying biology and biochemistry at university level.

Full Transcript

Nucleic Acids and
Nucleotides
Nucleic acids are essential biomolecules found in all living
organisms. They are responsible for storing and transmitting
genetic information, crucial for life processes such as growth,
development, and reproduction.

by Reydo Gillado
Structure of Nucleic Acids
Monomers: Nucleotides Polymer Chains Double Helix

Nucleic acids are polymers made Nucleotides join together through DNA exists as a double helix, two
up of repeating subunits called phosphodiester bonds to form long polynucleotide chains wound
nucleotides. Each nucleotide chains. The sequence of around each other. The bases of
consists of a sugar, a phosphate nucleotides in a chain determines one chain pair with complementary
group, and a nitrogenous base. the genetic information it carries. bases on the other chain, forming a
stable structure.
Deoxyribonucleic Acid
(DNA)
1 Genetic Blueprint 2 Replication
DNA contains the genetic DNA can replicate itself,
instructions for building ensuring that daughter
and maintaining an cells receive a complete
organism. This copy of the genetic
information is encoded in information.
the sequence of
nucleotides.

3 Double-Stranded
DNA is a double-stranded molecule, with two polynucleotide
chains held together by hydrogen bonds between
complementary base pairs.
Ribonucleic Acid (RNA)
1 Transcription
RNA is synthesized from DNA through a process
called transcription, using DNA as a template.

2 Protein Synthesis
RNA plays a crucial role in protein synthesis, carrying
genetic information from DNA to ribosomes, where
proteins are assembled.

3 Single-Stranded
RNA is typically a single-stranded molecule, although
it can fold into complex three-dimensional
structures.
Nucleotide Composition
Nucleotide DNA Base RNA Base

Adenine Adenine (A) Adenine (A)

Guanine Guanine (G) Guanine (G)

Cytosine Cytosine (C) Cytosine (C)

Thymine Thymine (T) Uracil (U)
Nucleotide Functions
Genetic Information Energy Carriers
Nucleotides form the ATP (adenosine
building blocks of DNA and triphosphate) is a key
RNA, carrying the genetic energy carrier in cells,
information essential for life. providing energy for various
cellular processes.

Cellular Signaling
Cyclic AMP (cAMP) acts as a second messenger in cellular
signaling pathways, relaying signals from the cell surface to
the interior.
Importance of Nucleic Acids

Genetic Inheritance
DNA transmits genetic information from one generation to
the next, ensuring continuity of life.

Protein Synthesis
RNA plays a crucial role in protein synthesis, enabling the
production of proteins essential for all cellular functions.

Evolution and Adaptation
Mutations in DNA can lead to genetic variations, driving
evolution and adaptation of species to changing
environments.
Applications of Nucleic Acids

Genetic Engineering
DNA technology allows for the manipulation of genes, with applications in
medicine, agriculture, and biotechnology.

Forensic Science
DNA profiling is used to identify individuals and solve crimes, leveraging the
unique genetic signature of each person.

Medical Diagnosis
Genetic testing helps identify disease-causing mutations and provides insights
into individual susceptibility to certain conditions.