DNA, RNA Structure and Function PDF

Summary

This document provides an overview of DNA and RNA, including structure, function, and types of RNA. It's useful for understanding the components and roles of these essential biomolecules in cellular processes and is suitable for university-level students.

Full Transcript

DNA, RNA

BY
Dr/ Eman Elsaid Khalifa
Lecturer of cellular and molecular biology
Nile valley University
 Overview

Chromatin is the complex of DNA
and protein (Histone) that
comprise eukaryotic chromosomes.
The primary function of chromatin
is to compress the DNA into a
compact unit that will be less
volume and can fit within the
nucleus.
 What is DNA?

DNA is a nucleic acid
DNA stands for
Deoxyribonucleic Acid
DNA – is the genetic
material inside the
nucleus of eukaryotic
cells.
 Deoxyribonucleic Acid

Segment of DNA

NUCLEUS GENES SEGMENTS
CHROMOSOMES
OF DNA
What is the purpose, or function, of DNA?
Stores the genetic information that instructs the cell on
which proteins to make.
So, DNA makes PROTEINS
(both are biomolecules!)
Responsible for determining all organism’s traits such as
eye color, body structure, and enzyme production.

Proteins are
responsible for
most of these
traits!
 The Components of DNA
DNA is a long molecule made up of
repeating individual units called
nucleotides.
Nucleotides are made up of three parts that
are held together by covalent bonds:
1. Sugar
2. Phosphate Group
3. Nitrogenous Base
Nitrogenous Bases

DNA contains four nitrogenous bases:
1. Adenine (A)
2. Guanine (G)
3. Cytosine (C)
4. Thymine (T)
In DNA, Which Bases Pair?
Adenine (A) always pairs with
Thymine (T)
Guanine (G) always pairs with
Cytosine (C)
Covalent
bonds
 DNA is a
DOUBLE HELIX
or a twisted
ladder.
Ribonucleic Acid (RNA)

RNA is SINGLE STRANDED
and does not have to stay
in the nucleus.
RNA is not found in
chromosomes because it
does not carry the genetic
code, however it can read
the DNA code and take the
information out of the
 RNA Structure
The building blocks of RNA are
Nucleotides, just like DNA.

A Nucleotide in RNA is still made of 3
important things:
1. 6-Carbon Sugar - Ribose (instead of
Deoxyribose)
2. Phosphate
3. Nitrogen base
there are 4 nitrogen bases in RNA,
A,G,C, and U that pair together)

AU CG
 Types of RNA
1. Messenger RNA (mRNA) - Carries copies of
instructions for the assembly of amino acids into
proteins from DNA to the rest of the cell (serve as
“messenger”)
 Types of RNA
2.Ribosomal RNA (rRNA) – Makes up the major part of
ribosomes, which is where proteins are made.

Ribosomal
RNA
 Types of RNA
3. Transfer RNA (tRNA) - Transfers amino acids to
ribosomes during protein synthesis
DNA vs. RNA STRUCTURE AND
FUNCTION
DNA RNA
 Name DeoxyriboNucleic Acid (DNA) RiboNucleic Acid (RNA)

Function Long-term storage of genetic information. Used to transfer the genetic code from the nucleus
to the ribosomes to make proteins.
Structural Double – stranded helix. RNA is a single-strand helix.
Features
Composition deoxyribose sugar ribose sugar
of Bases and phosphate backbone phosphate backbone
Sugars adenine, guanine, cytosine, thymine bases adenine, guanine, cytosine, uracil bases
Propagation DNA is self-replicating. RNA is synthesized from DNA on a needed basis.

Reactivity The C-H bonds in DNA make it fairly stable, plus the The O-H bond in the ribose of RNA makes the
body destroys enzymes that would attack DNA. The molecule more reactive, compared with DNA. RNA is
small grooves in the helix also serve as protection, not stable under alkaline conditions, plus the large
providing minimal space for enzymes to attach. grooves in the molecule make it susceptible to
enzyme attack. RNA is constantly produced, used,
degraded, and recycled.
Ultraviolet DNA is susceptible to UV damage. RNA is relatively resistant to UV damage.
Damage