Genetics Past Paper PDF

Summary

This document is a presentation on genetics, likely a lecture or student project. It covers topics including genes, proteins, genomes, and the human genome project. The presentation includes images, diagrams, and details about different components and processes.

Full Transcript

Genetics
By : team 3
Supervisor :Dr Ali Amen
Team Rahma Reda Amal Elsaid

Memb Heraa Emad Yasmine Osama

ers Basmala Ehab
 A gene is like a recipe for a specific
what is a protein. It's a small piece of DNA that
gene? tells our cells how to build that
protein. Proteins are the building
blocks of our bodies and help us
grow, repair, and function.
 The Human Genome
Project
The Human Genome Project is an international effort to
clone and sequence the entire human genome. This
audacious project, estimated to cost about $200 million
per year and take 15 years to complete, promises to be
one of the most exciting and revolutionary scientific
endeavors ever devised by humanity. By sequencing an
estimated 3 billion base pairs of the haploid human
genome and more than 30,000 genes , The Human
Genome Project is an ambitious research effort that aims
to decode the chemical makeup of the entire human
genetic code (i.e., the genome). The core work of the
project is to develop three research tools that will allow
scientists to identify genes involved in rare and
common diseases..
 The Open Reading Frame (ORF) is a
part of a DNA sequence that can be
Open Reading translated into a protein. It consists of
a sequence of nucleotides that starts
Frame with a start codon (usually AUG) and
ends with a stop codon (such as UAA,
UAG, or UGA). Open Reading Frames
are important for identifying genes
and their functions, as they reflect
the genetic information needed for
protein synthesis.
TATA Boxes TATA boxes are short sequences of nucleotides (the
building blocks of DNA) typically consisting of a
specific sequence of nucleotides (usually TATA, hence
the name). These sequences are found in the
promoter regions of many eukaryotic genes, which are
genes found in organisms with a nucleus in their cells.
What is the Role of TATA Boxes ?
TATA boxes play a crucial role in initiating the process
of gene transcription. Transcription is the process by
which the genetic information contained in DNA is
copied into another molecule called RNA. This new
RNA molecule carries the code necessary for protein
synthesis.
* Binding Site: TATA boxes serve as binding sites for
proteins called transcription factors.
* Start Site Determination:
Gene Expression Regulation:
Stop Codons What is a stop codon?
A stop codon is a specific sequence of three
nucleotides in messenger RNA (mRNA) that
signals the end of the protein synthesis process. In
simpler terms, it's a "stop sign" that tells the cell
it has finished building the required protein.
What are the functions of stop codons?
* 1-Terminating Translation:
2-Ensuring Protein Accuracy
*3- Gene Expression Regulation
Types of Stop Codons:
There are three main types of stop codons: UAA,
UAG, and UGA. Each signals the
end of translation.
multigene famil
y Idea:
The parents are originally a unit of organization and my
tags. Their associations are closely related, and they are
groups of causes that started from a single gene through
the strategy of multiplying their number. Share in these
things a high degree of similarity in details and parts what
are the similar related functions.
How it happens:
a number of genomic and evolutionary mechanisms have
been discovered that shape the development, structure,
and organization of multigene families.
While gene duplication is the fundamental process,
other phenomena such as :
Pseudogene formation, gene loss, recombination, and
natural selection have been shown to act to varying
degrees to shape the evolution of gene families.
Examples of multiple gene
families:
Hemoglobin genes:
Antibody genes:
Histone genes:
 Why study gene
families?

Understanding evolution: Studying gene
families helps us understand how
organisms evolve and adapt to their
environments.
Medical discoveries: Studying these
families can help us develop new
treatments for genetic diseases.
Genetic improvement: Information about
gene families can be used to improve
crops and animals.
 Genetic
1. Codons
code
The genetic code is read in three-letter "words" called codons.
Each codon is a sequence of three nucleotide bases (A, U, G, C in
RNA; A, T, G, C in DNA).

2. Amino Acids and Codons
Each codon specifies a particular amino acid or a stop signal for
protein synthesis.
61 codons code for the 20 standard amino acids, meaning
multiple codons can specify the same amino acid. This feature is
known as redundancy or degeneracy of the genetic code.

Stop codons UAA , UGA , UAG
Start Codon AUG
 Mitochondrial genes
1. Encoding for Proteins Involved in Respiration: Mitochondrial genes
primarily encode proteins essential for oxidative phosphorylation, the process by
which cells produce ATP (energy). This includes genes for enzymes in the electron
transport chain and ATP synthase complex.

2. Reduced Genome:
The mitochondrial genome is much smaller than the nuclear genome, with humans
typically having only 37 genes in their mtDNA. These genes are highly conserved
and perform essential functions for cellular respiration.

3. tRNA and rRNA Genes:
Mitochondrial DNA also encodes tRNAs and rRNAs, necessary for protein synthesis
within the mitochondria.
What is
EXAMPLE:
gene
expression?
Gene expression is the process by which
the information stored in a gene is used to
create a functional product, usually a
protein. DNA contains the instructions for
making these proteins. When a cell needs
a specific protein, it reads the
corresponding gene and follows the
instructions to build the protein. This
process is essential for all living organisms
to grow, function, and adapt to
their environment.
 Exons Intron
EXAMPLE: Introns are segments of a gene that do not code for
Exons are the coding sections of a gene proteins. During the initial transcription process, they
that are transcribed into RNA and eventually are copied into pre-messenger RNA (pre-mRNA) but are
translated into proteins. Unlike introns (non- removed during RNA splicing.
coding sequences), exons are expressed Functions and Significance:
and form the final mature mRNA molecule. Regulatory roles: Although introns are non-coding, they
Alternative splicing: play important regulatory roles. They can influence the
Exons can be combined in different ways timing of gene expression and allow for different
during alternative splicing, which allows a regulatory mechanisms that impact gene function.
single gene to produce multiple protein Alternative splicing: Introns enable alternative splicing,
isoforms. This process contributes to where a single gene can lead to different protein
protein diversity and is a significant
products by varying the combination of exons included
regulatory mechanism in eukaryotes.
- Depending on how the exons are in the final mRNA. This increases the diversity of proteins
arranged or omitted, the final mRNA can an organism can produce from a limited number of
code for proteins with different structures genes.
and functions. Gene evolution: Introns may facilitate the evolution of
new genes through processes.
Thank You