Population genetic ppt
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Population geneticPopulation genetic
SUBMITTED
BY
Mr.AHMAD ALI
M.Sc.II Sem III (ZOOLOGY)
SUBMITTED TO
Dr.S.R.AKARTE
H.O.D
ZOOLOGY DEPT .
VIDYABHARTI MAHAVIDYALAYA ,AMRAVATI .
2013-14.
SUBMITTED
BY
Mr.AHMAD ALI
M.Sc.II Sem III (ZOOLOGY)
SUBMITTED TO
Dr.S.R.AKARTE
H.O.D
ZOOLOGY DEPT .
VIDYABHARTI MAHAVIDYALAYA ,AMRAVATI .
2013-14.
INDEXINDEX
Introduction.
Population genetic.
Genetic variation in natural
population.
i) Natural selection
Type of natural selection
Phenotypic variation
Polymorphism of chromosomal
structure.
Introduction.
Population genetic.
Genetic variation in natural
population.
i) Natural selection
Type of natural selection
Phenotypic variation
Polymorphism of chromosomal
structure.
Population Genetics Population Genetics
Chapter 8
Chapter 8
IntroductionIntroduction
1.Population genetics is the study of change in the frequencies
of allele and genotype within a population.
2.Population geneticists study the genetic structure of
populations, and how they change geographically and over
time.
1.Population genetics is the study of change in the frequencies
of allele and genotype within a population.
2.Population geneticists study the genetic structure of
populations, and how they change geographically and over
time.
Gene – a discrete unit of hereditary information consisting of
a specific nucleotide sequence in DNA.
◦Alleles – alternative forms of a gene.
Genotype – the genetic makeup of an individual.
Phenotype – the physical traits of an organism.
a specific nucleotide sequence in DNA.
◦Alleles – alternative forms of a gene.
Genotype – the genetic makeup of an individual.
Phenotype – the physical traits of an organism.
Hardy Weinberg principle Hardy Weinberg principle
States that ;
(p+q )² p² + 2pq + q² =1
Under the certain condition,allelice frequences,remains constants
from generation to generation.
If any one condition is not made, genetic equilibrium will be
disturbed and the population may evolved.
2
States that ;
(p+q )² p² + 2pq + q² =1
Under the certain condition,allelice frequences,remains constants
from generation to generation.
If any one condition is not made, genetic equilibrium will be
disturbed and the population may evolved.
2
Why Allele Frequencies ChangeWhy Allele Frequencies Change
•Five evolutionary forces can significantly alter the
allele frequencies of a population
–1. Mutation
–2. Migration
–3. Genetic drift
–4. Nonrandom mating
–5. Selection
•Five evolutionary forces can significantly alter the
allele frequencies of a population
–1. Mutation
–2. Migration
–3. Genetic drift
–4. Nonrandom mating
–5. Selection
•Errors in DNA
replication
•The ultimate source of
new variation
MutationMutation
replication
•The ultimate source of
new variation
MutationMutation
•Movement of
individuals from one
population to another
–Immigration: movement
into a population
–Emigration: movement
out of a population
•A very potent agent of
change
MigrationMigration
individuals from one
population to another
–Immigration: movement
into a population
–Emigration: movement
out of a population
•A very potent agent of
change
MigrationMigration
•Random loss of alleles
–More likely to occur in
smaller population
•Founder effect
–Small group of individuals
establishes a population
in a new location
Genetic DriftGenetic Drift
•Bottleneck effect
–A sudden decrease in
population size to natural
forces
–More likely to occur in
smaller population
•Founder effect
–Small group of individuals
establishes a population
in a new location
Genetic DriftGenetic Drift
•Bottleneck effect
–A sudden decrease in
population size to natural
forces
•Mating that occurs more
or less frequently than
expected by chance
•Inbreeding
–Mating with relatives
–Increases homozygosity
Nonrandom MatingNonrandom Mating
•Out breeding
–Mating with non-relatives
–Increases heterozygosity
or less frequently than
expected by chance
•Inbreeding
–Mating with relatives
–Increases homozygosity
Nonrandom MatingNonrandom Mating
•Out breeding
–Mating with non-relatives
–Increases heterozygosity
•Some individuals leave
behind more offspring
than others
•Artificial selection
–Breeder selects for
desired characteristics
•Natural selection
–Environment selects for
adapted characteristics
SelectionSelection
behind more offspring
than others
•Artificial selection
–Breeder selects for
desired characteristics
•Natural selection
–Environment selects for
adapted characteristics
SelectionSelection
Genetic Variation in Natural PopulationsGenetic Variation in Natural Populations
Types of VariationTypes of Variation
Phenotypic variation: it’s a genetical
basis morphological variation its some tie
continuous and some time discontinuous.
e.g salmonberry and Two-spotted ladybird
beetle
Phenotypic variation: it’s a genetical
basis morphological variation its some tie
continuous and some time discontinuous.
e.g salmonberry and Two-spotted ladybird
beetle
Genetic variance: the variance that is
due to variation among individuals in the
alleles that they have, excludes
environmentally-caused variation
due to variation among individuals in the
alleles that they have, excludes
environmentally-caused variation
Natural selection Natural selection
The natural selection is a process by which
heritable traits that makes it more likely for an
organisms to survive and successfully
reproduced become more common in
population over successive generation.
The natural selection is a process by which
heritable traits that makes it more likely for an
organisms to survive and successfully
reproduced become more common in
population over successive generation.
Forms of SelectionForms of Selection
Three types of natural selection have been
identified
◦Stabilizing selection
Acts to eliminate both extreme phenotypes
◦Disruptive selection
Acts to eliminate intermediate phenotypes
◦Directional selection
Acts to eliminate a single extreme phenotype
Three types of natural selection have been
identified
◦Stabilizing selection
Acts to eliminate both extreme phenotypes
◦Disruptive selection
Acts to eliminate intermediate phenotypes
◦Directional selection
Acts to eliminate a single extreme phenotype
Stabilizing SelectionStabilizing Selection
Its a type of natural selection in which
genetic diversity decreases as the
population stabilizes on a particular trait
value.
Stabilizing selection act to keep a
population well adapted to its
environment.
e.g. birth weight of human baby.
Its a type of natural selection in which
genetic diversity decreases as the
population stabilizes on a particular trait
value.
Stabilizing selection act to keep a
population well adapted to its
environment.
e.g. birth weight of human baby.
the selection, describe change in
population genetics in which
extreme value for trait are favor
over intermediate values.
•In the African seed-cracker
finch, large- and small-beaked
birds predominate
Disruptive SelectionDisruptive Selection
•Intermediate-beaked birds are at
a disadvantage
–Unable to open large seeds
–Too clumsy to open small
seeds
More adept at
handling small seeds
Can open tough shells
of large seeds
population genetics in which
extreme value for trait are favor
over intermediate values.
•In the African seed-cracker
finch, large- and small-beaked
birds predominate
Disruptive SelectionDisruptive Selection
•Intermediate-beaked birds are at
a disadvantage
–Unable to open large seeds
–Too clumsy to open small
seeds
More adept at
handling small seeds
Can open tough shells
of large seeds
•Direction selection is a mode of natural
selection in which a single phenotype is
favored, causing the allele frequencies
continuously shift in one direction.
•E.g industrial melanism
Directional SelectionDirectional Selection
selection in which a single phenotype is
favored, causing the allele frequencies
continuously shift in one direction.
•E.g industrial melanism
Directional SelectionDirectional Selection
PolymorphismPolymorphism
. Naturalists have described phenotypic variation within
many species. For example,
,
All these sorts of phenotypic differences are called polymorphisms
. Naturalists have described phenotypic variation within
many species. For example,
,
All these sorts of phenotypic differences are called polymorphisms
Grove snail;Grove snail; , , Cepaea nemoralis Cepaea nemoralis
Grove snail
The grove snail, Cepaea nemoralis,
is famous for the rich
polymorphism of its shell. The
system is controlled by a series
of multiple alleles. The shell
colour series is brown
(genetically the top dominant
trait), dark pink, light pink, very
pale pink, dark yellow and light
yellow (the bottom or universal
recessive trait).
Grove snail
The grove snail, Cepaea nemoralis,
is famous for the rich
polymorphism of its shell. The
system is controlled by a series
of multiple alleles. The shell
colour series is brown
(genetically the top dominant
trait), dark pink, light pink, very
pale pink, dark yellow and light
yellow (the bottom or universal
recessive trait).
Chromosomal polymorphismChromosomal polymorphism
Different length of p-arms of acrocentric
chromosomes
Different extent of heterochromatin areas
Different length of p-arms of acrocentric
chromosomes
Different extent of heterochromatin areas
ReferencesReferences
Principle of genetics.
By D. peter snustad.
Genetics :robbert f.weaver
www.worlofteaching.com
www.vadlo.com
www.google.co.in
Principle of genetics.
By D. peter snustad.
Genetics :robbert f.weaver
www.worlofteaching.com
www.vadlo.com
www.google.co.in
Thank youThank you
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