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Anthro 101: Human Biological Evolution Lecture 3: Genetics & Inheritance Prof. Kenneth Feldmeier [email protected] [email protected]
What is Genetics???
○ Genetics is the scientific study of heredity.
○ Heredity is what makes each species unique.
Who was the man when it came to genetics?
○ http://www.youtube.com/watch?v=NWqgZUnJdAY
!3
Gregor Mendel
○ Austrian Monk ○ Famous for his work with pea plants ○ He is known as the father of
genetics
Mendel’s Work○ Mendel used true-breeding plants which means if
they were left to breed with themselves they would produce offspring identical to themselves.
○ Mendel studied 7 different traits in pea plants. ○ A trait is a specific characteristic that varies from
one individual to another.
Mendel showed simple genetic principles• Segregation
• Traits determined jointly by pairs of alleles
• Either allele can end up in a gamete
• Zygotes get 1 allele from mom, 1 allele from dad
!!• Dominance
• Sometimes, two different alleles at a gene loci (heterozygous) only one is expressed
More on Mendel’s Work
○ Hybrids are offspring from parents with different traits.
○ Genes are the chemical factors that determine a trait.
○ The different forms of a gene are called alleles.
Lets get down to the basics Somatic cells & Gametes both contain DNA
nucleus
mitochondria DNA in nucleus, mtDNA in mitochondria
DNA Basics• 99.99% of all DNA in
the nucleus of a cell
!• DNA long strands of
biochemical information (legos or beads)
!• Sections of DNA form
functional units = genes
• Genes are recipes for proteins
• Proteins serve functions in the body = traits
Phenotype: observable traits
The proteins that are built using the recipe.
Genotype: the alleles you carry
The recipe in your DNA.
Genotype / Phenotype
Universal Genetic Code
• All living organisms have DNA made of the same material that serves similar functions !
• The universality of the genetic code implies a common ancestry for all life on the planet !
• Organisms differ in the amount of DNA !
• BUT the most important differences are in the arrangement of the DNA. ◆ Different order of nucleotides à different proteins
What the heck is DNA?http://www.youtube.com/watch?v=8kK2zwjRV0M
!12
Chromosomes = packages of DNA Cells have 2 versions of each chromosome – we have 23 homologous pairs, 46 total
Homologous Chromosomes
Genes are segments on chromosomes• Genes on chromosomes like
beads on a string !
• Each gene has a specific location = locus ◆ Gene loci !
• There can be different versions of the same kind of gene: these are called alleles !
• Homologous alleles work together to produce phenotype
Homozygous vs. Heterozygous Genotypes
• Homozygous: the same allele at the same locus on both versions of the chromosome
!!• Heterozygous: a
different allele at a particular locus on each chromosome
Dominant & recessive alleles
• 2 different alleles (heterozygous) = Aa !
• Sometimes one of the alleles “overrides” the effects of other: this is called dominance = A > a !
• A dominant allele overrides the effects of a recessive allele
Aa
AA or aa
Cell Division: Sharing the recipe
• DNA replicates before cell division ◆ Two types of replication: !
• Mitosis: makes a new somatic (body) cell
!• Meiosis: makes gametes (sex cells,
sperm and eggs) used in sexual reproduction
Mitosis: replication of somatic cells
• When somatic cells divide chromosomes are doubled !
• Doubles are split between two daughter cells !
• Each daughter cell has an identical set of chromosomes to the original cell
Meiosis: production of gametes
• Gametes (eggs and sperm) have only 1 copy of each chromosome !
• Chromosome pairs duplicate and divide into singles, distributed between 4 gametes !
• When gametes fuse during sexual reproduction, they create a zygote with full set of chromosomes
To make a new organism
Parents make gametes
Gametes from two parents fuse to form offspring
For each chromosome, offspring carry two copies:
one from each parent
Punnett Square Method
Genotypes • 4 Aa !Phenotypes • 4 Yellow
Aa Aa
Aa Aa
A
a
a
A
Punnett Square Method
Genotypes • 1 AA • 2 Aa • 1 aa !Phenotypes • 3 Yellow • 1 Green
AA Aa
Aa aa
A
A
a
a
• Recombination ◆ shuffling of alleles during meiosis = unique gametes
Independent assortment of alleles at different gene loci ◆ Mixing of alleles during sexual reproduction = unique offspring !
• The fate of a new mutation is unrelated to other traits ◆ New traits can spread independently in a population !
• Novel combinations of traits can appear in offspring ◆ This provides new phenotypes for natural selection to act upon
Recombination is important for evolution
Mendel studied discontinuous (discrete) traits
Darwin observed continuous variation
Before Selection
Frequencyof each
Beak Depth
Beak Depth
MOST traits vary along a continuum
Continuous Traits • Height • Weight • Skin color
Discontinuous Traits • Finger number • Litter size • Rolling tongue
• Lots of traits are linked and so get inherited as a package deal ◆ Linked (same chromosome) !
• Lots of alleles for a gene aren’t clearly dominant/recessive ◆ Codominance: Sickle-cell anemia ◆ Complex dominance: ABO blood type !
• Lots of single genes controls multiple traits ◆ Pleiotropy !
• Lots of genes work together to affect the same trait = Polygenic inheritance
Simple Mendelian inheritance is rare (discontinuous traits)
Linked traits are inherited together
Codominance: Two alleles, three phenotypes
Sickle-cell anemia • Normal hemoglobin (A) allele • Sickling hemoglobin (S) allele !
• Three genotypes and three phenotypes: ◆ AA = normal blood cells ◆ SS = sickled blood cells ◆ AS = slightly impaired blood
cells, greater defense against malaria
Complex Dominance: ABO Blood Type
• Three alleles: A, B & O !
• O recessive to A & B !
• A & B co-dominant
Genotype Phenotype Compatibility
AAType A
Rec.: A or O Don.: A or ABAO
AB Type AB Universal recipient
BBType B
Rec.: B or O Don.: B or ABBO
OO Type O Universal donor
Pleiotropy: One gene controls two traits
• In Darwin’s finches, beak traits are correlated !
• Depth & width vary together ◆ Deeper & wider ◆ Shallow & narrow !
• Correlations arise when one gene affects multiple traits
Polygenic Traits: Many genes, continuous variation
• Many genes affect each trait • Each one has small effect • Generates a continuous range of variation
in the trait
• Height ◆ So far approx 10 genes ◆ Affect about 30% of
variation in height
All this variation! Where does it come from?
• Mutation • Meiosis
◆ Recombination of alleles into unique gametes ◆ increases genetic variation at a faster rate than mutation
• Sexual Reproduction ◆ Recombination of alleles from unique gametes into unique
offspring ◆ New phenotypes for NS to act upon
• Complex genetic inheritance ◆ Polygenic traits ◆ Environment interacts with genotype
Polygenic Traits + Environment: Beak Depth
• Multiple genes interact to determine the actual beak phenotype
• Environmental effects blur across genetic differences producing a range of phenotypes
Polygenic Traits shaped by many genes + environment
Phenotypes are almost ALWAYS the product of genes & environment interacting
Adjusted Mean Intelligence Test Scores Across 5 Categories of Breastfeeding
Duration
99
100.8
102.5
104.3
106
IQ S
core
37
38
39
40
41
Duration of Breastfeeding
<=1 2 to 3 4 to 6 7 to 9 > 9
WAIS Verbal IQBPP Test
Variation is maintained in the DNA
• Intermediate types common, but genetic variation is maintained ◆ MOST individuals have some + and some – alleles for height
• Recessive alleles hidden by dominant alleles ◆ Still passed into gametes & remain in population
• Much of the variation is “hidden” from selection ◆ If a trait is affected by genes at many loci ◆ Many different genotypes may have similar selective fate ◆ Some variation is protected
• Neutral mutations can be hidden
Variation is essential for Natural Selection – without differences in traits, nothing to “select” & survival is random
Speciation: Moving beyond existing variation
How can chihuahuas be smaller than the smallest wolves?
Solution: Hidden Variation
• Normal sized wolves carry some alleles for small body size (some – alleles, and many + alleles)
• As big wolves die (or people prefer small ones), frequency of – alleles increases
• Variation is shuffled, some new combinations arise • As – alleles become more common, more – alleles likely
to be combined in a single individual • New combinations with more – alleles will be outside
initial range of variation
What is the nature of variation?
+
+
• Variation is (usually) continuous • Continuous traits are generated via many genes and environmental
effects to produce the phenotype !
• Variation is generated and extended by: ◆ Mutation ◆ Meiosis ◆ Sexual reproduction ◆ Hidden alleles ◆ Polygenic inheritance + environment