Week 1 Evolution of evolution 2024.pdf

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Population Genetics & Molecular Evolution

Welcome to Population Genetics &
Molecular Evolution!

David Groth (UC) [email protected]

Ayeisha Milligan-Armstrong [email protected]

Keea Inder-Smith [email protected]

Ross Graham [email protected]
24:1-19 (2018)
Assessments
Textbooks
 The Impact of New Idea

“Man’s mind, once stretched by a new idea, never
regains its original dimensions”
Oliver Wendell Holmes

This unit has many new ideas.

Enjoy!
Population Genetics & Molecular Evolution

The Evolution of Evolution

Ross Graham

[email protected]
 The Universe in Darwin’s Time

The Scala Naturae: the scale of nature or natural order (Aristotle)

God
angels
animals

plants

minerals

www.retinalphysician.com/articleviewer.aspx?articleID=100737 http://en.wikipedia.org/wiki/File:BonnetChain.jpg

© RM Graham
 Linnaeus’ Species Concept

Carl Linnaeus: Swedish botanist

responsible for modern binomial nomenclature of species

en.wikipedia.org/wiki/File:Carl_von_Linné.jpg

“Species tot sunt, quot diversas formas ab initio produxit Infinitum Ens, quae formae,
secundum generationis inditas leges produxere plures, at sibi semper similes”

“species are distinguishable or diagnosable forms, which were from the beginning created
by God, reproducing themselves forever in like form” Mallet , Systematics & Biodiversity 1:441-52, 2004

© RM Graham
 The Paradox of Linnaeus

Linnaeus proposed that species were created anew by God

THEREFORE
species are independent of each other

BUT...

He then invented a hierarchical structure based on degrees of similarity best explained by a
shared ancestry.

© RM Graham
 There have been many proponents of Evolution

Early Times
speculated in history, perhaps even by the Greeks

Erasmus Darwin (1731 - 1802)
long history of life originating from a common source

Jean Baptiste de Lamarck (1744 - 1829)
first comprehensive theory of evolution - based on inheritance of acquired characteristics

Alfred Russel Wallace (1823 - 1913)
Charles Darwin (1809 - 1882)
co-proponents of evolution by natural selection
© RM Graham
 There have been many proponents of Evolution

Jean Baptiste de Lamarck (1744 - 1829)
first comprehensive theory of evolution - based on inheritance of acquired characteristics

1809: Published Philosophie Zoologique

Transmutation: “tendency to progression”
blackwellpublishing.com/ridley/a-z/lamarck.asp

Each generation improved upon its predecessor, leaving a hole that needed to be filled

© RM Graham
 There have been many proponents of Evolution

Jean Baptiste de Lamarck (1744 - 1829)
first comprehensive theory of evolution - based on inheritance of acquired characteristics

“Inheritance of acquired characteristics”: characteristics
acquired for survival passed on to next generation

Many examples of this:
Webbed feet / long legs of wading birds
Long neck of giraffes blackwellpublishing.com/ridley/a-z/lamarck.asp

Legless snakes

Lamarckian evolution has been discredited since the time of Darwin,
but is now being revisited.
© RM Graham
 There have been many proponents of Evolution

Alfred Russel Wallace (1823 - 1913)
Charles Darwin (1809 - 1882)
co-proponents of evolution by natural selection

http://www.victorianweb.org/science
© RM Graham
 There have been many proponents of Evolution

Alfred Russel Wallace (1823 - 1913)
Charles Darwin (1809 - 1882)
co-proponents of evolution by natural selection

Darwinian evolution is based on three principles

1. All species produce an excess of offspring
(under favourable conditions population growth is exponential)

2. Organisms vary in their ability to survive and reproduce (observed in practice)

3.Variation in the ability to survive and reproduce is, at least in part, inherited
(ie. genetic; much experimental evidence supporting this premise)
© RM Graham
 There have been many proponents of Evolution

Alfred Russel Wallace (1823 - 1913)
Charles Darwin (1809 - 1882)
co-proponents of evolution by natural selection

All species produce an excess of offspring Organisms vary in their ability to survive and reproduce

“As many more individuals of each species are born than can
possibly survive, and as consequently there is a frequently
recurring struggle for existence, it follows that any being, if it vary
in any manner profitable to itself, under the complex and
sometimes varying conditions of life, will have a better chance of
survival and thus be naturally selected. From the strong principle
of inheritance, any selected variety will tend to propagate its new
and modified form.”
Variation in the ability to survive and
reproduce is, at least in part, inherited
From: On the Origin of Species, 1859
© RM Graham
 Evolution by Natural Selection

1. Populations have the potential to increase exponentially
⎫
⎬
THEREFORE
Only some individuals survive. There is a struggle
2. Population size is relatively constant
for existence amongst individuals in a population

3. Natural resources are limited (Malthus)
⎭ +
4. Individuals within a species vary: some variation is inherited (from
breeders and observation of variation in natural populations)

THEREFORE
Favoured individuals (best variations) survive and reproduce
(ie. natural selection: A NON RANDOM PROCESS).

HENCE
Favourable variations accumulate over many generations.
This is now called this EVOLUTION BY NATURAL SELECTION

© RM Graham
 Evolution by Natural Selection

Evolution requires inherited variation

Results in transmutation of species and is driven by
differential reproduction of genotypes of varying fitness.

Hence, evolution will NOT PROGRESS unless there is a
continuing source of inherited variation to drive it.
EVOLUTION

The ultimate source of all genetic variation is
www.123rf.com/photo_6460289

© RM Graham
 Evolution, Fitness and Populations

Evolution progresses by the preferential (differential) reproduction of individuals with
genotypes manifesting greater fitness.

Fitness is measured by the propensity of individuals to produce thriving offspring.

Fitness: the relative number of offspring of an individual having a given genotype which
survive to reproduce successfully as compared to the number for an individual of some
other genotype. Oxford English Dictionary

Population: a naturally interbreeding group of individuals of a given species that exists
together in time and space.
© RM Graham
 Evolution in Recent Human History

Evolution is simply a change in gene frequencies between generations - but may take
many generations to be seen.

occurs in the prevailing environment
- physical, local, social and cultural.

Recent evolutionary changes in humans (≤50,000 years) are many:
- disease resistance
- increases in fecundity
- responses to cultural changes
- changes in cognitive behaviour

© RM Graham
 Somatic Cells v Germ Cells

Tissues are made up of SOMATIC cells
Human somatic cells have two copies of each chromosome
(2 x 23 = 46)
Therefore, they are DIPLOID

Sperm and ova are GERM CELLS

Human germ cells have only one copy of each chromosome
(1 x 23 = 23)
Therefore, they are HAPLOID

© RM Graham
 Cell Proliferation

Tissues are made up of SOMATIC cells
Somatic cells proliferate by mitosis

Sperm and ova are GERM CELLS
Germ cells are formed by meiosis, which entails two sequential cell divisions

Germ cell precursors are diploid and proliferate by mitosis

When germ cell precursors undergo division to form germ cells, they undergo meiosis

© RM Graham
 Recombination of Homologous Chromosomes in
Meiosis

Recombination of homologous chromosomes is a very important
source of genetic diversity in most eukaryotic organisms

© RM Graham
 Weismann’s Barrier

Germ-plasm Theory (1893): only germ cells pass genetic
information to the next generation, somatic cells do not.

WEISMANN’S BARRIER

GERM LINE CELLS
(sperm, ova)
SOMATIC CELLS

flow of genetic information
after: J. Weatherall (2012)

Weismann’s Barrier
Solana J. Evodevo. 2013;4:2. DOI:10.1186/2041-9139-4-2
directs the flow of genetic information
© RM Graham
 More Definitions

Locus: The location of a sequence or place of interest on a chromosome

7q22: TFR2 locus ≠ gene

Allele: Each of two or more alternative forms of a gene...
Oxford English Dictionary

© RM Graham
 Mendel’s Laws
Gregor Mendel (1822 - 1884)

1. Segregation
An offspring receives a random copy of an allele from each of
its parents
2. Independent Assortment
Genes (on different chromosomes) are transmitted independently

https://www.abc.net.au/radionational/programs/scienceshow/celebrating-gregor-mendel-the-father-of-genetics/101797682 © RM Graham
 Mendel’s Laws
1. Segregation
An offspring receives a random copy of an allele from each of its parents

Meiosis: the process by which gametes are produced

duplication
crossing-
segregation
over

© RM Graham http://php.med.unsw.edu.au/embryology/images/3/38/Mitosis_and_meiosis.jpg
 Mendel’s Laws

Meiosis

© RM Graham
 Mendel’s Laws
2. Independent Assortment
Genes (on different chromosomes) are transmitted independently

E allele: Black eyes (dominant); Red eyes (recessive)

Ee Ee

Mr Mouse Mrs Mouse

after: mathbench.umd.edu/modules/prob-stat_punnett-squares_intro/page13.htm
© RM Graham
 Dad

E e

E
Mum

e

Punnett Square
© RM Graham
 Mendel’s Laws

Ee Ee

Mr Mouse Mrs Mouse

? ?

after: mathbench.umd.edu/modules/prob-stat_punnett-squares_intro/page13.htm
© RM Graham
 Mendel’s Laws
2. Independent Assortment
Genes (on different chromosomes) are transmitted independently

E allele: Black eyes (dominant); Red eyes (recessive)
T allele: Normal teeth (dominant);Vampire teeth (recessive)

EeTt EeTt

Mr Mouse Mrs Mouse

after: mathbench.umd.edu/modules/prob-stat_punnett-squares_intro/page13.htm
© RM Graham
 Dad

ET Et eT et

ET

Et
Mum

eT

et

© RM Graham
 Mendel’s Laws
2. Independent Assortment
Genes (on different chromosomes) are transmitted independently

E allele: Black eyes (dominant); Red eyes (recessive)
T allele: Normal teeth (dominant);Vampire teeth (recessive)

EeTt EeTt

Mr Mouse Mrs Mouse

? ? ? ?
after: mathbench.umd.edu/modules/prob-stat_punnett-squares_intro/page13.htm
© RM Graham
 Even More Definitions

Genotype:
1. the genetic constitution of an organism, esp. as distinguished from its phenotype
2. all of the genes present in an organism or species
3. the specific alleles present at a given locus. Oxford English Dictionary

An allele refers to a single copy of a gene

A genotype refers to the combination of alleles

E and e are alleles. EE, Ee and ee are genotypes.

© RM Graham
 Even More Definitions

Dihybrid: A hybrid that is heterozygous with respect to two independent genes.
Oxford English Dictionary

“In the dihybrid cases...the two pairs of characters behaved quite independently, in so far as
the process of segregation was concerned.” RC Punnett, Mendelism, 2nd ed, 1907

True breeding: Producing offspring whose phenotypes are identical to those of the
parents. Homozygous individuals necessarily breed true (unless mutations arise), whereas
heterozygotes rarely do so. Oxford Reference

© RM Graham
 The Critical Step in Biological Inheritance

In sexual reproduction, a paternal haploid sperm fertilises a maternal haploid ovum to form
a diploid ZYGOTE, which subsequently develops into a new individual.

dnalc.org/view/16240-Gallery-8-Sperm-fertilzing-an-egg.html php.med.unsw.edu.au/embryology/index.php?
title=File:Human_zygote_two_pronuclei_03.jpg

The observable inherited characteristics of progeny (phenotypes) are determined jointly by
the genetic inheritance (nature) received from both parents (genotypes) and environmental
stimuli (nurture).
© RM Graham
 Genetic Variation in Species

A population is an inter-breeding group of individuals

It is observed that alleles (variants of genes) almost always occur within populations

The genetic composition of the population is characterised by the alleles present and
their frequencies since this determines the proportions of genotypes in the population.

Alleles arise by mutation and may subsequently increase in frequency by means of evolution.

© RM Graham
Population Genetics & Molecular Evolution

Genetic Polymorphisms

Ross Graham

[email protected]
 Polymorphisms at the Molecular Level

Imagine you are looking down on a collection of human
chromosomes with magic glasses

You can see the difference between the DNA base
sequences at any one place (a locus)

These differences are polymorphisms

What do they look like?

© RM Graham
 Size Range

Structural Variations

submicroscopic microscope-visible
CNVs > 3Mb CNVs

DNA sequence length

1 10 100 kb Mb Gb

Chromosome 21

Chromosome 1
SNP RFLP
STRs Genome
large CNVs
Minisatellites >50 kb
small indels

© RM Graham
 Types of Genetic Polymorphisms

Base substitutions
SNPs, RFLPs, small indels

Copy Number Variations (CNVs)
Small size: variable number tandem repeats (VNTRs)
Short tandem repeats (STRs; microsatellites)
Long terminal repeats (minisatellites)
Large size: chromosome fragments
some viral insertions
dispersed repeats (LINEs and SINEs)

© RM Graham
 Chromosome Translocations

courtesy: Mahony Fenn
© RM Graham
 Single Nucleotide Polymorphisms

aka “SNP”

Mutations which arise from a mutation at a specific residue site

Usually thought of as a base mutation, but may be an indel (insertion or deletion)

Convention says that a mutation becomes a SNP when its frequency is ≥0.01
[This is an arbitrary value]

Synonymous and non-synonymous

Usually identified (typed) by direct, automated sequencing of a DNA fragment
© RM Graham
 Single Nucleotide Polymorphisms

Observed by comparison of nucleotide sequences of 5 chromosomes.
[SNPs are usually di-allelic and codominant.]

5’..GTTAATTTGATGAATGG..3’
5’..GTTAATTTGATGAATGG..3’
5’..GTTAATTTGGTGAATGG..3’
5’..GTTAATTTGGTGAATGG..3’
5’..GTTAATTTGATGAATGG..3’

© RM Graham
 Variable Number Tandem Repeat
Polymorphisms

Characterised by variation in the number of tandemly repeating sequence motifs
present at a given locus.

Two main families of VNTRs -
Minisatellites (LTRs) and Microsatellites (STRs)

Tandem Repeats

Dispersed Repeats
© RM Graham
 Short Tandem Repeats (STRs)
aka “microsatellites”

STR loci usually manifest extensive polymorphism

Characterised by DNA fragment length polymorphism due to variable numbers of
tandemly repeating (VNTR) short motifs (1 to ~7 base pairs)

}
4 repeat units Chromosome N
(haplotype) Diploid
7 repeat units Autosome
Chromosome N Genotype (4,7)
(haplotype)
eg (CTTTC)n
pentanucleotide repeat motif
© RM Graham eg in NOS2 promoter
 Features of STRs

Dinucleotide freq > Trinucleotide freq > Tetranucleotide freq > 5, 6, 7 bp etc

May be genotyped by PCR with locus specific primers

Trinucleotide STRs often cause disease so these are not used as genetic markers

Mutation rate for STR loci is HIGH: ~10-3 to 10-4 per meiosis – this follows from their stepwise mutation
mechanism

STR assays are usually multiplexed – many loci may be genotyped in one assay

Polymorphic loci exhibit from 2 to >50 alleles and are the basis of contemporary DNA profiling

May be used for disease gene mapping (by linkage analysis)
© RM Graham
 D1S80 Minisatellite locus
24 repeats of a 16bp motif
GAAACTGGCCTCCAAACACTGCCCGCCGTCCACGGCCGGCCGGTCCTGCGTGTGAATGACTCAGGAGCGTATTCCCCACGCGCCAGCACTGCA
TTCAGATAAGCGCTGGCTCAGT

GTCAGCCCAAGGAAGA
CAGACCACAGGCAAGG
AGGACCACCGGAAAGG
AAGACCACCGGAAAGG
AAGACCACCGGAAAGG
AAGACCACAGGCAAGG
PCR AMPLIFIABLE (allele length ≈ 200 - 1000bp).
AGGACCACCGGAAAGG
AAGACCACCGGCAAGG
AGGACCACCGGCAAGG Oligonucleotide primers are underlined.
AGGACCACCAGGAAGG
AGGACCACCAGCAAGG
AGGACCACCAGCAAGG The allele shown here has 24 repeats
AGGACCACCAGGAAGG
AGGACCACCAGGAAGG
AGGACCACCGGCAAGG
AGGACCACCAGGAAGG
AGGACCACCAGGAAGG
AGGACCACCGGCAAGG
AGGACCACCAGGAAGG
AGAACCACCAGGAAGG
AGGACCACCAGGAAGG
AGGACCACCAGGAAGG
AGGACCACTGGCAAGG
AAGACCACCGGCAAGC

CTGCAAGGGGCACGTGCATCTCCAACAAGAC
Kasai et al, J Forensic Sci, 35:1196 (1990)
© RM Graham
 A short history of VNTR loci

1980: Ray White and David Botstein describe the first highly polymorphic DNA locus
now called D2S44. Much later the basis of its polymorphism was shown to be a
minisatellite VNTR.

1985: Alec Jeffreys discovers - and patents - the first two DNA probes in the human
myoglobin gene that recognise many DISPERSED VNTR loci. Jeffreys coined the term
MINISATELLITES for these loci.

Jeffreys’ probes were used to generate “DNA fingerprints”

1985: first paper on PCR (Mullis et al)

1991: first paper on microsatellites (short tandem repeats; STRs) by James Weber.

© RM Graham
 RFLPs
Restriction Endonucleases bind to specific nucleotide sequences resulting in
reproducible cleavage of the DNA at these sites.

The presence or absence of these RE sensitive sites forms the basis of a diallelic,
codominant system of genetic variation.

The presence or absence of an RE site will result in a DNA digest which has DNA
fragments of differing length.

RFLPs were observed by a method known as DNA hybridisation following Southern
blotting (or Southern blotting for short).

Now can perform gel electrophoresis or capillary electrophoresis if no other method
available

© RM Graham
 Locus, Allele & Haplotype

LOCUS: a specific place on a chromosome where a DNA sequence resides.

ALLELE: the sequence of DNA at a specified locus. An alternative form or variant of a
DNA sequence at a given locus.

HAPLOTYPE: The combination of loci on a single chromosome, or part of a chromosome.

[“Gene” is often used as a synonym for “allele”; however, the term “gene” has been used in many
contexts and, today, its use is not precise.]

© RM Graham