Evolutionary Biology Group Isabel Gordo Genomes and Evolution.

Slides:

Advertisements

Similar presentations

I. What are the 5 conditions that must remain constant for a population to be in evolutionary equilibrium? (try to name at least 4 of them) POP QUIZ !

Advertisements

Mullers ratchet and fixation of beneficial alleles: the soliton approach to many-site problem Igor Rouzine Department of Molecular Biology and Microbiology.

Introduction to Genetic Analysis TENTH EDITION Introduction to Genetic Analysis TENTH EDITION Griffiths Wessler Carroll Doebley © 2012 W. H. Freeman and.

Darwin and His Theory of Evolution by Natural Selection

Evolution Courtesty / Definitions Evolution: the change in frequency of genes within a population Population: is all the individuals.

WHERE DOES THE VARIATION COME FROM IN THE FIRST PLACE?

Chapter 17 Population Genetics and Evolution, part 2 Jones and Bartlett Publishers © 2005.

Discovery of a rare arboreal forest-dwelling flying reptile (Pterosauria, Pterodactyloidea) from China Wang et al. PNAS Feb. 11, 2008.

Unit 1: DNA and the Genome Key area 8: Genomic sequencing.

Fundamental Concepts in Behavioural Ecology. The relationship between behaviour, ecology, and evolution –Behaviour : The decisive processes by which individuals.

For example: Sickle Cell Anemia and Evolution Your name.

BIO513: Lecture 1. Central dogma “The central dogma of molecular biology deals with the detailed residue-by-residue transfer of sequential information.

6/15/2015 The Genetics of Bacteria. 6/15/2015 The Genetics of Bacteria The major component of the bacterial genome is one double-stranded, circular DNA.

General Microbiology (Micr300) Lecture 10 Microbial Genetics (Text Chapter: ; )

Epistasis in RNA Viruses MI615 Andrew J. Pierce Microbiology, Immunology and Molecular Genetics Graduate Center for Toxicology Markey Cancer Center University.

1. How does conjugation work? Sex in Bacteria How do bacteria exchange DNA.

The phylogenetics project data revealed! October 4, 2010 BIOS E-127.

Genetica per Scienze Naturali a.a prof S. Presciuttini Mutation Rates Ultimately, the source of genetic variation observed among individuals in.

Darwin and His Theory of Evolution by Natural Selection

Sources of variation. Mutation produces variation at multiple scales:

The phylogenetics project data revealed! October 4, 2010 OEB 192.

KEY CONCEPT A population shares a common gene pool.

Synthetic biology Genome engineering Chris Yellman, U. Texas CSSB.

Topic 6 Growth & Reproduction of Bacteria

KEY CONCEPT A population shares a common gene pool.

Chapter & 11.3.

1 1 Population Genetics. 2 2 The Gene Pool Members of a species can interbreed & produce fertile offspring Species have a shared gene pool Gene pool –

Population Genetics youtube. com/watch

This presentation was originally prepared by C. William Birky, Jr. Department of Ecology and Evolutionary Biology The University of Arizona It may be used.

I. In Part A of our allele frequency simulation the population was not evolving so the population is said to be in equilibrium. A. This means that allele.

Chapter 16 evolution of sex. Adaptive significance of sex Many risks and costs associated with sexual reproduction. Searching for and courting a mate.

1. How does conjugation work? Sex in Bacteria How do bacteria exchange DNA.

The Global Problem of Extensively Drug Resistant TB Peter M. Small, MD Institute for Systems Biology Bill and Melinda Gates Foundation February 17, 2008.

AP Biology – Ch. 23 – The Evolution of Populations  The smallest unit of evolution?  Microevolution  3 main mechanisms responsible for change in allele.

Virus Evolution. Lecture 6. Chapter 20, pp. 759 – 777.

© 2015 W. H. Freeman and Company CHAPTER 1 The Genetics Revolution Introduction to Genetic Analysis ELEVENTH EDITION Introduction to Genetic Analysis ELEVENTH.

Mechanisms of Evolution 16.1 Causes of microevolution.

The Structure, Function, and Evolution of Vascular Systems Instructor: Van Savage Spring 2010 Quarter 3/30/2010.

Evolution and Human Health – Chapter 14 - Flu virus evolution - Antibiotic resistance - Cancer as set of evolving population - Adaptative reasoning and.

Discovery of a rare arboreal forest-dwelling flying reptile (Pterosauria, Pterodactyloidea) from China Wang et al. PNAS Feb. 11, 2008.

Unit III Information Essential to Life Processes Learning Goal 3 Explain how the processing of genetic information is imperfect and is a source of genetic.

Evidence for Positive Epistasis in HIV-1 Sebastian Bonhoeffer, Colombe Chappe, Neil T. Parkin, Jeanette M. Whitcomb, Christos J. Petropoulos.

MCB 7200: Molecular Biology Biotechnology terminology Common hosts and experimental organisms Transcription and translation Prokaryotic gene organization.

09/20/04 Introducing Proteins into Genetic Algorithms – CSIMTA'04 Introducing “Proteins” into Genetic Algorithms Virginie LEFORT, Carole KNIBBE, Guillaume.

Evolution of Aging & Late Life Chapter 18. Evolutionary Definition of Aging Sustained age-specific decline of fitness related characteristics not due.

Selectionist view: allele substitution and polymorphism

Evolution of Populations

Chapter 1 Introduction.

Chapter 6 Ecology and Evolution. Case Study: Inadvertent Evolution Bighorn Sheep: Ovis canadensis; have the ability to balance on steep ledges Males can.

evolution What is evolution? A gradual change in the genes of a population of organisms over time.

SPECIATION How Populations Evolve. What is a Species?  A species is often defined as a group of individuals that actually or potentially interbreed in.

Objective: Chapter 23. Population geneticists measure polymorphisms in a population by determining the amount of heterozygosity at the gene and molecular.

In populations of finite size, sampling of gametes from the gene pool can cause evolution. Incorporating Genetic Drift.

14.4 & 14.5 Gene Pools & Evolutionary Biology. Gene Pool Definition- all the alleles of a population. A population -smallest level of evolution. Reservoir.

MICROBIOLOGIA GENERALE Prokaryotic genomes. The Escherichia coli nucleoid.

Molecular coevolution Steve Paterson. Host-parasite interactions Drive diversity within species Drive divergence between species.

Announcements Seminar today after class! Seminar Wednesday!

Learning Target: Evolution of Populations Ch – 11. 2, pp

From: Cost of Antibiotic Resistance and the Geometry of Adaptation

MULTIPLE GENES AND QUANTITATIVE TRAITS

Intro to microbial evolution

The Making of the Fittest Evidence of Evolution youtube

Natural Selection Cartoons

Natural Selection & Evolution

Evolution Standards Rachel Tumlin.

The mechanisms for the origin and proliferation of MDR strains.

S. Borrell, S. Gagneux Clinical Microbiology and Infection

Michael M. Desai, Daniel S. Fisher, Andrew W. Murray Current Biology

Costs and Benefits of Mutational Robustness in RNA Viruses

Modern Evolutionary Theory

Presentation transcript:

Evolutionary Biology Group Isabel Gordo Genomes and Evolution

Evolutionary change: Understanding the evolution of any biological system depends upon understanding each of these mechanisms Estimates of these parameters in bacteria will have a profound impact on our understanding of their biology, their diversity, their rate of speciation and in our health. Experimental Evolution with bacteria allows us to directly measure these parameters and to test theoretical predictions about the genetic basis of adaptive evolution. -Rate of mutation -Strenght of natural selection -level of interaction between mutations - epistasis

Mutation, selection and epistasis in Escherichia coli Is there a law governing its adaptation?

R.A. Fisher and a microscope A random mutation of large effect has much higher change of being deleterious than of being beneficial Most beneficial mutations have small effects on fitness

Imhof M, Schlotterer C. PNAS 2001 Study of adaptation in E. coli while it is occurring Genetically modify the bacteria to measure adaptive mutations as they get incorporated in the population time One adaptive event- selective sweep

Fig. 1. Distribution of fitness effects measured in the populations of N e =2x10 4. The grey bars show the distribution of the measured beneficial mutations Ua=2x10 -5 per genome per generation E(Sa)=0.01 Perfeito et al. Science 2007 The rate of mutation to beneficial alleles can be as high as 2x in 150 new mutations can be advantageous Compatible with Fisher: adaptive mutations of large effect are rarer

Mutations confering antibiotic resistance have a benefit when the drug exists in the environments Mutations confering antibiotic resistance have a cost in drug free environments Best combination is that which leads to the higher cost. Epistasis and evolution of antibiotic resistance If a pathogenic strain is resistant to antibiotic X, which antibiotic should be administered as a second treatment?

If c12 = c1+ c2No epistasis, no interaction  =0 If c12 > c1+ c2Negative epistasis, high cost  <0 If c12 0 X X XX Cost of mutation c1 Cost of mutation c2 Cost of mutation 1 & 2 ? What is the cost of multiple antibiotic resistance? Resistant to antibiotic 1 Resistant to antibiotic 2 Resistant to both antibiotics

LB with drug Sequencing 1) Select resistant clones: Antibiotics used: (i)nalidixic acid, which inhibits DNA replication by binding to DNA gyrase; (ii) rifampin, binds to the b-subunit of RNA polymerase thereby inhibiting transcription; (iii) streptomycin, binds to the ribosome and inhibits elongation of protein synthesis X rpsL K43N 2) Make all possible combinations of double resistant clones

Major finding 1 # combinations with positive epistasis > # with negative epistasis The cost of double resistance is lower than expected

Major finding 2: Resistance mutations to a new antibiotic can compensate the cost of resistance to another antibiotic

Low cost for resistance mutations X and Y "What is true for E. coli is true for the elephant," Jacques Monod E. coli M. tuberculosis High frequency of multiple resistance involving X and Y

We estimated that 1 in 150 mutations can be adaptive This is the highest estimate ever obtained in a bacteria The mean effect of each new beneficial mutations is about 1%. The data supports the Fisherian hypothesis that most beneficial mutations have small effects and those that will fix follow a gamma distribution Conclusions:

We estimated that 1 in 150 mutations can be adaptive This is the highest estimate ever obtained in a bacteria The mean effect of each new beneficial mutations is about 1%. The data supports the Fisherian hypothesis that most beneficial mutations have small effects and those that will fix follow a gamma distribution Double antibiotic resistance is less costly than we could a priori predict Very difficult to eliminate resistant bacteria Some resistance mutations which are deleterious when in a wild- type background are beneficial (compensatory) when in a genetic background that contains another resistance => Sign epistasis

Together these results are the worst nightmare for the host and the best dream for the microbe. Conclusions:

Thanks to: -Lisete Fernandes (IGC) -Ana Margarida Sousa(IGC) -Francisco Dionisio (FCUL) -Karina Xavier(IGC/ITQB) -Miguel Godinho Ferreira(IGC) Lilia Perfeito & Sandra Trindade Thank you all!!!

Evolutionary questions on mutation Is there an optimal mutation rate? What is the optimal mutation rate? R.A. Fisher 1930 “The genetical theory of natural selection”: optimal U must have an intermediate value

Drake’s Rule Genomic mutation rate in DNA microbes is ~ constant Drake’s U=0.003 (Drake et al. 1998) Review by Sniegowski et al (2000)- Pink:RNA viruses (rv, rhinovirus; pv, poliovirus; vsv, vesicular stomatitis virus; mv, measles virus). Red: DNA phages M13, T2, T4, and λ. E. coli (Ec) Saccharomyces cerevisiae (Sc) Neurospora crassa (Nc) Ce: C. elegans; Dm: Drosophila melanogaster; Mm, Mus musculus; Hs, Homo sapiens