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The key for comparing genomes across species is "tree-thinking", the idea that evolution happens by diversification (like a branching tree) not by climbing a ladder. There is no such thing as "advanced" or "primitive" species. All living species have the exact same evolutionary distances/time of divergence since the origin of life.
The key for comparing genomes across species is "tree-thinking", the idea that evolution happens by diversification (like a branching tree) not by climbing a ladder. There is no such thing as "advanced" or "primitive" species. All living species have the exact same evolutionary distances/time of divergence since the origin of life.


==Examples from Qiu Lab==
==Three applications from Qiu Lab==
* Comparative genomics of worldwide Lyme disease pathogens
* Comparative genomics of worldwide Lyme disease pathogens
* Evolution of multi-drug antibiotic-resistance Pseudomonas in cancer patients
* Evolution of multi-drug antibiotic-resistance Pseudomonas in cancer patients

Revision as of 04:31, 20 June 2018

Introduction to Evolutionary Genomics (CUNY/Cornell Big Data Summer Workshops 2018)
Instructor: Dr Weigang Qiu, Associate Professor, Department of Biological Sciences
Office: B402 Belfer Research Building
Email: weigang@genectr.hunter.cuny.edu
Lab Website: http://diverge.hunter.cuny.edu/labwiki/

Borreliabase-screenshot-1.png

What is evolutionary genomics?

Genomes differ among individuals and change over time. Evolutionary genomics studies genome variability and genome changes based on evolutionary principles. Typical applications include identification of human genome variations associated with diseases and identification of pathogen virulence genes.

Genome changes are studied at two levels: (1) within-species/within-population variations (e.g., human genetic variation), and (2) between-species divergence (e.g., human-mouse comparisons).

The key for analyzing genome variations within species is "population-thinking", the idea that there is no one individual genome that is standard, normal, or disease-free.

The key for comparing genomes across species is "tree-thinking", the idea that evolution happens by diversification (like a branching tree) not by climbing a ladder. There is no such thing as "advanced" or "primitive" species. All living species have the exact same evolutionary distances/time of divergence since the origin of life.

Three applications from Qiu Lab

  • Comparative genomics of worldwide Lyme disease pathogens
  • Evolution of multi-drug antibiotic-resistance Pseudomonas in cancer patients
  • Genomic epidemiology of Group B Streptococcus

Reference

  • Graur, 2016, Molecular and Genome Evolution, First Edition, Sinauer Associates, Inc. ISBN: 978-1-60535-469-9. Publisher's Website
  • Baum & Smith, 2013. Tree Thinking: an Introduction to Phylogenetic Biology, Roberts & Company Publishers, Inc.

Learning Goals

  • Be able to describe evolutionary relationships using phylogenetic trees
  • Be able to use command-line tools for batch-processing of genome files