Computational Genomics (KIZ, Fall 2024): Difference between revisions

Course Overview

Welcome to Computational Genomics, a 9-week computer workshop for graduate students. A genome is the total genetic content of an organism. Driven by breakthroughs such as the decoding of the first human genome and next-generation DNA -sequencing technologies, biomedical sciences are undergoing a rapid and irreversible transformation into a highly data-intensive field.

Genome information is revolutionizing virtually all aspects of life sciences including basic research, medicine, and agriculture. Meanwhile, use of genomic data requires life scientists to be familiar with concepts and skills in biology, computer science, as well as data analysis.

This workshop is designed to introduce computational analysis of genomic data through hands-on computational exercises, using published studies.

The pre-requisites of the course are college-level courses in molecular biology, cell biology, and genetics. Introductory courses in computer programming and statistics are preferred but not strictly required.

Learning goals

By the end of this course successful students will be able to:

• Use Linux commands & compose simple shell scripts to automate a bioinformatics pipeline
• Program in Python for parsing texts and simulating evolution
• Visualize data and perform statistical analysis using R/RStudio
• Compose a bioinformatics research report

Web Links

• Install R base: https://cloud.r-project.org
• Install R Studio (Desktop version): http://www.rstudio.com/download
• Download: R datasets
• A reference book: R for Data Science (Wickharm et al)
• Github repository: Computational Skills for Biologists (Allesina & Wilmes)

Assignments, Quizzes, and Final Report

Student performance will be evaluated by attendance, three (3) quizzes, six (6) assignments, and a final report:

• Attendance & participation: 30 pts
• Assignments: 6 x 10 = 60 pts
• Open-Book Quizzes: 3 x 20 pts = 60 pts
• Final presentation: 50 pts

Total: 200 pts

Course Schedule

Week 1, Thursday, Oct 10, 2024

• Introudction. Lecture slides: File:QiuLab-CUNY-Hunter.pdf
• Computer setup: gitee accounts (for course management). Course link on gitee
• Survey 1: Genomics & Data Science PDF file: File:KIZ-survey-1.pdf
• Survey 2: Tree-thinking Skills PDF file: File:Pretest-1.pdf
• Computer setup: Linux accounts (on the "phylonet.net" server)
• Lecture: Tree-thinking Skills. Lecture slides: File:Phylogeny-lecture-slides-2024.pdf

Week 2, Thursday, Oct 17, 2024

• Git usages (by Mr Liu)
  • Demo: homework submission using Gitee
  • Download the course repository: git clone https://gitee.com/huntercollege/comp-genomics-kiz.git
• Linux Tutorial I. File:Intro-unix-KIZ.pdf
• Phylogenetics lecture: File:Part-1-tree-thinking.pdf
  • Tree manipulations: reroot & tree distances
  • Gene tree vs Species tree; orthologous and paralogous genes; tree pruning & collapsing

Week 3, Thursday, Oct 24, 2024

• Quiz #1: tree manipulations
• Linux Tutorial II: BpWrapper Toolkit (https://github.com/bioperl/p5-bpwrapper)
• Python Tutorial I: Advanced Python
• Trait evolution and comparative analysis
• Pre-test-2

Week 4, Thursday, Oct 31, 2024

• Python Tutorial II: Regular expression & scientific computing with Python
• Assignment 3

Week 5, Thursday, Nov 7, 2024

• Quiz #2
• Computer setup: R & RStudio
• R Tutorial 1: Basic R
• Assignment 4

Week 6, Thursday, Nov 14, 2024

• R Tutorial 2: Data visualization & basic statistics
• Assignment 5

Week 7, Thursday, Nov 21, 2024

• Quiz #3
• Genomics Tutorial 1: Cluster analysis & scRNA analysis
• Final report (draft 1: Background, Hypothesis, Significance, Material & Methods)

Week 8, Thursday, Nov 28, 2024

• Genomics Tutorial 2. NGS data analysis
• Final report (draft 2: Results & Discussion)

Week 9, Thursday, Dec 5, 2024

• Genomics Tutorial 3. Monte Carlo simulations of genome evolution
• Final report (draft 3: Conclusions, future directions, reference)
• Final report due Nov 26

Week 10, Thursday, Dec 10, 2024

• Final presentation