San José State University
Computer Science/Biology 123A
Bioinformatics I
Course Code: 48565 for Biol 123A
Course Code: 46887 for CS 123A

Fall 2011
Tuesdays and Thursdays 9:00-10:15 in DH 450

Some Former Biology/CS 123A/B Students

Kate Isaacs (2011) Pursuing PhD in Computer Science at the University of California at Davis (2011).
Yulia Newton (2011) Pursuing PhD in Bioinformatics at the University of California at Santa Cruz (2011).
Edward Liaw (2010) Pursuing MS in Bioinformatics at UC Santa Cruz.
Ben Haller (2009) Pursuing PhD in Biology at McGill University in Montreal, Canada.
Hieu Hoang (2009) Pursuing PhD in Cell Molecular Biology at the University of Alabama at Birmingham.
Maria Ajlouny (2009) School of Dentistry at UC San Francisco.
Magdalena Franco (2009) Pursuing PhD in Microbiology and Immunology at Stanford University.
Wendy Lee (2008) Summer Internship at Cal Tech. Pursuing PhD program in Bioinformatics at UC Santa Cruz (2009).
Phil Heller (2008) Pursuing PhD in Bioinformatics at UC Santa Cruz (2009).
Keith Calenberg (2007) REU Internship at Iowa State University. Pursuing PhD in Computational Biology at Carnegie Mellon Institute (2008).
Amie Radenbaugh (2007) Summer Internship at TAIR. Pursuing PhD in Bioinformatics at UC Santa Cruz (2009).
Carol Chaffee (2007) Pursuing PhD at the University of South Florida.
Aaron Hardin (2006) Summer Internship at MIT. Pursuing PhD at UC Berkeley (2008).
Tom Chien (2006) MS in Biological Sciences at SJSU.
Nora Pakulis (2006) Research Specialist, Center for Bio-Optical Nanotechnology, Arizona State University.
Khoi Ho (2005) Summer Internship at the University of Texas Medical Branch. Pursuing MS in CS at UTMB.
Archana Thakkapallayil (2005) Biological Database Testing and User Support Technician at the Center for Biomolecular Science and Engineering, UCSC.
Raghavan Srinivasan (2005) Pursuing PhD at the University of Washington, Seattle.
Ryan Pham (2005) Summer Internship at TAIR. MS in CS at SJSU (2008). Employed at IBM.
Renee Halbrook (2005) Summer Internship at TAIR.
Christopher Wilks (2004) Summer Internship at TAIR, Programmer at TAIR. Pursuing MS in CS at UCSC (2008).
Doug Simmons (2003) Software Developer in the Department of Plant Biology at the Carnegie Institution of Washington. MS in CS at SJSU (2008). Employed at Lockheed Martin.
Monika Jain (2003) Summer Internship in the Department of Plant Biology at the Carnegie Institution of Washington.

Interesting links

A brief introduction to molecular biology with emphasis on genomics and bioinformatics Good introduction of molecular biology for CS students.
What is bioinformatics? NCBI Tutorial.
Bioinformatics at the Swiss Institute of Bionformatics Good definition of Bioinformatics.
An Introduction to the Double Helix.
A Primer on Molecular Genetics from the U.S. Department of Energy.
The Human Genome - What's Next? from Current Science and Technology Center.
Cracking the Code of Life NOVA program. Requires Quick Time or Real Video Plug-in.
Additional slides with animations to strengthen your understanding of the central dogma of molecular biology, sickle cell anemia, etc..

Link to biotechnology companies in the Bay Area.

Information about the Instructor

Name: Sami Khuri
Office: 418 MacQuarrie Hall
Phone: 924-5081
Office Hours: Tuesdays and Thursdays: 13:15 to 15:20.

Catalogue Description

This practical course, cross-listed with the biology department, provides an introduction to the main public domain tools, databases and methods in bioinformatics, including DNA and protein databases, such as Genbank and PDB, software tools such as those in the Wisconsin Package, at the National Center for Biotechnology Information (NCBI), and other web accessible applications. More precisely, the course introduces the methods for collecting, editing, and storing macromolecular sequences, for pairwise and multiple sequence alignments, for database searching for similar sequences, and for phylogenetic prediction. This course is intended both for biology and computer science students, to work together to solve complex biological questions requiring the use of standard bioinformatics applications and databases.
Textbook

Textbook Reading Guidelines Last update: September 1, 2009.
Biology Terms
Understanding Bioinformatics by Marketa Zvelebil and Jeremy Baum, Garland Science, 2008, ISBN 0-815-34024-9.
The book can be found at the bookstore under CS123A.
1. We shall cover most of the topics from chapters 1, 2, 3, 4 and 7.
2. Before reaching the end of a chapter, I will announce which topics of the following chapter will be covered.
3. A copy of my powerpoint slides (2 per page and 6 per page) will be available to the students enrolled in the class.
Course Objectives
To promote cross-disciplinary communication between the two fields: Biology and Computer Science.
Use case studies in homework and in-class hands-on exercises to extract generalizable concepts.
To acquaint students with some of the most challenging problems in life science and show how computer science can be used to solve some of these problems.
Pairwise alignment (local, global, semiglobal)
Homology and similarity
Multiple sequence alignment
Database searches
Phylogenetic tree construction
Upon successful completion of this course, students should be able to use dynamic programming for pairwise alignment, to understand how multiple sequence alginment algorithms work, to have a clear understanding of Fitch-Margoliash, UPGMA and neighbour-joining phylogenetic tree algorithms, and to know various databases for DNA and protein sequences.
Course Requirements
1. Dual Role of DH450: Lecture/Lab
  DH450 is a dual purpose room. It can be a regular lecture room or it can be a computer laboratory. Please note that OR in the last sentence is exclusive. In other words, DH450 is never a lecture room AND a computer lab at the same time.
  
  Lecture Mode: This is when DH450 is used as a regular lecture room. Students are expected to listen and follow the lecture. DH450 is a noisy room because of the large number of workstations and the server. Be considerate to your classmates and follow the lecture. Do not use the computer (workstation) and do not talk to your classmates. Do not open your laptops. If you are addicted to checking mail, chatting, surfing the internet, etc..., and cannot follow these simple rules, please do not enroll in this class.
  
  Lab Mode: This is when DH450 is used as a computer lab. Use the computers and share your ideas and solutions with your classmates.
  
  We shall alternate between the two modes. A typical class will begin with a short lecture (Lecture Mode) followed by a hands-on (Lab Mode). We will have a number of hands-on exercises. The purpose of the hands-on exercises is to develop your understanding of the material.
  
  Tentative Schedule:
  August 25 to September 8: Introduction to Molecular Biology and to Bioinformatics
  September 8 to October 1: Pairwise Sequence Alignment
  October 6 to October 27: Multiple Sequence Alignment
  November 3 to December 1: Phylogenetic Inference
2. Problem Sets:
  Five homework assignments. The purpose of the assignments is to develop your understanding of the material and your skills in problem-solving. Only a subset of the assigned problems on any given problem set will be graded. No late homework will be accepted. However, under exceptional circumstances, one problem set per student might be accepted late. It will need to be handed in prior to the following class meeting and will be graded with 30% off. Such an extension should be requested from the instructor. Any homework not picked up during class time will be left on the shelves near my office door. Assignments are due in the beginning of the lecture on the following dates:
  - HW One due on Thursday, September 8, 2011.
    Please note that you need the book to be able to solve Problem 1. I hope you already have the book. If not, the book can be found at the bookstore under CS123A. Or you can purchase it online from many different sources.
  - HW Two due on Thursday, September 22, 2011.
  - HW Three due on Thursday, October 13, 2011.
    The article Specific transcription and RNA splicing defects in five cloned beta-thalassemia genes might be helpful for the extra credit questions of Problem 4.
  - HW Four due on Thursday, November 3, 2011.
    The eight sequences myh16_Sequences.txt needed for Problem Five.
  - HW Five due on Thursday, November 17, 2011.
    The article Multiple founder effects and geographical clustering of BRCA1 and BRCA2 families in Finland needed for Problem Two, Part a.
    The article Novel Germline BRCA1 and BRCA2 Mutations in Breast and Breast/Ovarian Cancer Families from the Czech Republic needed for Problem Two, Part b.
    
    Cover sheet for all assignments
3. Term Project:
  There will be a term project. This is a group project. Each group consists of two students. As mentioned in the project description, the Team Formation is due by September 29, 2011. The Progress Report is due by Thursday, October 27, 2011 at the begining of the class. The final project is due on Thursday, December 1, 2011 at the beginning of the lecture.
4. Exams:
  Exam One: Tuesday, October 4, 2011.
  Exam Two: Tuesday, November 15, 2011.
  Final Exam: Wednesday, December 14, 2011, from 7:15 to 9:30am.
  
  Exam One and Exam Two are each one hour and fifteen minutes long. All exams are in-class, closed-book and comprehensive. You will get back your exams within one week at which time we'll go over them in class. Exams will be collected and kept with me. Make-up exams will be given only at the instructor's discretion.
Class Attendance

Class attendance is strongly encouraged. In class, we shall cover many topics and examples that are neither in the class notes nor in the textbook. If you miss a lecture, it is your responsibility to find out what was covered in class (this includes: handouts given out during your absence, corrected typos and errors, examples discussed in class - that are neither in the book nor in the notes - clarifications and changes made to assignments or the project, etc...).

Grading Policy

The final grade will be computed as shown below:
Assignments: 20%
Exam One: 20%
Exam Two: 20%
Project: 10%
Final: 30%
[97, 100] A+
[93, 97) A
[90, 93) A-
[87, 90) B+
[82, 87) B
[80, 82) B-
[77, 80) C+
[72, 77) C
[70, 72) C-
[67, 70) D+
[62, 67) D
[60, 62) D-
[0, 60) F
Add/Drop Policy
For those wishing to add this course, the deadline is September 13, 2011. The last day to drop with a full refund is September 6, 2011. According to University and Department guidelines, dropping after September 6, 2011, requires a serious and compelling reason to drop a course. Grades alone do not constitute reason to drop a course. Students who stop attending without officially dropping will be issued a U at the end of the semester which is counted as an F in calculations of GPA. See University Catalog.
Academic Integrity
Students should read the ``Policy on Academic Integrity" in the University Catalog. Anyone caught cheating (including copying the work of others) on any assignment in the class will receive a failing grade for the assignment, in addition to other sanctions that are permitted by the University, including but not limited to the filing of a report with the Dean of Student Services and expulsion from the University. Students should read the ``Policy on Academic Integrity" in the University Catalog. The "Policy on Academic Integrity" can be found here.
- Anyone caught cheating (including copying the work of others) on any assignment in the class will receive a failing grade for the assignment, in addition to other sanctions that are permitted by the University, including but not limited to the filing of a report with the Dean of Student Services and expulsion from the University.
- Your own commitment to learning, as evidenced by your enrollment at San Jos� State University, and the Universitys Academic Integrity Policy requires you to be honest in all your academic course work. Faculty are required to report all infractions to the Office of Judicial Affairs.
Disability Resource Center
If you need course adaptations or accommodations because of a disability, or if you need special arrangements in case the building must be evacuated, please make an appointment with me as soon as possible, or see me during office hours. Presidential Directive 97-03 requires that students with disabilities register with DRC to establish a record of their disability.
Summer 2011 Internships and Research Programs
Summer Research Opportunities at the UC, San Francisco (2011)
An excellent link to Co-op and internship opportunities in Bioinformatics, Genomics and Proteomics (2011)
Carnegie Undergraduate Summer Program, at Stanford University. Over the years, a number of SJSU students have had summer internships there.
Summer Internship Program in Biomedical Research at the National Institutes of Health (2011).
Summer Research Program 2011 in Molecular and Cellular Biosciences (2011).
Stanford Summer Research Program in Biomedical Sciences (2011).
Summer Experience in Biomedical Science (2011)
Educational opportunities at Roswell Park, Buffalo, NY (2011).

San José State University Computer Science/Biology 123A Bioinformatics I Course Code: 48565 for Biol 123A Course Code: 46887 for CS 123A

Fall 2011 Tuesdays and Thursdays 9:00-10:15 in DH 450

Some Former Biology/CS 123A/B Students

Interesting links

Information about the Instructor

Catalogue Description

Textbook

Course Objectives

Course Requirements

Tentative Schedule:

Class Attendance

Grading Policy

San José State University
Computer Science/Biology 123A
Bioinformatics I
Course Code: 48565 for Biol 123A
Course Code: 46887 for CS 123A

Fall 2011
Tuesdays and Thursdays 9:00-10:15 in DH 450