Title: Educational Opportunities in Cheminformatics at IU
1Educational Opportunities in Cheminformatics at IU
- Gary Wiggins
- wiggins_at_indiana.edu
2Overview
- Formal courses
- Degree programs
- Graduate certificate program
- Guide to web resources
- Collaborative work on educational modules
3Formal Courses
- Undergraduate courses
- I371 Chemical Informatics (1 cr. hour)
- I372 Molecular Modeling (2 cr. hours)
- Introductory graduate courses
- I571 Chemical Information Technology
- I572 Computational Chemistry and Molecular
Modeling - I573 Programming for Science Informatics
- I617 Informatics in Life Sciences and Chemistry
(core PhD course for non-majors) - Seminars
- I533 Chemical Informatics Seminar
- I647/I657 Advanced Chemical Informatics Seminar
I-II
4Cheminformatics Seminar
- I533 Seminar in Chemical Informatics
- Spring 2006 Topic Molecular Informatics, the
Data Grid, and an Introduction to eScience - http//www.indiana.edu/cheminfo/I533/533home.html
5I647 I657 Advanced Chemical Informatics
Seminars I-II
- Topics vary yearly and include
- representation of chemical compounds
- representation of chemical reactions
- chemical data, databases and data sources
- searching chemical structures
- calculation of physical and chemical data
(molecular mechanics and quantum mechanics) - calculation of structure descriptors
- methods for chemical data analysis
- integration of cheminformatics and bioinformatics
- Fall 2006 topic Bridging Bioinformatics and
Chemical Informatics - http//www.indiana.edu/cheminfo/I647/647home.html
6Degree Programs BS and MS
- BS degree
- 34 credit hours of Informatics courses
- Cognate area, usually a minor in areas such as
chemistry, biology, computer science, fine arts,
business, etc. - MS degree 36 semester hours
- IUB Bioinformatics, Chemical Informatics,
Human-Computer Interaction - IUPUI also New Media, Health Informatics,
Laboratory Informatics - Includes a 6-hour capstone/research project
7Unique MS Program at IUPUI
- Laboratory Informatics at IUPUI
- Instrumentation and data interfacing
- Laboratory notebooks
- Laboratory Information Management Systems (LIMS)
8Degree Programs PhD in Informatics
- Began in August 2005
- The 90 hours of credit for the PhD in Informatics
(cheminformatics track) consist of - 27 hours of required informatics courses
- I501 Introduction to Informatics (3 cr.)
- Core informatics courses (9 cr.)
- Seminars in the cheminformatics track (6 cr.)
- Professionalism/Pedagogy course (3 cr.)
- Research Rotation (6 cr.)
- 12 hours in theory or methodology courses (or
credits from an MS degree) - 21 hours of electives (or credits from an MS
degree) - 30 hours of dissertation research.
9Concentration Areas for the PhD in Informatics
- Tracks
- bioinformatics chemical informatics health
informatics human-computer interaction design
social and organizational informatics - Under development
- complex systems, networks, modeling and
simulation cybersecurity discovery and
application of information logical and
mathematical foundations music informatics
10Other Educational Activities
- Experiments with teleconferencing as a distance
education tool - I571 as CIC CourseShare offering
- Distributed Drug Discovery database for organic
chemistry laboratory course at IUPUI - Graduate Certificate in Chemical Informatics
11Graduate Certificate in Chemical Informatics
- Requirements 4 courses each 3 cr. hours
- I571 Chemical Information Technology
- I572 Computational Chemistry and Molecular
Modeling - I573 Programming for Science Informatics
- I553 Independent Study in Chemical Informatics
- Available to on-site IUB/IUPUI and Distance
Education students
12General Cheminformatics Resources
- http//www.chembiogrid.org/related/index.html
- Academic Programs
- Chemistry Databases on the Web
- Professional Societies and Groups
- Companies and Independent Institutions
- Publications and Conferences
- Data Standards and Standards Groups
- Molecular Visualization Tools and Sites
- Web Services Technology Resources
- Other Guides to Cheminformatics Resources
13Training Modules for Chemical Informatics
Instruction
- Mesa Analytics Cheminformatics Virtual Classroom
- http//www.chemvc.com/
14END
15Software/DBs Used in the Program
- Company Products and/or (Target
Area) - ArrgusLab (Molecular modeling)
- Digital Chemistry (formerly, BCI) Toolkit
(Clustering) - Cambridge Cryst Data Center Cambridge Structrual
DB GOLD - CambridgeSoft ChemDraw Ultra
- Chemical Abstracts Service SciFinder Scholar
- Chemaxon Marvin (and other software)
- Daylight Chemical Info System Toolkit
- FIZ Karlsruhe Inorganic Crystal Structure DB
- IO-Informatics Sentient
- MDLCrossFire Beilstein and Gmelin
- OpenEye Toolkit (and other software)
- Sage Informatics ChemTK
- Serena Software PCmodel
- Spotfire DecisionSite
- STN International STN Express with Discover
(Anal Ed) - Wavefunction Spartan
16Core and Affiliated Faculty
- MU-HYUN BAIK
- KELSEY FORSYTHE
- GEOFFREY C. FOX
- SANTIAGO SCHNELL
- DAVID J. WILD
- DIMITRIS AGRAFIOTIS (adjunct)
- JOHN M. BARNARD (adjunct)
- DONALD B. BOYD (affiliated)
- ROBERT D. CLARK (adjunct)
- DAVID E. CLEMMER (adjunct)
- CHARLES H. DAVIS (affiliated)
- THOMPSON N. DOMAN (adjunct)
- KEVIN E. GILBERT (affiliated)
- GARY M. HIEFTJE (adjunct)
- JOHN C. HUFFMAN (adjunct)
- PETER J. ORTOLEVA (adjunct)
- GARY D. WIGGINS (adjunct)
- FAMING ZHANG (affiliated)
17Outreach Activities
- Research relationships with
- IU School of Medicine
- IUB/IUPUI bioinformatics and proteomics research
programs - Commercial firms through internships (LeadScope,
Rosetta Inpharmatics, Lilly, etc.)
18Why IU for Chemical Informatics?
- Outstanding Faculty
- Excellent computer facilities and infrastructure
- Close proximity to major pharmaceutical companies
(Lilly, Abbott, Pfizer) and to chemical
informatics companies (Tripos, LeadScope,
Chemical Abstracts Service) - History of innovative, IT-based chemical
information services (QCPE, MSC) - Complementary programs in IUs School of Library
and Information Science (SLIS)
19Introducing Graduate Students to Cheminformatics
Research
- I571, I572, and seminar projects
- Research rotations of PhD students
- RA assignments