Bioinformatics: Chemical & Biomolecular Engineering, MS

for the Master of Science in Bioinformatics, Chemical & Biomolecular Engineering Concentration


This program is not currently accepting applications.


Other Graduate Programs in Chemical & Biomolecular Engineering

degrees:

Chemical Engineering, MS

Chemical Engineering, PhD

optional concentrations:

Computational Science and Engineering


The Department of Chemical & Biomolecular Engineering offers graduate programs leading to degrees of Master of Science and Doctor of Philosophy in Chemical Engineering, as well as a Chemical & Biomolecular Engineering Concentration under the MS in Bioinformatics.


for the Master of Science in Bioinformatics, Chemical & Biomolecular Engineering Concentration


For additional details and requirements for all degrees, please refer to the department's Graduate Studies Web site and the Graduate College Handbook

Thesis Option

Computer Science and Informatics (choose one)4
Database Systems
Introduction to Bioinformatics
Algorithms
Perl & UNIX for Bioinformatics
Database Design and Prototyping
Research and Inquiry for Youth
Statistical Computing
Statistical Data Management
Advanced Data Analysis
Data Science Foundations
Computational Statistics
Fundamental Bioinformatics (choose one)4
Applied Bioinformatics
Statistical Genomics
Bioinformatics
Bioinformatics & Systems Biol
Introduction to Bioinformatics
Principles of Systematics
Computing in Molecular Biology
Biology (choose one)4
Human Genetics
Applied Animal Genetics
Population Genetics
Introduction to Biophysics
Biomolecular Physics
Advanced Plant Genetics
Genomics for Plant Improvement
Chromosomes
Molecular Marker Data Analyses
Plant Gene Regulation
Cancer Cell Biology
Introductory Biochemistry
Advanced Biochemistry
Advanced Molecular Genetics
CHBE 572
CHBE 580
Metabolic Systems Engineering
and Lab Techs in Bioinformatics
6
CHBE 599Thesis Research (min/max applied toward degree)4
Total Hours32

Other Requirements

Other requirements may overlap
A concentration is required.
Minimum 500-level Hours Required Overall: 12
Minimum GPA: 2.75

Non-Thesis Option

Computer Science and Informatics (choose one)4
Database Systems
Introduction to Bioinformatics
Algorithms
Perl & UNIX for Bioinformatics
Database Design and Prototyping
Research and Inquiry for Youth
Statistical Computing
Statistical Data Management
Advanced Data Analysis
Data Science Foundations
Computational Statistics
Fundamental Bioinformatics (choose one)4
Applied Bioinformatics
Statistical Genomics
Bioinformatics
Bioinformatics & Systems Biol
Introduction to Bioinformatics
Principles of Systematics
Computing in Molecular Biology
Biology (choose one)4
Human Genetics
Applied Animal Genetics
Population Genetics
Introduction to Biophysics
Biomolecular Physics
Advanced Plant Genetics
Genomics for Plant Improvement
Chromosomes
Molecular Marker Data Analyses
Plant Gene Regulation
Cancer Cell Biology
Introductory Biochemistry
Advanced Biochemistry
Advanced Molecular Genetics
CHBE 572
CHBE 580
Metabolic Systems Engineering
and Lab Techs in Bioinformatics
6
Total Hours36

Other Requirements

Other requirements may overlap
A concentration is required.
Minimum 500-level Hours Required Overall: 12
Minimum GPA: 2.75