Rutgers, The State University of New Jersey
Graduate School-Camden
 
About the University
Graduate Study at the University
Financial Aid
Student Life
Student Programs and Services
Academic Policies and Procedures
Degree Requirements
Graduate School-Camden
Actuarial and Statistical Analysis
Applied Computing
Biology 120
Biology, Computational and Integrative 121
Business and Science 137
Chemistry 160
Program
Admission Requirements
Degree Requirements
Graduate Chemistry Courses
Biochemistry Courses
General Interest Courses
Childhood Studies 163
Computer Science 198
Creative Writing 200
Criminal Justice 202
English 350, 352, 354, 615, 842
Forensic Science 412
History 512
Industrial Mathematics
Liberal Studies 606
Mathematical Sciences 645
Psychology 830
Public Administration 834, 831
Public Affairs 824
Teacher Education 956
World Languages and Cultures 410
Rutgers School of Business-Camden
School of Nursing-Camden
School of Social Work: Master of Social Work (M.S.W.) Program
Divisions of the University
Camden Newark New Brunswick/Piscataway
Catalogs
  Camden Graduate Catalog 2019-2021 Graduate School-Camden Chemistry 160 Biochemistry Courses  

Biochemistry Courses
56:115:511,512 Biochemistry I,II (3,3) Study of the structure and function of proteins and enzymes. Analysis of the chemistry of carbohydrates, lipids, and nucleic acids. Detailed survey of metabolic pathways, with an emphasis on regulation.
56:115:522 Protein Structure and Function (3) Basic structural principles of polypeptides, mechanisms of enzyme catalysis, biosynthesis and degradation of proteins, biophysical techniques used in the determination of peptide and protein structure, protein folding, protein engineering, catalytic antibodies, peptide and protein de novo design, solid-phase peptide synthesis, and interactive computer graphics modeling.
56:115:524 Pharmaceutical Chemistry (3) Drug research is a challenging: numerous attributes of drug molecules need to be simultaneously optimized. The class will focus on the molecular similarities of compounds with potential pharmaceutical applications. Absorption, distribution, metabolism, and exclusion (ADME) as well as toxicity are critical reasons to determine whether a compound will be an efficacious drug-like compound. This class will educate students who plan to be engaged in the research and design of new pharmaceutical compounds.
56:115:527 Bionanotechnology (3) Bionanotechnology is an emerging field that applies the fundamentals of nanotechnology to solve relevant biological and chemical problems and refines new methods and tools for medicine and energy. Nanotechnology refers to the revolutionary technology that manipulates matter with matter with at least one dimension sized from 1-100 nanometers. Molecular structures exhibit unique properties at this scale where the quantum phenomenon starts to play an important role as compared to bulk materials. Bionanotechnology describes the overlapping of multidisciplinary activities that evolve as photonics, chemistry, biology, biophysics, nanomedicine, and engineering converge.
56:115:530 Forensic and Analytical Molecular Biology (3) This course provides a survey of the theories, quantitative analysis methods, and molecular biotechniques commonly employed in forensic operations. Topics include genome structure, nucleic acid extraction, real-time PCR, digital PCR, end-point PCR, recombinant DNA techniques, interrelationship of DNA-RNA-protein synthesis, capillary electrophoresis, Sanger sequencing, massive parallel sequencing, dynamic modeling, and probabilistic genotyping for inference.
56:115:531 Forensic DNA Laboratory (1) At the completion of this course students will have an understanding of basic protocols, bio-analytical techniques, and procedures commonly applied in forensic DNA testing. They will be exposed to state-of-the-art forensic DNA interpretation methods based on probabilistic genotyping and will gain experience with common DNA extraction procedures, the polymerase chain reaction, the absolute quantification with real-time PCR, DNA fragment analysis using capillary electrophoresis, and quality control measures implemented in the human identification laboratory.
56:115:571 Forensic Serology (3) This course addresses the theory and practice of forensic serology.  Students will learn the presumptive and confirmatory testing methods used to determine the type and source of biological stains along with new technologies under development. Advanced techniques such as qPCR and mass spectrometry may also be explored.
56:115:573 Forensic Serology Laboratory (1) This course introduces the students to the hands-on experience of taking an unknown biological fluid and determining the species of origin and the body-fluid type. Exposure to techniques including lateral flow immunochromatography and microscopy for purposes of fluid-type categorization will be explored. Corequisite: 56:115:571.
56:115:575,576 Special Topics in Biochemistry (BA,BA) Subject matter varies according to the expertise of the instructor and is drawn from areas of current biochemical interest.
56:115:619,620 Individual Studies in Biochemistry (BA,BA) Designed for students conducting original projects in chemistry in lieu of a research thesis. The project is designed and conducted in consultation with a sponsor from, or designated by, the graduate faculty.
56:115:701,702 Research in Biochemistry (BA,BA) Open only to students working on research for their thesis. Prerequisite: Permission of thesis adviser.
 
For additional information, contact RU-info at 848-445-info (4636) or colonelhenry.rutgers.edu.
Comments and corrections to: Campus Information Services.

© 2019 Rutgers, The State University of New Jersey. All rights reserved.
Catalogs Home