http://www.umsl.edu/~biotech
Faculty
Shirley Bissen, Associate Professor of Biology*, Director
Ph.D., University of Michigan
Wesley R. Harris, Professor of Chemistry and Biochemistry*
Ph.D., Texas A. and M. University
Teresa Thiel, Professor of Biology*; Associate Dean,
Arts and Sciences
Ph.D., Case Western Reserve University
Valerian T. D’Souza, Associate Professor of
Chemistry and Biochemistry*
Ph.D., University of Detroit
Cynthia M. Dupureur, Associate Professor of Chemistry
and Biochemistry*
Ph.D., Ohio State University
Jane A. Starling, Associate Professor of Biology
Emeritus*
Ph.D., The William Marsh Rice University
Keith J. Stine, Associate Professor of Chemistry
and Biochemistry*
Ph.D., Massachusetts Institute of Technology
Colin MacDiarmid, Assistant Professor of Biology
Ph.D., University of Auckland
Wendy M. Olivas, Assistant Professor of Biology*
Ph.D., University of Nebraska Medical Center
Marc Spingola, Assistant Professor of Biology*
Ph.D., University of New Maxico
*members of Graduate Faculty
General Information
Degrees
The Biochemistry and Biotechnology Program provides academic programs
leading to the undergraduate B.S. degree or the graduate M.S. degree
in Biochemistry and Biotechnology. These degrees are offered in cooperation
with the Department of Biology and the Department of Chemistry and Biochemistry.
Faculty members in this program are engaged in teaching and research
in areas such as biochemistry, genetics, molecular biology, cell biology
and developmental biology. Majors have the opportunity through coursework,
laboratories, seminars and research experience to develop the knowledge
and skills necessary to enter the workforce or to go on with further
graduate education.
Career Outlook
Nationally and regionally the emerging Biotechnology sector will increase
the demand for workers with significant training in molecular biology,
biochemistry, and genetics. The St. Louis metropolitan area has long
been a major center for biochemistry and biotechnology, and in the past
decade it has become a focus for the establishment of life sciences research
and development. A degree in Biochemistry and Biotechnology provides
students with the training they need to become part of the broad biotechnology
and life sciences industries.
Undergraduate Studies
Degree Requirements
Bachelor of Science in Biochemistry and Biotechnology
General Education Requirements
Students must satisfy the university and college general education
requirements. Some math or science courses required for the major may
be used to meet the science and mathematics requirement of the university.
There is no foreign language requirement for the degree.
Satisfactory/Unsatisfactory Option
Up to 18 credit hours may be taken on a satisfactory /unsatisfactory
(s/u) basic. Excluded from this option are required courses in biology,
chemistry, physics, and mathematics.
Non-major Biology or Chemistry courses
Courses in Biology with a number less than 1800 and courses in Chemistry
with a number less than 1100 do not count toward the
credit hours required for a major in biochemistry and biotechnology.
1) Biology and Chemistry Core Courses
Biol 1811, Introductory Biology I
Biol 2012, Genetics
Biol 2013, Genetics Laboratory
Biol 2482, Microbiology
Biol 2483, Microbiology Laboratory
Biol 3622, Cell Biology
Biol 4602, Molecular Biology
Chem 1111, Introductory Chemistry I
Chem 1121, Introductory Chemistry II
Chem 2223, Quantitative Analysis
Chem 2612, Organic Chemistry I
Chem 2622, Organic Chemistry II
Chem 2633, Organic Chemistry Laboratory
Chem 3302, Physical Chemistry for Life Sciences
2) Biochemistry and Biotechnology Core Courses
Biol 4712 or Chem 4712, Biochemistry
Biol 4713, Techniques in Biochemistry or
Chem 4733, Biochemistry Laboratory
Biol 4614, Biotechnology Laboratory I
3) Math and Physics Core Courses
Math 1030, College Algebra
Math 1035, Trigonometry
Math 1100, Basic Calculus or
Math 1800, Analytic Geometry and Calculus I
Phys 1011, Basic Physics
Phys 1012, Basic Physics
4) Elective Courses – 9 credit hours chosen
from the courses below:
Biol 4612, Molecular Genetics of Bacteria
Biol 4632, Nucleic Acid Structure and Function
Biol 4622, Molecular Cell Biology
Biol 4615, Biotechnology Laboratory II
Chem 4722, Advanced Biochemistry
Chem 4764, Interdisciplinary Topics in Biochemistry
Chem 4772, Physical Biochemistry
Electives
Recommendations include basic statistics (Math 1310 or Math 1320),
computer science, public speaking (Comm 1040), foreign language, ethics,
and undergraduate research.
Research Opportunity
Students are encouraged to complete a minimum of 2 credit hours of
undergraduate research, which provides students with an opportunity to
gain research experience under the supervision of a faculty member. The
project will normally include a review of the literature, laboratory
experience and a research paper.
Minor in Biology
Students complete the B.S. degree in Biochemistry and Biotechnology
may also obtain a minor biology by completing Biology 1821,
Introductory Biology. The minor must be approved by the chairperson of
the Department of Biology. At least 9 hours of the biology course credits
must be taken in residence at UM-St. Louis. Candidates must have a cumulative
grade point average of 2.0 or better in the minor, and none of the courses
may be taken on a satisfactory/unsatisfactory (s/u) basis.
Minor in Chemistry
Students complete the B.S.
degree in Biochemistry and Biotechnology will also fulfill the course
requirements for a minor in Chemistry. A GPA of at least 2.0 is required
for the courses presented for the minor. At least three courses toward
the Chemistry minor must be completed at UM-St. Louis.
Graduate Studies
Degree Requirements
Master of Science in Biochemistry and Biotechnology
The
Biochemistry and Biotechnology Program offers two types of Master of
Science degrees. One is a non-thesis option suitable for those with laboratory
research experience or for others, such as educators, who do not require
research experience. The other option includes a laboratory-based research
apprenticeship leading to a written thesis. All students admitted to
the graduate program are considered to be in the non-thesis program unless
they have been accepted as a thesis student by a faculty member of the
program.
M.S. Admission Requirements
Applicants to the
M.S. program must submit completed application and personal data forms,
three letter of recommendation from undergraduate faculty, and transcripts
of all previous work. Submission of Graduate Record Examination scores,
although not required, is highly recommended and will be used by the
admission committee for consideration of admittance. Admission as a regular
graduate student requires graduation from an accredited college with
a minimum grade point average overall and in biology and chemistry courses
of 3.0 (where A = 4.0). Students will generally be expected to have completed
a major in biology, chemistry, or biochemistry. In addition to the Graduate
School admission requirements, applicants should have completed an advanced
undergraduate course in biochemistry.
All foreign applicants, except those from countries where English is
the primary language, must take the TOEFL. Ordinarily, a score of 213
on the computer-based exam (550 on the paper-based exam) or better is
required.
Requirements
Both
the thesis and non-thesis options require a total of 30 graduate credit
hours, of which at least half must be at the 5000-level or above. A
maximum of 12 or 5 credit hours of Graduate Research (Biol or Chem
6905) may be applied toward the 30 credit hour total for the thesis
or non-thesis options, respectively.
1) Required Courses
Chem 4722, Advanced Biochemistry
Biol 4614, Biotechnology Laboratory I or
Biol 6615, Advanced Biotechnology Laboratory II
Biol 6602, Advanced Molecular Biology or
Biol 6612, Advanced Molecular Genetics of Bacteria
Biol 6889, Graduate Seminar
Chem 5794, Special Topics in Biochemistry (Bioinformatics)
2) Elective Courses
Chem 4733, Biochemistry Laboratory
Chem 4772, Physical Biochemistry
Chem 4764, Interdisciplinary Topics in Biochemistry
Chem 5794, Special Topics in Biochemistry
Chem 6787, Problem Seminar in Biochemistry
Chem 6905, Graduate Research
Biol 4842, Immunobiology
Biol 5069, Topics in Cell and Molecular Biology
Biol 6602, Advanced Molecular Biology
Biol 6612, Advanced Molecular Genetics of Bacteria
Biol 6615, Advanced Biotechnology Laboratory II
Biol 6622, Advanced Molecular Cell Biology
Biol 6632, Advanced Nucleic Acid Structure and Function
Biol 6642, Advanced Plant Molecular Biology & Genetic
Engineerng
Biol 6652, Advanced Virology
Biol 6699, Graduate Internship in Biotechnology
Biol 6889, Graduate Seminar
Biol 6905, Graduate Research
Course Descriptions
Prerequisites may be waived by consent of the department or instructor.
Some courses as indicated in the course description may be taken concurrently
with the listed offering. Consult an adviser for further information.
Students who have earned 24 or more semester hours of credit at any
accredited post-secondary institution(s) before the start of the fall
2002 semester must meet the general education requirements stipulated
in the UM-St. Louis 2001-2002 Bulletin. The following courses fulfill
the Natural Sciences and Mathematics breadth of study requirements as
described in that Bulletin:
Biology: 1811, 2012, 2482, 3622, 4602, 4712, 4612, 4622, 4632. Chemistry:
1111, 1121, 2223, 2612, 2622, 3302, 4712, 4722, 4764, 4772.
Biology Courses
*Note – Majors in Biochemistry and Biotechnology are not required
to take Biol 1821; hence it is not a prerequisite for Biol 2012, Biol
2482, or Biol 3622 for these majors.
1811 Introductory Biology: From Molecules
to Organisms (5), [MI, MS]
Prerequisite: A minimum of high school chemistry, English 1100 or equivalent
(may be taken concurrently), and placement into college algebra or higher.
Required for students intending to major in biology or take specified
biology courses at the 2000-level or above. This course presents an introduction
to some of the principles of biology and scientific methodology applied
to the molecular/cellular through organ system levels of organization.
Topics include: cell structure, metabolism, reproduction, heredity and
major physiological processes regulated by organ systems. Three hours
of lecture, three and one-half hours of lab, and one hour of discussion
per week.
2012 Genetics (3)
Prerequisite: Biology 1811[majors must also take Biology 1821] and
Chem 1111 or [Chem 1082 plus Chem 1091]. Fundamental principles of inheritance,
including classical genetic theory as well as recent advances in the
molecular basis of heredity. Three hours of lecture per week.
2013 Genetics Laboratory (2)
Prerequisite: Concurrent registration in Biology 2012, or by consent
of instructor. Laboratory to accompany Biology 2012. Three and one-half
hours of organized laboratory time per week. Students may need to return
to the laboratory at unscheduled times to complete some exercises.
2482 Microbiology (3)
Prerequisite: Biology 1811 [majors must also take Biology 1821] and
Chem 1111 [or Chem 1082 plus Chem 1091]. Study of microorganisms, their
metabolism, genetics, and their interaction with other forms of life.
Three hours of lecture per week.
2483 Microbiology Laboratory (2)
Prerequisite: Biology 2482 (may be taken concurrently). Experimental
studies and procedures of microbiological techniques. Three and one-half
hours of organized laboratory time per week. Students will need to return
to the laboratory at unscheduled times to complete some exercises.
3622 Cell Biology (3)
Prerequisite: Biology 1811 [majors must also take Biology 1821], Chem
1111, 1121 and 2612 or equivalents. Examination of the basic biological
processes of cells.
4602 Molecular Biology (3)
Prerequisite: Biology 2012 and 4712. A study of the principles of molecular
biology, with emphasis on understanding the genetic regulation of DNA,
RNA, and protein synthesis and function in the eukaryotic cells. Three
hours of lecture per week. Students may not receive credit for both Biology
4602 and Biology 6602.
4612 Molecular Genetics of Bacteria (3)
Prerequisite: Biology 2482 and Biology 2012. A study of the molecular
biology of gene replication, transfer, and expression in bacterial cells.
Topics include DNA replication, transcription and translation, mutagenesis,
DNA repair and recombination, gene transfer, and the regulation of genes
and global expression systems. Three hours of lecture per week. Students
may not received credit for both Biology 4612 and Biology 6612.
4614 Biotechnology Laboratory I (4)
Prerequisite: Biology 2012 or consent of instructor. An introduction
to the fundamental concepts that underlie the field of biotechnology.
Both the basic principles of molecular biology and hands-on experience
with the techniques of the field will be addressed through lectures,
discussion, and a series of laboratory exercises. Two hours of lecture
and four hours of laboratory per week. Fulfills a laboratory requirement
only; may not be used to fulfill the 4000-level or above lecture course
requirement for the B.A. or B.S. degree in biology. Students may not
receive credit for Biology 4614 and a comparable biotechnology course
from another institution.
4615 Biotechnology Laboratory II (4)
Prerequisite: Biology 4614 and either Biology 4602 or Biology 4612,
or consent of instructor. An in-depth look at theory and practice of
biotechnology. Lectures and discussion will examine the underlying principles,
and laboratory exercises will present hands-on experience with current
techniques. One hour of lecture and six hours of laboratory per week.
Fulfills a laboratory requirement only; may not be used to fulfill the
4000-5000 level lecture course requirement for the B.A. or B.S. degree
in biology. Students may not receive credit for both biology 4615 and
Biology 6615.
4622 Molecular Cell Biology (3)
Prerequisite: Biology 3622, Biology 4602, and Biology 4712 or consent
of instructor. A study of the structural organization and processes of
eukaryotic cells. Topics of discussion will include regulation of transcription,
gene product processing and transport, organelle biogenesis and function,
cytoskeletal structure and function, and cell interactions. Three hours
of lecture per week. Students may not receive credit for both Biology
4622 and Biology 6622.
4632 Nucleic Acid Structure and Function (3)
Prerequisite: Biology 2012 and 4712 or equivalent or consent of instructor.
Comprehensive view of structural properties of DNA and RNA that promote
molecular interactions and biological function. Topics include physical
properties of nucleic acids, formation and biological importance of higher
order structures, RNA enzymatic activities, nucleic acid-protein interactions,
and RNA metabolism. Three hours of lecture per week. Students may not
receive credit for both Biology 4632 and 6632.
4712 Biochemistry (3)
[Same as Chemistry 4712]. Prerequisite: Chemistry 2612 and either Biology
1811 or Chem 2622. Examines the chemistry and function of cell constituents,
and the interaction and conversions of intracellular substances. Students
may not receive credit for both Biology 4712 and Chemistry 4712.
4713 Techniques in Biochemistry (2)
Prerequisite: Biology 4712 or Chemistry 4712 (may be taken concurrently).
Laboratory activities introducing fundamental qualitative and quantitative
biochemical techniques. Student evaluation will be based on laboratory
participation, student laboratory reports, and written examinations.
Three and one-half hours of organized laboratory time per week. Students
my need to return to the laboratory at unscheduled times to complete
some experiments.
4842 Immunobiology (3)
Prerequisite: Biology 4712 and Chem 2612. The fundamental principles
and concepts of immunobiology and immunochemistry. Emphasis on the relation
of immunological phenomena to biological phenomena and biological problems.
Three hours of lecture per week.
5069 Topics in Cellular and Molecular Biology (1)
Prerequisite: Graduate standing. Presentation and discussion of student
and faculty research projects and/or current research articles in molecular,
cellular and developmental biology. May be repeated.
6602 Advanced Molecular Biology (3)
Prerequisite: Biology 2012 and 4712, or consent of instructor. A study
of the principles of molecular biology, with emphasis on understanding
the genetic regulation of DNA, RNA, and protein synthesis and function
in eukaryotic cell. Three hours of lecture per week. Students will be
required to give an oral presentation and/or write an extra paper on
a topic relevant to the course. Students may not receive credit for both
Biology 6602 and Biology 4602.
6612 Advanced Molecular Genetics of Bacteria (3)
Prerequisite: Biology 2012 and 2482. A study of the molecular biology
of gene replication, transfer, and expression in bacterial cells. Topics
include DNA replication, transcription and translation, mutagenesis,
DNA repair and recombination, gene transfer, and the regulation of genes
and global expression systems. Three hours of lecture per week. Students
will be required to give an oral presentation and/or write an extra paper
on a topic relevant to the course. Student may not receive credit for
both Biology 6612 and Biology 4612.
6615 Advanced Biotechnology Laboratory II (4)
Prerequisite: Biology 4614 and either Biology 4602 or Biology 4612,
or consent of instructor. An in-depth look at the theory and practice
of biotechnology. Lectures and discussion will examine the underlying
principles, and laboratory exercises will present hands-on experience
with current techniques. One hour of lecture and six hours of laboratory
per week. Students will be required to give an oral presentation and/or
write an extra paper on a topic relevant to the course. Students may
not receive credit for both Biology 6615 and Biology 4615.
6622 Advanced Molecular Cell Biology (3)
Prerequisite: Biology 4602, Biology 3622, and Biology 4712, or consent
of instructor. A study of structural organization and processes of eukaryotic
cells. Topics of discussion will include regulation of transcription,
gene product processing and transport, organelle biogenesis and function,
cytoskeletal structure and function, and cell interactions. Three hours
of lecture per week. Students will be required to given an oral presentation
and/or write an extra paper on a topic relevant to the course. Students
may not receive credit for both Biology 6622 and Biology 4622.
6632 Advanced Nucleic Acid Structure and Function (3)
Prerequisite: Biology 2012 and 4712 or equivalent or consent of instructor.
Comprehensive view of structural properties of DNA and RNA that promote
molecular interactions and biological function. Topics include physical
properties of mucleic acids, formation and biological importance of higher
order structures, RNA enzymatic activities, nucleic acid-protein interaction,
and RNA metabolism. Three hours of lecture and one hour of discussion
per week. Students may not receive credit for both Biology 4632 and Biology
6632.
6642 Advanced Plant Molecular Biology and Genetic Engineering (3)
Prerequisite: Biology 4602 or 4612. Topics will include plant cell
and developmental biology, DNA transfer into plants, using mutations
to identify genes and their functions, regeneration of plants in tissue
culture, signal transduction mechanisms, molecular biology of plant organelles,
developmental engineering, metabolic engineering, plant microbe interactions,
and engineered resistance to pathogen attack. Three hours of lecture
and one hour of seminar per week. Students may not receive credit for
both Biology 4642 and Biology 6642.
6652 Advanced Virology (3)
Prerequisite: Biology 2482 and 2012. An advanced comparative study
of the structure, reproduction, and genetics of viruses. Three hours
of lecture, one hour of discussion or seminar per week. Students may
not receive credit for both Biology 4652 and 6652.
6699 Graduate Internship in Biotechnology (1-4)
Prerequisite: Graduate standing and enrollment in graduate Biotechnology
Certificate Program. Six credit hours maximum (maximum of eight combined
credit hours of Biology 6905 and internship). Internship will consist
of period of observation, experimentation and on-the-job training in
a biotechnology laboratory. The laboratory may be industrial or academic.
Credit will be determined by the number of hours the student works each
week and in consultation between the intern’s supervisor and the
instructor. Internship assignments will be commensurate with the education
and experience of the student.
6889 Graduate Seminar (2)
Presentation and discussion of various research problems in biology.
Graduate student exposure to the seminar process.
6905 Graduate Research in Biology (1-10)
Research in area selected by student in consultation with faculty members.
Chemistry Courses
1111 Introductory Chemistry I (5) [MS]
Prerequisite:
Mathematics through college algebra and trigonometry may be taken concurrently.
Presents an introduction to the fundamental laws and theories of chemistry.
Laboratory experiments are designed to demonstrate some aspects of qualitative
and quantitative analysis and to develop skills in laboratory procedures.
Chemistry majors may not include both Chem 1082 and 1111, and both Chem
1011 and 1111 in ht e120 hours required for graduation. Three hours of
lecture and one hour of discussion per week, one hour of laboratory-lecture
and three hours of laboratory per week.
1121 Introductory Chemistry II (5) [MI, MS]
Prerequisite:
Chem 1111 or advanced placement. Lecture and laboratory are a continuation
of Chem 1111. Three hours of lecture and one hour of discussion per week;
one hour laboratory-lecture and three hours of laboratory weekly.
2223 Quantitative Analysis (3) [C, MI, MS]
Prerequisite : Chem 1121. Principles and practice of elementary
quantitative chemistry. The lecture treats descriptive statistics with
emphasis on small samples; various types of competing equilibria pertaining
to acid-base, complexometric and potentiometric titrations; and an introduction
to spetrophotometric processes. The laboratory provides exercises in
titrimetirc, gravimetric, and spectrophotometric techniques. Both portions
of the course deal with the analytical chemistry of environmentally-significant
problems. Two hours of lecture and four and one-half hours of laboratory
weekly.
2612 Organic Chemistry I (3) [MS]
Prerequisite:
Chem 1121. An introduction to the structure, properties, synthesis, and
reactions of aliphatic and aromatic carbon compounds. Three hours of
lecture per week.
2622 Organic Chemistry II (3) [MI, MS]
Prerequisite:
Chem 2612. A systematic study of organic reactions and their mechanisms;
organic synthetic methods. Three hours of lecture per week.
2633 Organic Chemistry Laboratory (2) [C, MS]
Prerequisite:
Chem 2612 or consent of instructor. An introduction to laboratory techniques
and procedures of synthetic organic chemistry including analysis of organic
compounds. One hour of lecture and four and one-half hours of laboratory
per week.
3302 Physical Chemistry for the Life Sciences (3)
Prerequisites: Chemistry 2612 and Mathematics 1800 or Mathematics 1100,
and Physics 1012. Principles and applications of physical chemistry appropriate
to students pursuing degree programs in the life sciences. Topics will
include thermodynamics, equilibria, kinetics, and spectroscopy. This
course is intended for undergraduates seeking the B.S. degree in Biochemistry
and Biotechnology and does not fulfill the physical chemistry requirement
for other Chemistry B.A. and B.S. degree programs.
4712 Biochemistry (3)
[Same as Biology 4712] Prerequisite: Chem 2612 and either Biology 1811
or Chem 2622. The chemistry and function of cell constituents, and the
interaction and conversions of intracellular substances. Three hours
of lecture per week. Students may not receive credit for both Biology
4712 and Chemistry 4712. Biology 4712 may not be used to fulfill the
3000 or 4000 level lecture course requirement for the B.S. in Biology.
4722 Advanced Biochemistry (3)
Prerequisite: Chem 4712. Selected advanced topics in the chemistry
of life processes. Three hours of lecture per week.
4733 Biochemistry Laboratory (2)
Prerequisite: Chem 4712 may be taken concurrently. Laboratory study
of biochemical processes in cellular and subcellular systems with emphasis
on the isolation and purification of proteins (enzymes) and the characterization
of catalytic properties. One hour of lecture and three and one-half hour
of laboratory per week.
4764 Interdisciplinary Topics in Biochemistry (3)
Prerequisite: Chem 4712; Chem 4722 strongly recommended. Includes advanced
studies of enzyme mechanisms, the role of metal ions in enzymatic and
non-enzymatic processes, and the application of computational chemistry
to biological systems. Three hours of lecture per week.
4772 Physical Biochemistry (3)
Prerequisite: Chem 3312 or Chem/Bio 4712. Designed to acquaint students
with concepts and methods in biophysical chemistry. Topics that will
be discussed include protein and DNA structures, forces involved in protein
folding and conformational stability, protein-DNA interactions, methods
for characterization and separation of macromolecules, electron transfer,
and biological spectroscopy. Three hours of lecture per week.
5794 Special Topics in Biochemistry (1-3)
Prerequisite: Consent of instructor. Selected topics in biochemistry.
May be taken more than once for credit.
6787 Problem Seminar in Biochemistry (1)
Prerequisite: Consent of the biochemistry staff. Problems from the
current literature, presentations and discussions by faculty, students
and visiting scientists. Ph.D. students may take more than once for credit.
Up to three credits may be applied to the M.S. degree program.
6905 Graduate Research in Chemistry (1-10)
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