815 North Broadway
Saratoga Springs,
New York, 12866
SKIDMORE PHONE
518-580-5000
Biology
Chair of the Department of Biology: Corey R. Freeman-Gallant
Professors: *Elaine C. Rubenstein, Roy S. Meyers, David Domozych,
Bernard Possidente
Associate Professors: Monica Raveret Richter, Corey R. Freeman-Gallant
Assistant Professors: Marc J. Tetel, Pantelis Fidopiastis, Patricia Hilleren
Senior Teaching Associates: Catherine Domozych, Sue S. Van Hook
Teaching Associate: Denise Brooks McQuade
The Department of Biology offers instruction in many diverse
areas of modern biology. In consultation with a faculty advisor,
students design programs of study to meet individual interests
and goals. The biology major offers three intradepartmental
concentrations: (1) integrative biology, (2) molecular
biology and genetics, and (3) ecology, evolution, and behavior. The major
leads to a bachelor of arts degree.
Students who major in biology and plan to attend professional
schools (medical, dental, veterinary, and others) are encouraged
to take two semesters of organic chemistry (CH221 and 222)
and two semesters of calculus-based physics (PY207 and 208).
See Health Professions.
THE BIOLOGY MAJOR: Students who major in biology must meet
the College requirements for the degree, complete the general
biology requirements, and complete the requirements for one
of the intradepartmental concentrations. Each concentration
requires fourteen courses.
General requirements for all biology majors or concentrations
I. Core courses: BI105
and 106.
BI105
introduces the biological sciences by focusing on those structures and
processes shared by all of life. The course explores evolutionary
theory, cell structure and function, molecular genetics, biochemistry,
and population ecology.
BI106
extends this exploration to consider how the diversity of life is
manifest in the reproduction, development, physiology, and functional
morphology of multicellular organisms. These two courses constitute a
core curriculum for the major, and should be completed by the end of the
first year. BI105
is taken in the fall semester, followed by
BI106
in the spring.
II. Chemistry courses: CH105
and 106
(usually taken in the first year),
CH221
(usually taken in the sophomore year)
III. Mathematics course: MA111
(usually taken in the first year)
IV.
Capstone course: BI374
(taken in the senior year)
Concentration Requirements
Integrative Biology
A. The general requirements.
B. Seven additional courses at the 200 or 300 level. At least two
courses must be at the 200 level; at least four courses must be at the
300 level.
BI375
or 371
can substitute for one of these courses at the 300 level.
Students may take additional BI375 or 371 courses as electives, but
they do not substitute for 300-level biology courses.
Molecular Biology and Genetics
A. The general requirements.
B. Foundation courses:
BI242
(Molecular Cell Biology) and
BI245
(Genetics)
C. Supportive courses: four courses
selected from BI323,
337,
342,
348,
349,
351M,
352M,
353M,
360,
361,
362,
363,
370;
CH341,
CH342
D. CH222
Ecology, Evolution, and Behavior
A. The general requirements
B. Foundation courses:
BI241 (Ecology) and either
BI316 (Animal Behavior) or
324 (Evolution)
C. Supportive courses: three courses
selected from BI302,
307,
325,
327,
338,
344,
349,
351E,
352E,
353E, and
370.
BI316 or
324 may count as a supportive course, if not already taken as a foundation course.
D. One other biology course at the 200- or 300 level
E. MS104
or PS217
or EC237
INTERDEPARTMENTAL MAJORS: In conjunction
with the Philosophy Department, the Biology Department offers
a major in biology-philosophy.
HONORS: Departmental honors are awarded to a senior major
who has maintained the required College and department averages
and has completed a research project in BI375.
Other factors, such as academic integrity, will bear on the
decision to award honors.
THE BIOLOGY MINOR: Students who want to minor in biology must
take a total of six courses from among those offered in the department.
These must include
BI105 and
106,
two 200-level courses in biology, and two 300-level courses in biology.
CH103 or
CH105 is also required. Note:
BI375
cannot substitute for one of the 300-level courses in biology.
EXPLORATION COURSES
The following courses are designed
for students who wish to fulfill the College natural sciences
requirement with the study of biology. These courses are generally
not counted toward the biology or any biology-combined major.
Students who wish to major or minor in biology after completing
one or two exploration courses should consult the department
chair concerning the appropriate choice of courses; some exploration
courses may be substituted for requirements in the major or
minor at the discretion of the department. NS 101. NEUROSCIENCE:
MIND AND BEHAVIOR 4
An interdisciplinary examination of the neurobiological bases
of behavior and mental processing. Topics include the structure
and functioning of the nervous system, brain-behavior relationships,
and hormonal and genetic effects on behavior and mental processing.
Laboratories develop students' understanding of functional
neuroanatomy, neural transmission, and human psychophysiology.
(Fulfills natural sciences requirement).
Biology and/or Psychology Faculty BI 110. BIOLOGY
OF THE MIND 4
An introductory level examination of the basic neurobiology
of the human brain and nervous system. A sufficient depth
of biological perspective is developed to allow the student
to consider the neurobiological underpinnings of a wide variety
of brain related topics including pathology (select mental
and nervous system diseases), socially significant issues
(drugs, alcohol), higher function (language, sleep, memory,
consciousness), and philosophical issues (mind-body problem,
artificial intelligence, ethical issues). Three hours of lecture,
two hours of lab per week. (Fulfills natural sciences and
QR2 requirements.) R. Meyers BI 115H. ECOLOGY OF FOOD 4
The study of fundamental concepts in ecology from a who-eats-whom
perspective. Topics include the behavior and ecology of herbivores,
predators, parasites, and mutualists, interactions among competitors in
quest of food, trophic connections, and analyses of communities and
landscapes managed for agricultural and aquacultural production.
Quantitative field investigations of herbivory in Skidmore's North Woods
are complemented by laboratory investigations of plant physical defenses
and secondary chemicals, including the use and function of these
secondary chemicals in world cuisine. A similar investigative approach
is taken to the study of pollination, seed dispersal, and predation.
Local food producers contribute to the study of agroecology. Ecological
impacts of various agricultural and aquacultural practices and the
implications and potential ecological impacts of genetically modified
foods are explored. Prerequisite: QR1. Three hours of lecture, three
hours of lab per week. One Saturday field trip. M. Raveret Richter BI 120. THE HUMAN
ORGANISM 4
An introduction to the study of life processes, focused on
our species. This course will help the student acquire an
understanding of basic biological principles, using humans
as illustrative material. Topics will include genetics, reproduction,
and physiology of humans. Three hours of lecture, two hours
of lab per week. (Fulfills natural sciences requirement.)
E. Rubenstein BI 135. ENVIRONMENTAL
SCIENCE 4
Environmental science is an interdisciplinary study of the
interaction between humans and the environment chiefly in
relation to ecology, resources, and population. The course
will show how humans are a force now posing a serious threat
to the long-term sustainability of natural life-support systems.
Three hours of lecture, two hours of lab per week. (Fulfills
natural sciences requirement.) The
Department BI 140. MARINE
BIOLOGY 4
An examination of the intricate and delicate nature of plant,
animal, fungal and microbial life beneath Earth's oceans and
on its shorelines. Lecture topics include ocean chemistry
and biochemistry, physiology of marine organisms, evolution
and diversity of the marine world, marine ecosystems and human-ocean
interactions. The lab will include experimental manipulations
of marine plants and animals, survey of various life forms,
culture techniques, ecological sampling and mariculture. Three
hours of lecture, two hours of lab per week. Lab fee $60.
(Fulfills natural sciences requirement.)
D. Domozych BI 145. UNDERSTANDING
BIOTECHNOLOGY: RECOMBINANT DNA AND ETHICAL ISSUES
4
An investigation of the structure, function, and manipulation
of DNA. Recent advances in decoding the genome of any organism
and in recombining the DNA into functional units within the
cell have important ethical, economic, environmental, political,
and social implications, which will have major impacts on
society, health care, insurance, environmental regulations,
business, and the economy. This course will explore the science
and technology of manipulating DNA and the potential social,
ethical, and environmental consequences. Three hours of lecture,
two hours of lab per week. (Fulfills natural sciences requirement.)
The Department BI 155. EVOLUTIONARY
BIOLOGY 4
An introduction to evolution as the central organizing principle
of the biological sciences. This writing-intensive course
explores the mechanisms of evolutionary change and introduces
the academic and applied issues that challenge modern evolutionary
theory. Topics include: human origins, Darwinian medicine,
adaptation, and sexual selection. Three hours of lecture and
two hours of lab per week. (Fulfills expository writing requirement
and natural sciences requirements.)
C. Freeman-Gallant BI 160. CONSERVATION
BIOLOGY 4
The biology of species, communities, and ecosystems that are
perturbed or threatened by human activities. This course will
examine the principles and tools for preserving biological
diversity. Topics to be covered include principles of ecology,
geographic distribution, animal and plant classification,
and population dynamics. Three hours of lecture, two hours
of lab per week; one all-day field trip. (Fulfills natural
sciences requirement.) The Department
BI
165. MICROBES IN FOOD PRODUCTION,
SPOILAGE AND FOOD-BORNE DISEASE 4
An introduction to basic microbiology that uses as a model
the role of microbes in food preparation, spoilage, and food-borne
diseases. In addition to preparing foods such as kim chee
and cheese using microbes, we will also use basic techniques
for bacteriological sampling of foods. The goals of this course
are to learn basic techniques in microbiology and important
concepts in microbial ecology, psysiology, and biochemistry
using an environment that we can all relate tofood. (Fulfills
natural sciences requirement.) P. Fidopiastis BI 170. HUMAN
GENETICS 4
An introduction to the principles of genetics and their application
to human biology. Topics include the history of genetics,
the structure, function and inheritance of genes, medical
genetics, and genetic engineering. Three hours of lecture,
two hours of lab per week. (Fulfills natural sciences and
QR2 requirements.) B. Possidente BI 180. ECONOMIC
BOTANY 4
An introduction to the concepts of plant and fungal biology
with special emphasis on how they are utilized by humans.
Lectures will focus on the structure and role of plant and
fungal systems, their evolution and importance in human-based
applications such as agriculture, medicine, and horticulture.
Labs will include field trips to sites of botanical and mycological
interest, hands-on horticultural exercises, and a survey of
the plant-fungal kingdoms. Three hours of lecture and two
hours of lab per week. (Fulfills natural sciences requirement.)
D. Domozych
COURSES FOR THE MAJOR / JOINT
MAJORS BI 105. BIOLOGICAL SCIENCES I: UNITY AND DIVERSITY OF LIFE
4
An introduction to the structures and processes common to all of life.
The course explores topics in molecular biology, biochemistry, cell
structure and function, transmission genetics, evolutionary theory, and
population ecology. The laboratory portion of the course is
inquiry-based and will introduce students to the methods and theory of
modern biology. Three hours of lecture, three hours of laboratory per
week. (Fulfills natural sciences requirement.) B. Possidente and P.
Fidopiastis BI 106. BIOLOGICAL SCIENCES II: DIVERSITY OF LIFE
4
A comprehensive introduction to the diversity of life forms and life
functions. The course explores topics in organismal biology with special
emphasis on animals and plants, reproductive biology, physiology and
developmental biology.
Prerequisite: BI105.
(Fulfills natural sciences requirement.) D. Domozych and M. Tetel BI 240. ENVIRONMENTAL
BIOLOGY 4
An examination of the physical and biotic features of the
earth, the role of humans in affecting the planet's ecology,
and the ways ecological systems affect humans. This course
provides the fundamental concepts of environmental biology,
along with specific examples from the natural world and human
modification. Topics include the basics of the physical nature
of the earth; physiological ecology, including the biochemistry
and metabolism of life forms and nutrient cycles; biodiversity;
interspecific relationships; population and community dynamics;
ecosystem structure; pollution and environmental toxicology;
resource management; and restoration design. Laboratory consists
of field trips, ecological sampling techniques, ecological
survey of local habitats, phytoremediation, pollution simulation,
and examination of biodiversity. Does not count toward the major. Prerequisites:ES105.
D. Domozych BI 241. ECOLOGY 4
A field, laboratory, and lecture course in which interactions among
organisms and between organisms and their environment are explored.
Students will observe ecological patterns and evaluate evidence and
arguments for why those patterns exist.
Prerequisites:BI106 or
ES105 and
BI240.
The Department BI 242. INTRODUCTION TO MOLECULAR CELL BIOLOGY 4
A foundation course in cell biology that emphasizes the molecular nature
of cell genesis, structure, function, and communication. In this course,
we will explore 1) the multifaceted approaches used to study cell
structure and function; 2) the molecular details of fundamental
cellular processes including the control of cell cycle, and the mechanism
of chromosome segregation and cell division; 3) the pathway of
eukaryotic gene expression; 4) cell signaling cascades; and 5) cell
identity and specialization in the social context of a multicellular
organism. In the laboratory portion of the class, we will learn and
implement key research methodologies and computer based information
technology as we address problems in cell biology.
Prerequisites:BI106 and
CH105. P. Hilleren BI 243. PLANT BIOLOGY 4
A comprehensive study of plants, other photosynthetic eukaryotes, and
fungi. Lecture topics include biochemistry, phytochemistry and
phytopharmaceutical applications, cell and molecular biology,
evolutionary biology, developmental biology and life cycles, primary and
secondary physiology, and ecology/biogeography. The laboratory consists
of experimental and observational exercises and includes a full-day,
Saturday field trip.
Prerequisite:BI106 D. Domozych BI 244. COMPARATIVE VERTEBRATE PHYSIOLOGY 4
The function and structure of major systems of vertebrates considered
principally from the perspective of their ability to meet environmental
demands.
Prerequisites:BI106 and
CH105 or
BI105 and
NS101. R. Meyers BI 245. PRINCIPLES OF GENETICS 4
A study of biological patterns of heredity explained by genes, their
structure, function, and transmission from cell to cell and parent to
offspring, and the expression of genetic information. Topics include an
in-depth study of mitosis, meiosis, Mendelian genetics and extension of
Mendelian genetics, to complex traits and their analysis in individuals
and populations.
Prerequisites:BI106
or permission of instructor. B. Possidente BI 246. MICROBIOLOGY: DIVERSITY, DISEASE, AND THE ENVIRONMENT 4
A comprehensive introduction to the biology of three major groups of
microbes: bacteria, protists, and viruses. Microbial diversity will be
explored in the context of the structure, physiology, metabolism, and
molecular genetics of various microbial taxa. We will discuss microbial
diseases, non-specific and specific human immune responses, and general
strategies used by microbes to overcome these defenses. The final
section of the course will explore key concepts in microbial ecology.
Emphasis will be placed on the central role of bacteria in geochemical
cycles and symbiotic associations with plants and animals. In the
laboratory, students will isolate bacteria from a variety of
environments (wounds, soil, etc.) and apply standard techniques used in
clinical and environmental microbiology labs to study their physiology
and metabolism.
Prerequisites:BI106. P. Fidopiastis BI 275. INTRODUCTION
TO BIOLOGICAL RESEARCH 1
An introductory exploration of research in the biological
sciences. Students plan, design, and implement a small research
project from the laboratory or field in coordination with
a faculty member. This experience will allow students at various
stages of their careers to sample research methodologies in
particular subdisciplines of biology. Students may only take
four BI275 courses in their careers and no more than two in
any given semester. If more than one is taken in one semester,
each BI275 must be in a different section. Prerequisites:
Completion of one 100-level course in biology or requirements
set forth in individual sections plus permission of instructor.
NS
277. INTEGRATIVE SEMINAR IN NEUROSCIENCE
RESEARCH 1
A study of selected areas of neuroscience research and techniques.
Both primary source articles and first-person accounts by
faculty in the Biology and Psychology Departments are used
to introduce the theoretical and practical aspects of neuroscience
research. Emphasis will be placed on understanding the multiple
levels (e.g., molecular to behavioral) at which research topics
in neuroscience can be addressed and also the ways in which
research techniques define the types of questions that can
be asked at a given level of analysis.
Must be taken S/U.Prerequisites:NS101 and at least two of the following: BI233, 236, CH105, PS217, 306, or 304
This course should be taken upon completion of
NS101
and the completion of (or current enrollment in) at least one
other core or elective course from the list of courses in the Neuroscience major.
Biology and/or Psychology Faculty BI 299. PROFESSIONAL
INTERNSHIP IN BIOLOGY 3
Internship opportunity for students whose curricular foundations
and experience have prepared them for professional work related
to the major field. With faculty sponsorship and department
approval, students may extend their educational experience
into such areas as laboratory or field research, or clinical
medicine. Does not count toward the major. Offered Satisfactory/Unsatisfactory
only. Prerequisite: completion of at least one related
200-level course (as determined by the department). BI 302. BEHAVIORAL ECOLOGY 3
An examination of the relationship between ecological factors and animal
behavior, particularly social behavior. Students will analyze
comparative studies of behavior, employ and critique economic models of
behavior and models of evolutionarily stable strategies, and explore
relationships among resource distribution, kinship, breeding systems, and
social evolution.
Prerequisites:BI106 or
ES105
and any two 200-level biology courses.
M. Raveret Richter BI 305. CARDIOVASCULAR
PHYSIOLOGY 4
A consideration of cardiovascular
physiology, including cellular physiology of the heart, mammalian
cardiovascular dynamics, aspects of comparative and developmental
cardiac physiology, and human clinical cardiology. Three hours of
lecture, three hours of laboratory per week.
Prerequisites:
BI106and two 200-level biology courses
or permission of instructor. Offered in alternate years.
R. Meyers BI 306. MAMMALIAN
PHYSIOLOGY 4
A study of selected topics in mammalian
physiology, including respiratory, renal, and neural physiology.
Prerequisites:BI106and
BI244or permission of instructor; for neuroscience students:
NS101,
BI105, and
BI244.
Three hours of lecture, three
hours of laboratory per week. Offered in alternate years.
R. Meyers BI 307. ORNITHOLOGY
4
Birds as model organisms for an integrative study of biology.
This course explores avian form and function; the ecology,
evolution, and behavior of birds; and avian conservation.
Prerequisites: either
BI106or
ES105,
and any two 200-level biology courses.
Three hours of lecture, three hours of fieldwork or lab a
week. One Saturday field trip. C.
Freeman-Gallant
BI 311. BIOLOGICAL ELECTRON MICROSCOPY
4
Practical and theoretical study of the operation and application
of electron microscopes and the preparation of samples for
electron microscopy. Topics include chemical fixation, cryofixation,
cytochemistry, immunolabeling, ultramicrotomy, transmission
electron microscopy, scanning electron microscopy, and electron
microscopic photography. Prerequisite:BI106and
BI243or
BI244or permission of instructor. Two hours of lecture and four
hours of lab a week D. Domozych
BI 316. ANIMAL
BEHAVIOR 4
Behavior is a product of evolution and a means of animal adaptation.
This course considers the mechanisms, proximate causes, and
ultimate origins of behavior. Prerequisite:
BI106or
ES105,
and any two 200-level biology courses; for neuroscience students:
NS101,
BI105, and
BI244.
Three lectures, three hours of lab or fieldwork a week. One
Saturday field trip. M. Raveret Richter
BI 323. DEVELOPMENTAL
BIOLOGY 4
The study of the progressive, sequential changes that occur
within cells, tissues, and organisms over time. The study
of development encompasses molecular, biochemical, cellular,
morphological, and physiological organizational levels. Course
topics range from gametogenesis and embryonic development
to molecular mechanisms of gene regulation. Prerequisites:BI106and any two 200-level biology courses; for neuroscience students:
NS101,
BI105, and
BI244.
Three lectures, three hours of
lab a week. E. Rubenstein BI 324. EVOLUTION
4
A survey of topics in evolutionary theory: the evidence for
evolution, mechanism of evolutionary change, species concepts,
and speciation. Introduction to the concepts of variability,
adaptation, neutrality, and phylogeny through discussion and
lab work. Prerequisites:
either
BI106or
ES105,
and any two 200-level biology courses.Three hours of lecture, three
hours of lab a week.
C. Freeman-Gallant BI 325. TROPICAL
ECOLOGY 3
An introduction to the ecology of tropical regions, with an
emphasis on Central and South American forests. In this course,
we will take an ecological approach to investigating the patterns,
processes, and organisms characterizing tropical ecosystems.
We will study the forces that gave rise to tropical biodiversity,
and discuss both the preservation and destruction of tropical
ecosystems. Prerequisites:
Either
BI106or
ES105,
and any two 200-level biology courses. M. Raveret Richter TX 301. TROPICAL
FIELD ECOLOGY 2
This travel seminar and its companion lecture course, Tropical
Ecology (BI325), comprise a classroom- and field-based introduction
to the ecology of tropical regions, with an emphasis on Central
and South American forests. Students, who must be concurrently
enrolled in BI325, will meet in a discussion section throughout
the semester, and will travel to the tropical cloud forest
community of Monteverde, Costa Rica, during spring break.
TX301 does not count toward the biology major as a 300-level
elective course, nor does it count as a supportive course
for ecology, evolution, and behavior concentrators; BI325
does fulfill these requirements. Prerequisites:
Either
BI106or
ES105,
and any two 200-level biology courses.
Offered in alternate years.
M. Raveret Richter and Biology Faculty BI 327. CONSERVATION
ECOLOGY 3
Focuses upon developing an understanding of the diversity
of life, in an ecological and evolutionary context, and applying
that understanding to critical analyses of issues and problems
in conservation biology. Prerequisites:
either
BI106or
ES105,
and any two 200-level biology courses. M. Raveret Richter BI 337. PLANT
PHYSIOLOGY 4
The behavior, growth, transport processes, and environmental
response of plants. Topics include membrane dynamics and function,
plant cell development and polarity, solute and water transport,
mineral and vitamin nutrition, respiration photosynthesis,
hormone action, photoperiodism, taxes and stress biology.
Two lectures, four hours of lab a week. Prerequisites:
BI106and
BI243.
D. Domozych
BI
338. PLANT BIOTECHNOLOGY
4
A modern analysis of humankind's use of plants and fungi and
their derived products. Major subjects covered include ethnobotany,
plant genetic engineering, plant biochemistry, techniques
of plant production, agricultural practices, horticulture,
and medicinal botany/mycology. Three hours of lecture, three
hours of lab a week. Prerequisite:
BI106and
BI243
or permission of instructor. D. Domozych
BI
342. FRONTIERS IN MOLECULAR NEUROSCIENCE 3
This course will explore "hot topics" in Neuroscience. We will discuss
how novel approaches in cell culture, animal, and human studies are being
used in current molecular neuroscience research. In addition to
attending lectures, students will review current literature from top journals,
give group presentations in class, and write a paper. This course will be
divided into two sections: 1) topics in neurogenesis (neuron birth in
the adult brain) and 2) topics in neurodegeneration (mechanisms of cell
death in disorders such as Alzheimer's and Parkinson's Disease).
Students will develop skills in critically reading research papers and
giving presentations. Prerequisites:BI106,
242, and one 200-level biology course; for neuroscience students:
NS101,
BI105, and
BI244. The Department
BI
344. BIOLOGICAL CLOCKS
4
Organisms in all the major taxonomic groups have internalized
geophysical and other periodicities in the form of endogenous
biological mechanism that function as clocks. Theoretical,
molecular, cellular, physiological, behavioral, ecological,
and biomedical aspects of biological clocks will be examined,
with an emphasis on circadian clocks. Three hours of lecture,
three hours of lab per week. Prerequisite:BI106and any two 200-level biology courses or permission of instructor; for neuroscience students:
NS101,
BI105, and
BI244. B.
Possidente BI 348. IMMUNOBIOLOGY
3
A study of the ways in which the immune system recognizes
and responds to cells or molecules that are non-self. The
course will explore the basic biological processes that underlie
the function of the immune system in health and disease.
Prerequisites:BI106,
BI242, and one other 200-level biology course. E. Rubenstein BI 349. NEUROENDOCRINOLOGY
4
Hormones act throughout the body to coordinate basic biological
functions such as development, reproduction, and metabolism.
This course will investigate how hormones work in the brain
to regulate physiology and behavior. We will study the molecular
bases of neuroendocrine regulation, with a focus on how the
hypothalmic-pituitary-gonadal axis functions to regulate reproduction,
homeostasis, metabolism, and stress. Laboratory sessions will
explore various approaches to neuroendocrine research, including
detection of hormone receptors in the brain and assessment
of biological functions through bioassays. Prerequisites:
BI106,
BI242or
BI244 (both recommended),
and one other 200-level biology course; for neuroscience students:
NS101,
BI105, and
BI244. M. Tetel BI 351. TOPICS
IN BIOLOGY 3 or 4
This course gives students an opportunity to study topics
that are not offered on a regular basis. The specific topics
will vary each time the course is taught. All courses fulfill
the 300-level requirements for the biology major. Three-credit
courses are taught without laboratories; four-credit course
include a weekly three-hour lab. May be repeated for credit.
Prerequsite: permission of department. BI351A
fulfills the 300-level elective course requirement of the
ecology, evolution, and behavior concentration. BI351E
fulfills the 300-level supportive course or elective course
requirement of the ecology, evolution, and behavior concentration. BI351M
fulfills the 300-level supportive course requirement of the
molecular and cell biology concentration or the 300-level
elective course requirement of the ecology, evolution, and
behavior concentration. BI 352, 353. TOPICS IN ADVANCED GENETICS 3, 4
An opportunity to study advanced topics in genetics that are not offered
on a regular basis. The specific topic may vary each time the course is
taught. All courses fulfill the 300-level requirements for the
integrative biology concentration. Three-credit courses are taught
without lab; four-credit courses include a weekly three-hour lab.
Different topics may be repeated for credit.
Prerequisites:BI106 and either
BI242 or
245, or permission of instructor. The Department BI352E and BI353E
fulfill the 300-level supportive or elective course requirement for the ecology, evolution, and behavior concentration. BI352M and BI353M
fulfill the 300-level supportive course requirement for the molecular biology and genetics concentration.
BI 360. CHROMATIN STRUCTURE, MAINTENANCE, AND FUNCTION 4
An extensive examination of eukaryotic chromatin, one of the most
fundamental macromolecules shared by all eukaryotic life. We will
explore the structural and molecular composition of chromatin, how this
macromolecule is assembled, how it is faithfully maintained, and how its
molecular architecture controls gene expression. Integral to this course
will be the study of the various modes of inquiry and research tools
utilized by scientists to investigate these questions. In addition, we
will examine how defects in many of these processes contribute to human
disease.
Prerequisites:BI106 and
242 and
CH221; BI245 suggested. P. Hilleren BI 361. BIOLOGY OF VIRUSES 3
An exploration of the structure, genetics, and pathogenesis of all types
of viruses, from bacterial to mammalian. Rather than taking an
encyclopedic approach, the course begins as an overview of common themes
in the life cycles of all viruses. Building upon this foundation, the
course will then draw largely from recent published research to explore
features of the life cycle and pathogenesis of specific viruses.
Prerequisites:BI106 and
242 or
246. P. Fidopiastis BI 362. BACTERIAL PATHOGENESIS: A MOLECULAR APPROACH 3
An exploration of the latest techniques used to study bacteria-host
interactions at the molecular level. The course delves into common
obstacles that disease-causing bacteria must overcome in order to
colonize a human host and the general strategies bacteria have evolved
to overcome these obstacles. Comparisons will be made to symbiotic
bacteria-host interactions and questions such as "How did pathogenic
bacteria evolve?" will be addressed. Grounded in current published
research, the class will also explore, at the molecular level,
mechanisms used by specific pathogens to colonize and damage host
tissue.
Prerequisites:BI106 and
246,
245 recommended.
P. Fidopiastis
BI 363. EUKARYOTIC mRNA SYNTHESIS, PROCESSING, AND TURNOVER 4
An integrated lecture/laboratory course that provides an in-depth
investigation into our current mechanistic understanding of the central
features of eukaryotic gene expression, including the synthesis,
processing, export, translation, and turnover of mRNA and the biological
machines that carry out these fundamental processes. Integral to this
course is the laboratory experience, wherein we will learn and apply
basic research methodologies and technologies that are used to
investigate scientific questions in the field of mRNA metabolism.
Prerequisites:BI106,
BI242 and
CH221; 245 recommended.
P. Hilleren
BI 370. COMPUTER
MODELING OF BIOLOGICAL SYSTEMS 4 An introductory course in the methods, procedures, uses, and implications of digital computer modeling of biological processes, from the molecular through the population level or organization, with particular focus on the systems level. Three hours of lecture, three hours of laboratory per week. Prerequisite:BI106
or ES105
or permission of instructor. R. Meyers
BI 371. INDEPENDENT
STUDY 3
An opportunity for students to pursue in depth specialized
topics not available through regular course offerings. This
is offered without a laboratory/field component. Prerequisite:
agreement of a faculty member to serve as tutor, a topic acceptable
both to student and tutor, and permission of the department.
Biology majors may take either BI371 or 375 only once to substitute
for a 300-level biology course requirement.
The Department BI 374. SENIOR SEMINAR 3
An integration of curricular experiences in the biology major, with
critical analysis of the current biological literature and creative
experimental design. Working collaboratively, students will study the
primary literature on a specific biological topic, frame questions,
formulate hypotheses, and propose research plans to address complex
problems. Students will communicate their findings in writing and in
oral presentations. The Department BI 375. RESEARCH
IN BIOLOGY 4
An opportunity for students to engage in laboratory or field
research under the guidance of a faculty member. The emphasis
is on the development of analytical and technical expertise
in biological research. Students present their results in
the form of a written thesis and an oral presentation. Prerequisite:
agreement by a faculty member to serve as a tutor, completion
of 200-level course requirements, and permission of the department.
Biology majors may take either BI371 or 375 only once to substitute
for a 300-level biology requirement; however, with departmental
approval, BI375 may be repeated once for credit toward all-College
requirements. The Department BI 399. PROFESSIONAL
INTERNSHIP IN BIOLOGY 3 or 6
Professional experience at an advanced level for juniors and
seniors with substantial academic experience in the major
field. With faculty sponsorship and department approval, students
may extend their educational experience into such areas as
laboratory or field research, or clinical medicine. Does not
count toward the major. Offered satisfactory/unsatisfactory
only. Prerequisite: completion of at least one related
300-level course (as determined by the department).
OLD CURRICULUM COURSES: 2004–05 ONLY BI 233. CELL AND
MOLECULAR BIOLOGY 4
A study of living processes on a cellular and molecular level.
Cell ultrastructure and the regulation of information flow
and biochemical reactions in both eucaryotes and procaryotes
will be examined. Prerequisite: BI237
OR NS101,
and completion of or concurrent registration in CH105,
or permission of instructor. Three hours of lecture, three
hours of lab a week. Offered fall semester.
E. Rubenstein BI 236. COMPARATIVE
VERTEBRATE PHYSIOLOGY 4
The adaptive function and structure of major systems in vertebrates
considered principally from the perspective of their ability
to meet environmental demands.
Prerequisite: BI233
or permission of instructor. Three hours of lecture, three
hours of lab per week. Offered spring semester.
R. Meyers BI 317. ECOLOGY
4
A field, laboratory, and lecture course in which the interactions
among organisms and between organisms and their physical-chemical
environment are explored. Prerequisite: any 200-level
BI course or permission of instructor. Three lectures, three
hours of lab or fieldwork a week. One Saturday field trip.
M. Raveret Richter BI 377, 378.
SENIOR SEMINAR IN BIOLOGY 1, 1
A seminar course designed to teach research skills in the
biological sciences. The course includes presentations by
students and guest speakers, and instruction and practice
in the use of library resources, research design and execution,
and writing of scientific papers. Offered on a satisfactory/unsatisfactory
basis only. The Department
