Graduate Program Directors:
Steve Dorus, 315-443-7091
248 Life Sciences Complex
Jason Fridley, 315-443-3098
448 Life Sciences Complex
Graduate Program Administrator
114 Life Sciences Complex
David M. Althoff, John M. Belote, Carlos Castaneda, Heather Coleman, Steve Dorus, Scott E. Erdman, Douglas A. Frank, Jason D. Fridley, Jannice Friedman, Anthony Garza, Paul Gold, Sarah Hall, James A. Hewett, Sandra J. Hewett, Donna Korol, George M. Langford, Katharine Lewis, Eleanor Maine, Susan Parks, Melissa Pepling, Scott Pitnick, Ramesh Raina, Mark Ritchie, Kari A. Segraves, Robert Silver, Roy Welch, Jason R. Wiles
The Department of Biology is committed to research-oriented graduate training of the highest quality. A wide variety of disciplines are offered within the areas of biochemistry, developmental biology, genetics, molecular and cellular biology, neurobiology, ecology, and evolution. Students may focus their graduate studies in Cell/Molecular Biology or in Ecology & Evolution, and some students may choose to address questions that span both of these major areas of research. Each student’s program is individually structured to provide the maximum flexibility in the choice of coursework consistent with high quality graduate scholarship. Primary emphasis is placed on graduate training leading to the Ph.D.
The Department currently averages 40 full-time graduate students. About 75 percent of the students enroll directly following their undergraduate work; others come with a master’s degree earned elsewhere.
Program graduates are encouraged to pursue postdoctoral training at established laboratories prior to accepting professional appointments. Most recent graduates have found employment in university and colleges, many after completing postdoctoral work. Others have found posts in government, industry, hospital laboratories, and in private research institutes.
Successful applicants generally have a minimum undergraduate average of B and high scores on the verbal, quantitative and writing tests of the Graduate Record Examinations (GRE).
Applicants must also have earned a B.S. or a B.A. degree and should have at least a minimal background in both physical and biological sciences, including the following: two years of biology, one year each of introductory chemistry, organic chemistry with laboratory, physics, and college level calculus. Although not required, a year of biochemistry is desirable for students interested in cell and molecular biology, and training in statistical analysis for all students.
Special consideration is given to students who have conducted undergraduate research and whose recommendations attest to their skills in the laboratory or field and promise in research. Applicants whose scholarly interests are confluent with those of our Graduate Faculty will also receive priority consideration.
M.S. in Biology
The M.S. program requires at least 24 credits of formal coursework selected in consultation with the student’s Research Committee and six additional credits of thesis are required. A thesis based on original research must be developed and successfully defended in accordance with the rules and regulations of the Graduate School. The maximum expected time in residence is three years.
The current minimum level of support for the 2014-2015 academic year is $ 24,500. with additional summer support available, currently at the level of $ 2,500. Given Syracuse’s low cost of living, this is a comfortable income. Virtually all department graduate students are supported financially throughout their graduate career. Support typically comes in the form of a teaching assistantship and tuition scholarship during the academic year, with the student free to conduct their research full-time during the summer. Students may also be supported by their faculty research advisor’s external grants or by Syracuse University Fellowships. Applying to local and national programs for graduate fellowships is strongly encouraged.
Research facilities currently include an AAALAC-accredited animal facility and extensive facilities and instrumentation for carrying out most kinds of modern biological research at the molecular, cellular, organismal, and population levels. Extensive library holdings and computing facilities are readily accessible for student and faculty use. Construction of the new life sciences complex was completed in fall 2008. The 210,000-square-foot building, the University’s largest, most ambitious construction project, brings the biology, chemistry, and biochemistry departments under one roof for the first time in the University’s history.