Financial Support

Most doctoral students receive departmental financial support from Teaching or Research Assistantships. Assistantships provide a nine-month stipend (paid bi-weekly) as well as a tuition waiver and the option to purchase subsidized medical and dental insurance. The Department nominates exceptional students for funding through the University Outstanding Scholar program, which offers 3 year fellowships. Summer stipends are also available for students engaged in on-going research projects.

 ClaireBerg Claire M. Berg Graduate Fellowship in Genetics The Claire M. Berg Graduate Fellowhip in Genetics was established by the friends and family of Dr. Berg to provide a summer fellowship, in honor of Dr. Berg, to a female graduate student in the Genetics Area of Concentration who shows exceptional promise in science as she progresses to the doctoral degree.Claire was born in 1937 in Mt. Vernon NY. She received her BS in Plant Breeding at Cornell University in 1959, her MS in Genetics/Botany in 1962 from the Univ. Chicago, and her PhD in Genetics/Botany in 1966 from Columbia University. After postdoctoral training at the Hammersmith Hospital in London, and Univ. Geneve in Switzerland, she moved to UConn where she eventually became a Full Professor. Claire was an expert in the genetics and regulation of the isoleucine-valine gene cluster in enteric bacteria, in transposon biology, and in developing systems for rapid DNA sequencing based on her transposon work and was a fan of the nascent human genome project at the time of its inception. She published more than 70 manuscripts covering 35 years of science. Her contributions to the broader community of microbial genetics were many and varied and included several stints on the Editorial Boards of Applied and Environmental Microbiology and J. Bacteriology as well as several appointments as panelist for NSF, HHMI, DOE, NIH and the American Cancer Society. She served on several professional committees for the American Society for Microbiology, the Genetics Society of America and the American Association for the Advancement of Science to which she was elected Fellow in 1995. Claire was a pioneer in establishing the framework for the advancement of women in science, both locally and in national venues. She passed away in 1997 after a struggle with pancreatic cancer.WANG, G, BLAKESLY, RW, BERG, DE and Berg CM 1993. pDUAL: a transposon-based cosmid cloning vector for generating nested deletions and DNA sequencing templates in vivo. Proc Natl Acad Sci U S A. 90:7874-8.SHAW, KJ, BERG, CM.1979. Escherichia coli K-12 auxotrophs induced byinsertion of the transposable element Tn5. Genetics.;92:741-7.
Arthur M. Chovnick Fellowship in Genetics The Arthur Chovnick Fellowship in Genetics was established by friends and family of Arthur on the occasion of his retirement. Its purpose is to provide summer support for a graduate student in the Genetics Area of Concentration who shows exception promise.  Arthur Chovnick was born in 1927 in New York City. He received an AB in Chemistry in 1949, and an MS in Zoology/Genetics in 1950, from Indiana Univ., and his PhD in Genetics from Ohio State Univ. in 1953. He then served as an Instructor at UConn, as the Assistant Director and then Director of the Biological Laboratories at Cold Spring Harbor from 1959-1962 and became a Professor at UConn in 1962. He served for many years on the Editorial Review Boards of Genetics, Genetical Research and Fundamental Genetics, and was a member of the Genetics Study Section of NIH. During his career of over 41 years he published over 90 manuscripts. He is known for his contributions to understanding the structure and function of genes in higher organisms. His research has focused on the fruit fly, which has the same cellular structure that humans have. He is also recognized for his work involving molecular genetics, purine metabolism, transposable elements and chromosomal position effects. Dr. Chovnick holds the record for the longest running NIH grant in the history of that agency running from the late early 50s until his retirement in 1994.S. B. DANIELS, K. R. PETERSON, L. D. STRAUSBAUGH, M. G. KIDWELL, A. CHOVNICK . 1990. Evidence for Horizontal Transmission of the P Transposable Element Between Drosophila Species. Genetics 124: 339-355.A. CHOVNICK, W. GELBART, M. McCARRAN. 1977. Organization of the Rosy locus in Drosophila. Cell 11:1-10.
Richard C. Crain, Jr. Memorial Fellowship The Crain family established a Memorial Fellowship in Dr. Richard C. Crain’s memory with the aim of supporting graduate students in he Biochemistry Area of Concentration who demonstrate exceptional promise.Richard C. Crain graduated from Pittsford High School in western New York state in 1969. A record-setting distance runner, he was named the top academic athlete of his graduating class. After receiving his undergraduate degree in chemistry at Dartmouth, he earned a doctoral degree in biochemistry at the University of Rochester and went on to Cornell for post-doctoral work. While at Rochester and Cornell, he gained an international reputation for his work with phospholipid transfer proteins that catalyze the movement of cell membrane components between membranes.  Rich joined the faculty of the Department of Molecular and Cell Biology at UConn in 1980 and moved through the ranks to the position of Professor by 1992. Rich’s career was distinguished by the scope of his expertise, and by his willingness to contribute to a range of other research endeavors both at UCONN and beyond.  Rich’s training began in the field of lipid metabolism in liver, continued with studies on plant signal transduction, and moved to the biochemistry of inflammation and autoimmune disease.  He served on the Editorial Board of Plant Physiology and was active in the American Society of Plant Physiologists. Although his career was cut short, he published more than 50 research papers. Rich died suddenly of a heart attack at age 47, after 18 years at UConn. He is survived by his wife, Elizabeth Crain, whom he met in high school, and by his two sons, Cullen and Jason.YOUNGSOOK LEE, Y. B. CHOI, S. SUH, J. LEE, S. M. ASSMANN, C. O. JOE, J. F. KELLEHER, and R. C. CRAIN. 1996. Abscisic Acid-lnduced Phosphoinositide Turnover in Guard Cell Protoplasts of Vicia faba. Plant Physiol. 110:987-996.M. J. MORSE, RICHARD C. CRAIN, AND RUTH L. SATTER. 1987. Light-stimulated inositolphospholipid turnover in Samanea saman leaf pulvini. Proc. Natl. Acad. Sci. USA 84:7075-7078.
Dr. Edward A. Khairallah and Dr. Lamia H. Khairallah Fund for Scholarship The Edward A. Khairallah memorial fund was established by his family to honor his life and his contributions to science.  This fund is dedicated to the financial support of graduate students who are pursuing a degree with a concentration in Biochemistry, Cell Biology or Toxicology, and the continuing education of his faculty and student colleagues via the ongoing “Khairallah seminar series.” Born in Beiruit, Lebanon in 1936, Dr. Khairallah began his academic career at the American University of Beirut where he earned his undergraduate degree. He moved to Harvard University where he earned a Master’s degree, and then to the Massachusetts Institute of Technology where he was awarded his Ph.D. in 1964.  Dr. Khairallah did a postdoctoral fellowship with Henry Pitot at the McCardle Cancer Research Institute at the University of Wisconsin and arrived at the University of Connecticut in 1967 as an Assistant Professor.  During his years at UCONN, he was a very popular teacher in the biochemistry course sequence, an internationally recognized scientist in the areas of protein biosynthesis and degradation, and mechanisms of hepatotoxicity.  He was a beloved mentor to his students, and a constant advocate and supporter of his faculty colleagues.  His corpus or work included more than 80 publications and over 20 books and monographs over 31 years of science. Dr. Khairallah was recognized with honors and distinctions throughout his career.  He was an Adnelot Fellow at Harvard, a Fellow of the Japanese Biochemical Society, the winner of the Frank O. Blood Award from the Society of Toxicology, and a member of the Connecticut Academy of Arts and Sciences, to name but a few of the honors given to Dr. Khairallah.  His passing in 1996 continues to be felt in the Department of Molecular and Cell Biology, where he made so many significant contributions to the scientific and educational programs.  He left behind a wife and two children (Lamia Khairallah, Randa Laurice and John Amin), and a host of student and faculty admirers.  R. ODESSEY, E. A. KHAIRALLAH and A. L. GOLDBERG. 1974. Origin and Possible Significance of Alanine Production by Skeletal Muscle. J. Biol. Chem. 249:7623-7629BOULARES, A.H., C. GIARDINA, MS INAN , EA KHAIRALLAH, S.D. COHEN. 2000, Acetaminophen inhibits NF-kappaB activation by interfering with the oxidant signal in murine Hepa 1-6 cells.Toxicol Sci. 55:370-5.
Jean Lucas-Lenard Special Summer Fellowship in Biochemistry.  Jean Lucas-Lenard and her husband John established the Special Summer Fellowship to support students in the biochemistry Area of Concentration who showed exception promise in biochemical research.Jean was born in Bridgeport, CT and received her BA from Bryn Mawr College and PhD from Yale University. After receiving her PhD in 1963, she accepted postdoctoral positions at Institute de Biologie Physico-chemique in Paris and at the Rockefeller Univ. in NY where she worked with Fritz Lipmann (who received the Nobel Prize for Physiology and Medicine in 1953 for work on protein synthesis). She became an Assistant Professor at Rockefeller in 1968 before coming to UConn as an Associate Professor in 1970. Jean retired and became a Professor Emerita in 1995 after a long and productive career spanning 28 years and 57 publications. Jean served as a member of the Editorial Board of Biochemistry and he New England Press, and served on advisory panels for the NIH and the American Heart Association. Her research interests included the genes involved in shutting down host translation and transcription during infection with vesicular stomatitis virus, the effects of cannabinoids on the adenylate cyclase/cAMP signal transduction pathway in chinese hamster ovary cells that were transfected with the human cannabinoid receptor gene. She will be especially remembered for her famous course on the Biosynthesis of Nucleic Acids and Proteins that served an entire generation of graduate students from the Department of Molecular and Cell Biology and others. Jean and her husband John remain in the Storrs area.  J. LUCAS-LENARD, F. LIPMANN. 1971. Protein biosynthesis. Annual Review of Biochemistry 40:409-448.M.C. FERRAN, J.M. LUCAS-LENARD. 1997. The vesicular stomatitis virus matrix protein inhibits transcription from the human beta interferon promoter. J. Virol. 71:371-377.
Antonio H. & Marjorie J. Romano Graduate Education Fund The Romano Graduate Fellowship is awarded to a student in the Microbiology Area of Concentration who has shown exceptional promise in furthering our knowledge of microbiology and microorganisms. The gift comes through the generosity of Dr. Antonio Romano and his wife Jean who have had a long association with the microbiology program at UConn.  Antonio Romano was born in Penns Grove, NJ in 1929. He received a BS (1949) and PhD (1952) from Rutgers University working under the guidance of Selman Waksman, a Noble Laureate who received the Noble Prize in Medicine in 1952 for developing techniques that led to the discovery of streptomycin. Dr. Romano’s PhD dissertation dealt with the antifungal antibiotic fradicin produced by Streptomyces fradiae. After graduate school, he served in the U.S. Public Health Service in Cincinnati and moved to the Univ. Cincinnati as Associate Professor in 1959 where he became Head from 1964-1966. In 1971, he became Professor of Biology in the Biological Sciences Group at UConn, and soon became Head of the Microbiology Section from 1974-1984. In 1998, he became Dean of the College of Liberal Arts and Sciences until his retirement in 1998. He was a Fellow of the American Academy of Microbiology and served on the Editorial boards of J. of Applied and Environmental Microbiology and J. Bacteriol, as well as on several grants review panels for NIH, USPHS and NATO. Dr. Romano’s research interests were quite broad involving secondary metabolites produced by actinomycetes, sheathed bacteria (Sphaerotilus natans), and sugar transport and metabolism in a wide variety of bacteria, fungi, mammalian cells and protozoans. He published more than 70 articles in his long career that spanned fifty years.  The Department of Molecular and Cell Biology and the Microbiology graduate field of study in particular are fortunate to have them as supporters, and, more importantly, to have them as models of the best of what we strive to do in the academic world in supporting and training the next generation of citizens. Tony passed away in 2018 at the age of 88; he is survived by his wife, Jean. ROMANO, A. H., S. J. EBERHARD, S. L. DINGLE and T. D. McDOWELL. 1970. Distribution of the Phosphoenolpyruvate:Glucose Phosphotransferase System in Bacteria. J Bacteriol. 104: 808-813JONATHAN REIZER*t, ALAN PETERKOFSKY*, AND ANTONIO H. ROMANO. 1988. Evidence for the presence of heat-stable protein (HPr) and
ATP-dependent HPr kinase in heterofermentative lactobacilli lacking phosphoenolpyruvate:glycose phosphotransferase activity (phosphotransferase system/protein phosphorylation/HPr[Ser(P)J/Hpr[Ser(P)] phosphatase). Proc. Natl. Acad. Sci. USA 85:2041-2045.
Ruth Satter Lectureship in Plant Biology The Ruth Satter Lectureship was established to provide support for an annual lectureship in Plant Biology and to promote joint interaction between UMass and UConn.Ruth L. Satter was a Research Professor in the former Biological Sciences Group of UConn, and then the Department of Molecular and Cell Biology, from 1980 until her death in 1989 from leukemia. She was a distinguished plant physiologist who worked on the mechanism of leaf movement. Her career as a scientist was unusual and quite successful. She managed to balance her work along with a loving family life.Ruth was born in 1923 in New York City and grew up in Lawrence, Long Island. She graduated from Barnard College in 1944 with a BS in mathematics and physics. Between 1944 and 1947 she worked at Bell Laboratories and at Maxson Co. and then for 17 years she stayed home to raise her four children. In 1964, she began studying plant physiology at UConn with Professor Don Wetherell. Her Ph.D. thesis was on the control of flowering by red/far-red light in Sinningia species (Gloxinia).In her postdoctoral work at Yale, she studied the control of leaf movements, and published a series of elegant papers that showed the involvement of K+ and Cl- content and red and blue light in rhythmic leaf movements. In 1980, she returned to the UConn as a professor-in residence where she concentrated on understanding the mechanism of rhythmic changes in ion contents in the motor cells of the pulvinus. She collaborated with Richard Crain, a lipid biochemist, and together they showed, for the first time, that the phosphatidylinositol cycle is the basic light signal transduction mechanism in the leaf motor cells. Ruth was happily married to The Honorable Robert Satter, an emeritus judge in the Superior Court of Connecticut, notes that she was an enthusiastic and loving mother and grandmother. She is missed as an always cheerful and vibrant colleague.M. J. MORSE, RICHARD C. CRAIN, AND RUTH L. SATTER. 1987. Light-stimulated inositolphospholipid turnover in Samanea saman leaf pulvini. Proc. Natl. Acad. Sci. USA 84:7075-7078.RICHARD RACUSEN* & RUTH L. SATTER. 1974. Rhythmic and phytochrome-regulated changes in transmembrane potential in Samanea pulvini. Nature 255:408 – 410.
Pfizer Summer Fellowship in Molecular and Cell Biology.  This award was created by Pfizer Corporation to support a graduate student in a PhD program in the Department of Molecular and Cell Biology, following their third year of study, and who show exceptional promise. This award is not associated with any particular Area of Concentration and is open to all graduate students who meet the criteria.

 Bridge to the Doctorate STEM Program

The Bridge to the Doctorate (BD) Program at UConn is funded by a grant from the National Science Foundation under the Louis Stokes Alliances for Minority Participation (LSAMP) Program, and supports two-year fellowships for 12 doctoral students from African American, Hispanic and/or Native American populations during the first two years of study in science, technology, engineering and mathematics (STEM) subjects at UConn. After the initial two-year LSAMP-BD funding, fellows are supported by other funding mechanisms to ensure their timely graduation.The BD Program targets qualifying students who intend to earn a Ph.D. within a STEM discipline in the School of Engineering, College of Liberal Arts and Sciences, School of Pharmacy or College of Agriculture and Natural Resources. The Program provides two years of fellowship support ($30,000/calendar year plus tuition) for each qualifying BD Husky Fellow, contingent on Fellows’ academic standing, fulfillment of the BD Program requirements, and continued status as a full-time Ph.D. student in a STEM discipline. The Bridge to the Doctorate Program includes an array of recruiting, mentorship, and professional development measures aimed at ensuring a quality academic experience, full retention, educational success, community building and career attainment. It is aligned with the NSF-funded Northeast Louis Stokes Alliance for Minority Participation (NELSAMP) program at UConn.