"Dynabeads" cell separation products ; biomagnetic separation ; products for separation of cells, microorganisms, subcellular fractions, and DNA or mRNA ; isolation and manipulation of biological material; including cells, nucleic acids, proteins and pathogenic microorganisms.
Includes:
Trade catalog
Black and white images
Color images
Physical description:
41 pieces; 3 boxes
Language:
English
Type of material:
Trade catalogs
Trade literature
Place:
Lake Success, New York, United States
Date:
1900s
Topic (Romaine term):
Laboratories and laboratory supplies and equipment Search this
Monoclonal antibodies to human leukocytes; human immunoglobulins; hemostasis; red blood cells; immunohistochemistry of the immune system; interstitial proteins and cell surface antigens; cytoskeletal proteins; misc. antigens and proliferation antigens; infectious agents; horomones; mouse, rat and rabbit immunoglobulins. Antibody coated magnetic beads for cell separation; tissue differentiation markers; immunostaining reagents; polyclonal antibodies to imunoglobulins; antisera to neurotransmitters.
Includes:
Trade catalog and price lists
Color images
Physical description:
7 pieces; 1 box
Language:
English
Type of material:
Trade catalogs
Trade literature
Place:
Marseille, France
Date:
1900s
Topic (Romaine term):
Biotechnology and biochemical equipment and supplies Search this
Catalog including cell separation products, protein isolation products, subcellular isolation products; cancer research products, nucleit acid isolation and applications, microbiology products, magnetic and mixing equipment.
Includes:
Trade catalog
Color images
Physical description:
1 piece; 1 box
Language:
English
Type of material:
Trade catalogs
Trade literature
Place:
Oslo, Norway
Date:
1900s
Topic (Romaine term):
Biotechnology and biochemical equipment and supplies Search this
The History of the Cell Sorter Videohistory Collection
Extent:
7 videotapes (Reference copies). 12 digital .wmv files and .rm files (Reference copies).
Type:
Collection descriptions
Archival materials
Videotapes
Transcripts
Date:
1991
Introduction:
The Smithsonian Videohistory Program, funded by the Alfred P. Sloan Foundation from 1986 until 1992, used video in historical research. Additional collections have
been added since the grant project ended. Videohistory uses the video camera as a historical research tool to record moving visual information. Video works best in historical
research when recording people at work in environments, explaining artifacts, demonstrating process, or in group discussion. The experimental program recorded projects that
reflected the Institution's concern with the conduct of contemporary science and technology.
Smithsonian historians participated in the program to document visual aspects of their on-going historical research. Projects covered topics in the physical and biological
sciences as well as in technological design and manufacture. To capture site, process, and interaction most effectively, projects were taped in offices, factories, quarries,
laboratories, observatories, and museums. Resulting footage was duplicated, transcribed, and deposited in the Smithsonian Institution Archives for scholarship, education,
and exhibition. The collection is open to qualified researchers.
Descriptive Entry:
Ramunas Kondratas, curator at the Smithsonian's National Museum of American History (NMAH), documented the history, development, commercialization and applications
of fluorescence activated cell sorting instrumentation. Sessions were recorded January 30, 1991 at San Jose, California; February 1, 1991 at Palo Alto, California; April 19,
1991 at Washington, D.C.; and June 28, 1991 at Providence, Rhode Island.
Several participants were also interviewed on audiotape. They include Bach, Christiaanse, Fulwyler, Leonard Herzenberg, Leonore Herzenberg, Kudravcev, Mhatre, Recktenwald,
Rotman, Shoor, and Van Dilla. The audiotapes and transcripts complement the videotape sessions and are available through the Division of Medical Sciences, National Museum
of American History. Inventing the Cell Sorter, an edited program on the history of the machine, accompanies the collection as supplemental material. This tape, Inventing
the Cell Sorter, may not be copied without the permission of Ramunas Kondratas.
This collection consists of four interview sessions, totalling approximately 10:20 hours of recordings and 203 pages of transcript.
Audiotapes: Several participants were also interviewed on audiotape. The audiotapes and transcripts complement the videotape session, and are available through the Division
of Medical Sciences, National Museum of American History.
Historical Note:
The cell sorter, an instrument with sophisticated optics, lasers and electronic processors, automated the task of identifying and quantitatively analyzing individual
cells, and of separating and rapidly sorting closely related cell populations. By measuring the physical and chemical properties of cells, such as fluorescence, then by physically
separating cells while still alive, the cell sorter became an important tool for biomedical research and clinical medicine.
The first prototype sorter was built at the Los Alamos National Laboratory (LANL) in 1965 by physicist Mack J. Fulwyler by joining a Coulter volume sensor with the newly-invented
ink jet printer. The first biologist who clearly saw uses for the Los Alamos instrument, especially for the study of immunological properties of cells, was Leonard Herzenberg
of Stanford University. With Fulwyler's plans, Herzenberg obtained the cooperation of engineers in the Genetics Department's Instrumentation Research Laboratory at Stanford
to build an instrument to sort live cells using fluorescence. Two successful prototypes were built -- a 1969 instrument that employed a mercury arc lamp as light source and
a 1972 version which used an argon ion laser to detect cells tagged with fluorescent markers. Funding from the National Institutes of Health (NIH) allowed Herzenberg and the
Stanford engineers to interest the medical products company Becton Dickinson (BD) to convert their prototypes into the first commercial instruments, the FACS (Fluorescence
Activated Cell Sorter) in 1975.
Interviewees included scientists, engineers, managers, and physicians from Becton Dickinson Immunocytometry Systems (BDIS), Stanford University, Brown University, and LANL.
Bruce Allen Bach received his B.S. in biology and his M.A. in molecular biology from Stanford University in 1973 and 1974, respectively. He was awarded his Ph.D. in immunology
from Harvard Medical School in 1979 and a M.D. from the Washington University School of Medicine in 1981. After completing his residency at the University of California Affiliated
Hospitals, Bach accepted the position of Associate Scientific Member of the Howard Hughes Medical Research Institute in 1984. From 1985 to 1987 he served as a physician at
two San Francisco area hospitals. In 1989, he was appointed Corporate Medical Director of BDIS, and held that position concurrently with his 1991 appointment as director of
BD's worldwide clinical trials group.
Mack Jett Fulwyler received his B.S. in physics from Idaho State College in 1961 and his Ph.D. in biophysics from the University of Colorado in 1969. From 1961 to 1967,
Fulwyler worked at LANL where he developed particle separators and sorters. In 1971, he accepted the position of President of Particle Technology, Inc. In 1977, after completing
a two year fellowship at the Max Planck Institute in Germany, Fulwyler returned to the U.S. to serve as Technical Director for BD FACS System Division. He retired from that
position in 1982 and accepted a professorship at the University of California, San Francisco. Since 1990, Fulwyler served as Director of Technical Development for the Trancel
Corporation.
After receiving his B.A. in biology and chemistry from Brooklyn College in 1952 and his Ph.D. in biochemistry and immunology from the California Institute of Technology
in 1955, Leonard A. Herzenberg accepted a postdoctoral fellowship from the American Cancer Society to conduct research at the Pasteur Institute in France. Herzenberg returned
to the U.S. in 1957 to serve as an officer for the Public Health Service at the National Institutes of Health. In 1959, he accepted the position of Assistant Professor in
the Department of Genetics at Stanford University and was eventually appointed Professor of Genetics.
Leonore A. Herzenberg attended classes at Pomona College and the California Institute of Technology during the mid-1950s. In 1981, she was awarded the degree of Docteur
des Sciences Naturelles from the Sorbonne University in Paris. During the 1950s, she served as a research assistant at the California Institute of Technology, the Pasteur
Institute, and the National Institutes of Health. In 1959, she accepted the position of Research Assistant in the Department of Genetics and the Department of Obstetrics and
Gynecology at Stanford University. Subsequently, she was appointed Senior Research Assistant in those departments in 1963 and Research Associate in 1967. From 1973 to 1989,
she worked as a Research Associate and Senior Research Associate solely in the Department of Genetics. In 1989, she was appointed professor in the Genetics Department.
Mark A. Krasnow received his B.S. in biology and chemistry from the University of Illinois in 1978. He was awarded his Ph.D. in biochemistry in 1983, and his M.D. in 1985,
from the University of Chicago. In 1988, he was appointed Assistant Professor in the Department of Biochemistry at the Stanford University School of Medicine. His research
interests include the biochemical mechanisms of transcriptional regulation and cell to cell interactions in the development of Drosophila.
Nagesh S. Mhatre, president of BDIS, was awarded a B.S. from Bombay University, an M.S. from Oregon State University, and a Ph.D. in biochemistry-microbiology from Rutgers
University. Before being appointed president in 1983, Mhatre held a variety of positions with Becton Dickinson & Company. Previously, he was with Miles Laboratory for
seventeen years.
After receiving his B.S. in biochemistry from the University of California, Berkeley, in 1986, Monty Montano conducted research at the University of California, San Francisco
on the use of recombinant DNA applied to clinical genetics. Montano began a doctoral program in genetics at Stanford University in 1988.
Wayne A. Moore received his B.S. in mathematics and science from Stanford University in 1976. From 1972, he worked as a lab assistant and programmer at the Stanford Department
of Genetics and was later appointed Senior Scientific Programmer of that department.
From 1970 to 1974, Thomas Nozaki, Jr., served as an electronics engineer at the Stanford Computation Center. After receiving his B.S. in electrical engineering from California
State University in 1974, Nozaki joined the Stanford Department of Genetics as a research and development electronics engineer.
Richard E. Owen, Director of Instrument Operations for BDIS, joined the company in 1988 as Manufacturing Engineering Manager. Prior to joining BDIS, he was Director of
Thorn EMI Datatech Ltd. in England. He holds a Higher National Certificate in Applied Physics from Southeast London Technical College, a B.A. in Management from St. Marys
College in Moraga, California, and is a graduate of the Institute of Electronic and Radio Engineers.
David R. Parks received his B.S. from Grinnell College in 1967, and his Ph.D. in physics from Stanford University in 1973. From 1973 to 1974 he worked as a Field Assistant
and Project Manager in environmental studies at the Missouri Botanical Garden. In 1975, he returned to Stanford University as a postdoctoral fellow in the Department of Genetics.
In 1981, he accepted the position of Research Associate in that department and held that position concurrently with his appointment as director of the Shared Cell Sorter Facility
in 1983.
In 1981 Diether J. Recktenwald joined BDIS as a Senior Research Scientist; he was appointed research group leader and later associate scientific director. Prior to BDIS,
he was a visiting scientist at Stanford University and a senior research associate at the Max Planck Institute. He received a Ph.D. in biochemistry and biophysics from Ruhruniversitat
Bochum in Germany, and an M.S. and B.S. from Universitat des Saarlandes Saarbrucken, also in Germany.
Marcos Boris Rotman received his M.S. in chemical engineering from the University F. Santa Maria in Chile in 1948, and his Ph.D. in microbiology, organic chemistry, and
biochemistry from the University of Illinois in 1952. After completing his degree, he served a year as a research associate at the University of Illinois, and then moved to
the University of Wisconsin to work in the laboratory of Joshua Lederberg from 1953 to 1956. In 1959, Rotman became Assistant Professor in the Department of Biochemistry at
the Albany Medical School, and in 1961 moved to the Department of Genetics at Stanford as a Research Associate. From 1961 to 1966, he served as head of the biochemistry section
of the Syntex Institute for Molecular Biology, located at Stanford. In 1966, Rotman left Stanford to become professor of Medical Science at Brown University. In 1990, he was
awarded the title of Professor Emeritus.
Bernie Shoor completed his B.A. in physics from New York University in 1946. After receiving his degree, he worked for the Army Signal Corps and subsequently the Sperry
Gyroscope Company. In 1966, Shoor began working for Endevco Corporation, a small scientific instrument company which was eventually bought by BD. In 1970, Shoor became manager
of BD's Mountain View, California, laboratory. In 1977, he accepted the position of Corporate Vice-President of Research and Design at BD's headquarters in New Jersey. In
1981, he returned to California to establish the BD Monoclonal Center. Shoor retired from BD in 1984 but has continued to serve as a consultant for the company.
After receiving his B.S. in mechanical engineering in 1965, and his M.S. in theoretical and applied mechanics in 1967 from Cornell University, Richard T. Stovel worked
as a Research Engineer at Lockheed Missiles and Space Company analyzing the structural dynamics of missile systems. In 1972, he joined the Stanford University Department of
Genetics as a Physical Science and Engineering Technician working on the operation and development of the prototype cell sorting machine. In 1976, he was appointed Research
and Development Engineer of the Genetics Department where he continued his research in fluid jet behavior.
Richard G. Sweet received his B.S. in electrical engineering in 1947. From 1947 to 1951, he worked as a design engineer on telephone systems at the Southern California
Edison Company. In 1951, he accepted the position of Senior Design Engineer at Gilfillan Bros. Inc., developing electronics equipment for radar systems. Sweet joined Stanford
University Electronics Labs in 1956 as a research associate where he developed, most notably, high speed ink jet recording systems. After a decade at Stanford, Sweet accepted
the position of Senior Engineer at Varian Associates in 1966 and worked on developing instrumentation for classifying and sorting small particles. In 1971, he travelled as
a visiting scientist to the Xerox Palo Alto Research Center to conduct research on non-impact printing systems. Since 1986, Sweet has served as a consultant to both the Herzenberg
Laboratory and to BDIS.
After receiving his B.S. from City College of New York in 1939 and his Ph.D. in physics from Massachusetts Institute of Technology in 1951, Marvin A. Van Dilla worked in
the radiobiology laboratory at the University of Utah. In 1957, he joined the Los Alamos Scientific Laboratory as the biophysics group leader. Van Dilla left Los Alamos in
1972 to become the cytophysics Section Leader of the Biomedical Sciences Division at Lawrence Livermore Laboratory. In 1983, he was appointed Leader of the Gene Library Project
at Livermore.
Nicholas Veizades was awarded his B.S. in electrical engineering from the University of California, Berkeley in 1958, and his M.S. in engineering sciences from Stanford
University in 1961. He joined the Stanford Department of Genetics in 1962 and worked in the Instrumentation Research Laboratory on biomedical instrumentation.
Rights:
Restricted. "Inventing the Cell Sorter" film cannot be reproduced. Contact SIHistory@si.edu for more details.