Feb 2009 to 2000 Research ProfessorThe Scripps Research Institute
2001 to 2000 Visiting Scientist, Core Mass Spectrometry FacilityAphios Corporation Woburn, MA Jan 2012 to Jan 2013 Vice President of Drug DevelopmentNortheastern Univ. Barnett Inst. and the Center for Adv. Reg. Analysis (CARA) Boston, MA 2010 to 2012 Research Associate Professor and Director of CARACMC Biologics A/S Kbenhavn 2005 to 2009 Chief Science OfficerWaters Corporation Milford, MA Aug 1997 to Sep 2003 Director of Separation SciencesWaters Corporation Milford, MA Jan 1993 to Mar 1997 V.P. Separation TechnologyAutoImmune Inc Lexington, MA 1993 to 1997 Director Pharmaceutical Development and Quality ControlSUNY Health Science Center Syracuse, NY Jun 1989 to Jul 1991 Adjunct Assistant Professor LecturingSensors in Bioprocess Control N.Y., N.Y., US 1990 to 1990Bristol-Myers Squibb Co Syracuse, NY 1983 to 1989 Principal Scientist, Supported WWPennwalt Pharmaceutical Syracuse, NY Oct 1983 to Oct 1986 Principal Scientist and Group Leader of AutomationMerck Sharp and Dohme Research Labs Rahway, NJ Oct 1981 to Dec 1983 Senior Research ChemistMerck Sharp and Dohme Research Laboratory Rahway, NJ Jun 1981 to Sep 1983 Sr. Research ChemistJ.R. Weber Letters, UK 1980 to 1980Representative Publications and Presentations 1979 to 1979W.C. Purdy
1979 to 1979Biological Sciences
1971 to 1975The Scripps Research Institute La Jolla, CA Visiting ProfessorOffice of Naval Research Global Arlington, VA Associate Director Office of Naval Research
Education:
Univ. Utah Salt Lake City, UT 1980 to 1981 DoctoralMcGill Univ Montral, QC 1976 to 1980 Graduate StudiesUniv. Maryland College Park, MD 1975 to 1976 Graduate Studiesresearch group moved to McGill University 1976 Research Advisor W
License Records
Bruce D Compton
Address:
Marshfield, MA 02050
License #:
9060566 - Expired
Issued Date:
Dec 19, 2003
Expiration Date:
Nov 26, 2006
Type:
Salesperson
Us Patents
Hydraulic Amplifier Pump For Use In Ultrahigh Pressure Liquid Chromatography
A hydraulic amplifier system for an ultra-high pressure liquid chromatography system. The hydraulic amplifier system includes a hydraulic cylinder comprising a primary piston chamber in which a primary piston is disposed and a secondary piston chamber in which a secondary piston is disposed. The cross-sectional area of the primary piston is larger than the cross-sectional area of the secondary piston. The difference in the cross-sectional areas of the pistons creates an amplification of the pressure in the primary piston chamber and a reduction in flow rate.
Conjugates Of Agents And Transglutaminase Substrate Linking Molecules
Methods, products, compositions and kits are provided for attaching agents to tissue with a linking molecule in the presence of transglutaminase. The linking molecule and/or agent is a substrate of transglutaminase. The agent can be a nonprotein or an enzyme such as cholinesterase or phosphodiesterase. The transglutaminase may be exogenously added or be endogenous in tissue. In specific embodiments, the agent is not a transglutaminase substrate and the linking molecule is a substrate for transglutaminase containing at least two contiguous linked glutamines or at least three contiguous linked lysines, and may be a polymer. A conjugate of the agent and the linking molecule may be applied to tissue, and in the presence of transglutaminase covalently bonded to the tissue via the linking molecule. A complementary linking molecule rich in lysines may be first attached to the tissue in the presence of transglutaminase, and then covalently bonded to a glutamine-containing linking molecule of the conjugate in the presence of transglutaminase. In another embodiment a linking molecule containing multiple glutamines is covalently bonded to tissue in the presence of transglutaminase, and an agent containing multiple lysines is covalently bonded to the linking molecule in the presence of transglutaminase.
Linkage Of Agents To Body Tissue Using Microparticles And Transglutaminase
Methods, products and kits are provided for attaching agents to a body tissue surface via microparticles using endogenous or exogenous transglutaminase. The microparticles have surface available transglutaminase substrate reactive groups. In an embodiment, the groups are part of a polymer containing at least two contiguous linked lysines or at least three contiguous linked glutamines.
Method For Using A Hydraulic Amplifier Pump In Ultrahigh Pressure Liquid Chromatography
Geoff C. Gerhardt - Milbury MA, US Bruce J. Compton - Lexington MA, US
Assignee:
Waters Investments Limited - New Castle DE
International Classification:
F04B 17/00
US Classification:
417390, 91321, 417388
Abstract:
A method for supplying solvent to an ultra-high pressure liquid chromatography system using a hydraulic amplifier. The hydraulic amplifier system includes a hydraulic cylinder comprising a primary piston chamber in which a primary piston is disposed and a secondary piston chamber in which a secondary piston is disposed. The cross-sectional area of the primary piston is larger than the cross-sectional area of the secondary piston. The difference in the cross-sectional areas of the pistons creates an amplification of the pressure in the primary piston chamber and a reduction in flow rate.
Bruce Compton - Lexington MA, US Robert Plumb - Milford MA, US
Assignee:
WATERS INVESTMENTS LIMITED - New Castle DE
International Classification:
G01N030/02
US Classification:
436161000, 436173000, 422070000
Abstract:
Embodiments of the present invention provide methods and apparatus for comparing the proteome and or metabonome of an organism or culture to standard values, over time, or after a change has taken place, a pertubation, with respect to the organinsm or culture.