DAVID A WOOD
Broker in Cambridge, MA

License number
Massachusetts 9056911
Issued Date
Aug 5, 2003
Expiration Date
Jul 19, 2018
Type
Salesperson
Address
Address
Cambridge, MA 02138

Professional information

David Wood Photo 1

Vice President At Covington Associates

Position:
Vice President at Covington Associates
Location:
Greater Boston Area
Industry:
Investment Banking
Work:
Covington Associates - Boston since Jun 2009 - Vice President Ferghana Partners - Cambridge, MA Aug 2006 - Jun 2009 - Senior Associate America's Growth Capital - Boston Mar 2005 - Mar 2006 - Senior Analyst - Biotechnology Rodman & Renshaw - New York City Jun 2003 - Mar 2005 - Senior Analyst- Biotechnology Stephens, Inc. - Boston Sep 2000 - May 2003 - Associate Analyst- Life Sciences Children's Hospital- Harvard Medical School Sep 1999 - Sep 2000 - Postdoctoral Fellow Faulkner Hospital 1993 - 1995 - Research Assistant- Molecular Pathology
Education:
New York University School of Medicine 1995 - 1999
Ph.D., Molecular Oncology and Immunology
Bowdoin College 1989 - 1993
B.A., Biology


David Wood Photo 2

David Wood - Cambridge, MA

Work:
Sunnyside Acura
Fixed Operations Director
Browns Toyota
Parts & Service Director
Chase & Associates Architects - Cambridge, MA
Project Manager
Mercedes Benz of Annapolis - Annapolis, MD
Service & Parts Director
Rosenthal Jaguar/Land Rover - Tysons Corner, VA
Service & Parts Director
Land Rover Alexandria / Don Beyer Volvo
Service and Parts Director
Land Rover Alexandria / Don Beyer Volvo - Alexandria, VA
Service Director
Land Rover Alexandria / Don Beyer Volvo
Service Advisor
Shearson Lehman Brothers - New York, NY
Stock Broker & Divisional Vice President
Education:
College of William & Mary - Williamsburg, VA
MBA
Columbia University - New York, NY
MS in Mathematics


David Wood Photo 3

Devices And Processes For Analyzing Nucleic Acid Damage And Repair Using Electrophoresis

US Patent:
2009027, Nov 5, 2009
Filed:
Apr 28, 2009
Appl. No.:
12/431287
Inventors:
Sangeeta N. Bhatia - Lexington MA, US
Bevin P. Engelward - Lexington MA, US
David K. Wood - Cambridge MA, US
David M. Weingeist - Cambridge MA, US
Assignee:
MASSACHUSETTS INSTITUTE OF TECHNOLOGY - Cambridge MA
International Classification:
G01N 27/26
US Classification:
205792, 204639
Abstract:
Systems, methods, and devices are provided for assessing DNA damage and repair in cells by measuring DNA migration under electrophoresis. In one exemplary embodiment, a microarray configured to hold cells in a predetermined spatial relationship is employed to improve accuracy, speed, and reliability of such measurements. In another embodiment, a self-contained cassette having a matrix material disposed therein can be used to create a substantially uniform environment for analyzing DNA damage and repair. Fluid can be circulated through the cell to assist in creating spatial patterns on the matrix material, or alternatively, the matrix material can already include a microarray pattern disposed thereon. Various methods and systems that take advantage of such microarrays and cassettes are also provided.


David Wood Photo 4

Devices And Processes For Analyzing Nucleic Acid Damage And Repair Using Electrophoresis

US Patent:
2012027, Nov 1, 2012
Filed:
Jul 12, 2012
Appl. No.:
13/547708
Inventors:
Sangeeta N. Bhatia - Lexington MA, US
Bevin P. Engelward - Lexington MA, US
David K. Wood - Cambridge MA, US
David M. Weingeist - Cambridge MA, US
Assignee:
Massachusetts Institute of Technology - Cambridge MA
International Classification:
C40B 30/06, C40B 60/08
US Classification:
506 10, 506 37
Abstract:
Systems, methods, and devices are provided for assessing DNA damage and repair in cells by measuring DNA migration under electrophoresis. In one exemplary embodiment, a microarray configured to hold cells in a predetermined spatial relationship is employed to improve accuracy, speed, and reliability of such measurements. In another embodiment, a self-contained cassette having a matrix material disposed therein can be used to create a substantially uniform environment for analyzing DNA damage and repair. Fluid can be circulated through the cell to assist in creating spatial patterns on the matrix material, or alternatively, the matrix material can already include a microarray pattern disposed thereon. Various methods and systems that take advantage of such microarrays and cassettes are also provided.