ELIZABETH A JONAS, M.D.
Osteopathic Medicine at Howard Ave, New Haven, CT
License number
Connecticut 030979
Category
Osteopathic Medicine
Type
Internal Medicine
Address
Address
789 Howard Ave, New Haven, CT 06519
Phone
(203) 785-3087
Personal information
See more information about ELIZABETH A JONAS at radaris.comName
Address
Phone
11 Timber Ln, Bloomfield, CT 06002
Darien, CT
905 Ridge Rd, Hamden, CT 06517
905 Ridge St, Hamden, CT 06517
Organization information
See more information about ELIZABETH A JONAS at bizstanding.comElizabeth A Jonas
905 Rdg Rd, Hamden, CT 06517
Categories:
Business & Professional Associations & Organizations
Phone:
(203) 785-3087 (Phone)
Elizabeth Jonas MD
789 Howard Ave, New Haven, CT 06519
Industry:
Neurologist, Internist
Phone:
(203) 688-5555 (Phone)
Elizabeth Ann Jonas
Professional information
Dr. Elizabeth A Jonas, New Haven CT - MD (Doctor of Medicine)
Specialties:
Internal Medicine, Neuropsychiatry (Neurology)
Address:
789 Howard Ave, New Haven 06519
(203) 688-5555 (Phone), (203) 688-8712 (Fax)
(203) 688-5555 (Phone), (203) 688-8712 (Fax)
Certifications:
Internal Medicine, 2002, Neurology, 1991
Awards:
Healthgrades Honor Roll
Languages:
English
Education:
Medical School
New York University
Graduated: 1986
New York University
Graduated: 1986
Compounds And Methods Of Modulating Mitochondrial Bioenergetic Efficiency Through An Interaction With Atp Synthase (Complex V) And Its Subunits
US Patent:
2013027, Oct 17, 2013
Filed:
May 26, 2011
Appl. No.:
13/699304
Inventors:
Valentin Gribkoff - Wallingford CT, US
Steven Dworetzky - Pittsburgh PA, US
Elizabeth Ann Jonas - Hamden CT, US
Kambiz Nassirpour Alavian - New Haven CT, US
Steven Dworetzky - Pittsburgh PA, US
Elizabeth Ann Jonas - Hamden CT, US
Kambiz Nassirpour Alavian - New Haven CT, US
International Classification:
G01N 33/94
US Classification:
435 71
Abstract:
The present invention provides, in part, methods of identifying compounds that can bind to an ATP synthase complex, increase bioenergetic efficiency, decrease oxygen consumption or the rate thereof, increase oxygen utilization efficiency, increase cell survival or any combination thereof, and methods of using compounds and/or identified compounds to increase bioenergetic efficiency, increase oxygen utilization efficiency, decrease oxygen consumption, increase cell survival, or any combination thereof.