Janice A Sharp

age ~78

from Omaha, NE

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Also known as:

Janice Adel Sharp
Jan A Sharp
Janice A Teti
Jan A Williams
Jan A Teti
Janicea Sharp
Jana Williams

Phone and address:: 12927 Lillian St, Omaha, NE 68138
(402)9334603

Connected to:

Janice Sharp Phones & Addresses

12927 Lillian St, Omaha, NE 68138 • (402)9334603
Orange, CA
Bellevue, NE
Santa Ana, CA
Brandenburg, KY
Louisville, KY
3102 Mirror Cir, Bellevue, NE 68123

Work

Position:

Building and Grounds Cleaning and Maintenance Occupations

Education

Degree:

Associate degree or higher

Emails

j***[email protected]

Specialities

Patent Law • Trademark Law • Copyright Law • Biotechnology Law

Lawyers & Attorneys

Janice Sharp - Lawyer

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Specialties:

Patent Law
Trademark Law
Copyright Law
Biotechnology Law

ISLN:

903814483

Admitted:

1990

University:

University of New South Wales, 1975; University of New South Wales, 1975; University of New South Wales, Ph.D., 1978; University of New South Wales, Ph.D., 1978; Yale University; Yale University

Law School:

Western State University, J.D., 1989

Isbn (Books And Publications)

Florida Facts and Figures

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Author
Janice G. Sharp

ISBN #
0882510827

Us Patents

Conversion Of Alcohols To Aldehydes And Hydrogen Peroxide By Substrate And Product Tolerant Methanol Oxidases
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US Patent:

49200550, Apr 24, 1990
Filed:

Feb 4, 1986
Appl. No.:

6/825856
Inventors:

Dane A. Hoiberg - San Clemente CA
G. Wesley Hatfield - Corona del Mar CA
Harris S. Moyed - Irvine CA
Janice A. Sharp - Irvine CA
Assignee:

American Biogenetics Corporation - Davis CA
International Classification:

C12P 724
C12P 300
C12N 904
C12N 132
US Classification:

435147
Abstract:

Disclosed is a process for converting alcohols to aldehydes and hydrogen peroxide through the use of a methanol oxidase enzyme. The process involves introducing a lower alkyl or lower alkylene alcohol, such as methanol, ethanol, or allyl alcohol, as an aqueous solution into a reaction zone. Methanol oxidase enzyme that is stable in methanol concentrations of at least 0. 5% and formaldehyde concentrations of at least 1. 0% is also introduced into the reaction zone, which is maintained at an elevated pressure in contact with an oxygen-containing gas. The preferred methanol oxidase enzyme has the properties of the methanol oxidase enzyme produced by Hansenula polymorpha ATCC 34438. Both batchwise and continuous processes are disclosed. Also disclosed is a process in which a catalase is present in the reaction zone to decompose hydrogen peroxide as it is formed, so that the net reaction is the conversion of alcohol to aldehyde. In one aspect of that process, the aldehyde may be removed as a gas and subsequently condensed to an essentially pure liquid.