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Laura S Privalle

from Durham, NC
Age ~67
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Also known as:
Laura Stein Privalle
Phone and address:
3101 Wild Meadow Dr, Durham, NC 27705
(919) 382-7356
Related to:
Geraldine C Zeunik, 77Jacqueline C Williams, 52Christopher T Privalle, 71Kevin A Privalle, 33Kevin A Privalle, 34Kevin Alexander Privalle, 34Casey Privalle, 36
Connected to:
Christian Privat, 59Dennis L Privat, 75Jon A Privatt, 54George F Prive, 81Loren M Prive, 41Tiffany Prive, 36Mark A Priver, 51Loretta K Prives, 73Dean A Privetera, 52Alice J Privett, 79

Laura Privalle Phones & Addresses

  • 3101 Wild Meadow Dr, Durham, NC 27705 (919) 382-7356

Resumes

Resumes

Laura Privalle Photo 1

Global Head Regulatory Field Study Coordination

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Location:
Durham, NC
Industry:
Biotechnology
Work:
BASF Plant Science
Senior Manager, Regulatory Science
BASF 2003 - 2009
Senior Manager, Regulatory Science
Education:
Virginia Tech, University of Wisconsin
Laura Privalle Photo 2

Laura Privalle

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Publications

Us Patents

Control Of Gene Expression In Plants By Receptor Mediated Transactivation In The Presence Of A Chemical Ligand

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US Patent:
6939711, Sep 6, 2005
Filed:
Mar 21, 2001
Appl. No.:
09/813589
Inventors:
Stephen A. Goff - Encinitas CA, US
Lyle D. Crossland - Chesterfield MO, US
Laura S. Privalle - Durham NC, US
Assignee:
Syngenta Investment Corporation - Wilmington DE
International Classification:
A01H005/00
C12N015/12
C12N015/82
US Classification:
435419, 800278, 800288, 800295, 8003201, 8003203, 536 231, 536 234, 536 241, 536 245
Abstract:
The present invention is drawn to a method of controlling gene expression in plants. Specifically, the method comprises obtaining a transgenic plant comprising at least two receptor expression cassettes and at least one target expression cassette. The first receptor expression cassette comprises a nucleotide sequence for a 5′ regulatory region operably linked to a nucleotide sequence which encodes a first receptor polypeptide, and a 3′ termination region. The second receptor expression cassette comprises a nucleotide sequence for a 5′ regulatory region operably linked to a nucleotide sequence which encodes a second receptor polypeptide, and a 3′ termination region. The target expression cassette comprises a nucleotide sequence for a 5′ regulatory region operably linked to a nucleotide sequence which encodes a target polypeptide, and a 3′ termination region, wherein the 5′ regulatory region of the target expression cassette is activated by the first and second receptor polypeptides in the presence of one or more chemical ligands which are complementary to the ligand binding domain of the receptor polypeptides, whereby expression of the target polypeptide is accomplished. The method is useful for controlling various traits of agronomic importance, such as plant fertility.

Method Of Controlling The Fertility Of A Plant

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US Patent:
61472824, Nov 14, 2000
Filed:
Jan 20, 1999
Appl. No.:
9/234190
Inventors:
Stephen A. Goff - Durham NC
Lyle D. Crossland - Chapel Hill NC
Laura S. Privalle - Durham NC
Assignee:
Novartis Finance Corporation - New York NY
International Classification:
A01H 102
C12N 1512
C12N 1555
C12N 1582
US Classification:
800303
Abstract:
The present invention is drawn to a method of controlling gene expression in plants. Specifically, the method comprises obtaining a transgenic plant comprising at least two receptor expression cassettes and at least one target expression cassette. The first receptor expression cassette comprises a nucleotide sequence for a 5' regulatory region operably linked to a nucleotide sequence which encodes a first receptor polypeptide, and a 3' termination region. The second receptor expression cassette comprises a nucleotide sequence for a 5' regulatory region operably linked to a nucleotide sequence which encodes a second receptor polypeptide, and a 3' termination region. The target expression cassette comprises a nucleotide sequence for a 5' regulatory region operably linked to a nucleotide sequence which encodes a target polypeptide, and a 3' termination region, wherein the 5' regulatory region of said target expression cassette is activated by said first and second receptor polypeptides in the presence of one or more chemical ligands which are complementary to the ligand binding domain of said receptor polypeptides, whereby expression of said target polypeptide is accomplished. The method is useful for controlling various traits of agronomic importance, such as plant fertility.

Methods For Conferring Insect Resistance To A Monocot Using A Perioxidase Coding Sequence

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US Patent:
60020687, Dec 14, 1999
Filed:
Dec 19, 1996
Appl. No.:
8/770097
Inventors:
Laura Privalle - Durham NC
Juan Estruch - Durham NC
Martha Wright - Cary NC
Martha Beale Hill - Hillsborough NC
Patrick Francis Dowd - Peoria IL
Lawrence Mark Lagrimini - Hilliard OH
Assignee:
Novartis Finance Corporation - New York NY
The Ohio State University - Columbus OH
The United States of America as represented by the Secretary of
Agriculture - Washington DC
International Classification:
C12N 504
C12N 1584
C12N 1582
A01H 500
US Classification:
800279
Abstract:
The present invention relates, in general, to methods and compositions for controlling insects in monocotyledonous plants (monocots), particularly maize. More precisely, the present invention relates to (1) a method for controlling insects comprising feeding or contacting an insect with an insecticidal amount of transgenic monocotyledonous plant cells comprising a recombinant DNA sequence comprising a coding sequence encoding peroxidase and (2) a fertile transgenic monocot plant comprising a recombinant DNA sequence comprising a coding sequence encoding peroxidase.

Control Of Gene Expression In Plants By Receptor Mediated Transactivation In The Presence Of A Chemical Ligand

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US Patent:
58803335, Mar 9, 1999
Filed:
Jan 21, 1998
Appl. No.:
/010050
Inventors:
Stephen A. Goff - Durham NC
Lyle D. Crossland - Chapel Hill NC
Laura S. Privalle - Durham NC
Assignee:
Novartis Finance Corporation - New York NY
International Classification:
A01H 500
C12N 1512
C12N 1582
US Classification:
800288
Abstract:
The present invention is drawn to a method of controlling gene expression in plants. Specifically, the method comprises obtaining a transgenic plant comprising at least two receptor expression cassettes and at least one target expression cassette. The first receptor expression cassette comprises a nucleotide sequence for a 5' regulatory region operably linked to a nucleotide sequence which encodes a first receptor polypeptide, and a 3' termination region. The second receptor expression cassette comprises a nucleotide sequence for a 5' regulatory region operably linked to a nucleotide sequence which encodes a second receptor polypeptide, and a 3' termination region. The target expression cassette comprises a nucleotide sequence for a 5' regulatory region operably linked to a nucleotide sequence which encodes a target polypeptide, and a 3' termination region, wherein the 5' regulatory region of said target expression cassette is activated by said first and second receptor polypeptides in the presence of one or more chemical ligands which are complementary to the ligand binding domain of said receptor polypeptides, whereby expression of said target polypeptide is accomplished. The method is useful for controlling various traits of agronomic importance, such as plant fertility.
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Laura S Privalle from Durham, NC, age ~67 Get Report