Timothy Peter Croughan, 74352 Croughan Ln, Crowley, LA 70526

6943280, Sep 13, 2005

May 9, 2001

10/258842

Timothy P. Croughan - Crowley LA, US

Board of Supervisors of Louisiana State University and Agricultural and Mechanical College - Baton Rouge LA

A01H005/00
C12N015/29
C12N015/82

800300, 4353201, 536 236, 800278, 8003202

Nucleotide sequences are disclosed that may be used to impart herbicide resistance to green plants. The sources of novel herbicide resistance were originally isolated in mutant rice plants. The sequences impart pre-emergence resistance, post-emergence resistance, or both pre-emergence resistance and post-emergence resistance to multiple herbicides. To date, resistance has been demonstrated against at least the following herbicides: imazethapyr, imazapic, imazapyr, imazamox, sulfometuron methyl, imazaquin, chlorimuron ethyl, metsulfuron methyl, rimsulfuron, thifensulfuron methyl, pyrithiobac sodium, tribenuron methyl, and nicosulfuron. Green plants transformed with these sequences are resistant to these herbicides and to derivatives of these herbicides, and to at least some of the other herbicides that normally inhibit acetohydroxyacid synthase (AHAS), particularly imidazolinone and sulfonylurea herbicides.

7019196, Mar 28, 2006

Nov 5, 1999

09/830194

Timothy P. Croughan - Crowley LA, US

Board of Supervisors of Louisiana State University and Agricultural and Mechanical College - Baton Rouge LA

A01H 1/00
A01H 5/00

800300, 8003202, 800266, 800298

Rice plants are disclosed with multiple sources of resistance to herbicides that normally inhibit a plant's acetohydroxyacid synthase (AHAS) enzyme. Besides controlling red rice, many AHAS-inhibiting herbicides also effectively control other weeds that are common in rice fields. Several of these herbicides have residual activity, so that one treatment can control both existing weeds and weeds that sprout later. With effective residual activity against red rice and other weeds, rice producers now have a weed control system superior to those that are currently available commercially.

7345221, Mar 18, 2008

Aug 22, 2001

09/934973

Timothy P. Croughan - Crowley LA, US

Board of Supervisors of Louisiana State University and Agricultural and Mechanical College - Baton Rouge LA

A01H 1/00
A01H 5/00

800300, 800266, 8003202

Rice plants are disclosed with multiple sources of resistance to herbicides that normally inhibit a plant's acetohydroxyacid synthase (AHAS) enzyme. Besides controlling red rice, many AHAS-inhibiting herbicides also effectively control other weeds that are common in rice fields. Several of these herbicides have residual activity, so that one treatment can control both existing weeds and weeds that sprout later. With effective residual activity against red rice and other weeds, rice producers now have a weed control system superior to those that are currently available commercially.

7399905, Jul 15, 2008

Apr 19, 2005

11/109587

Timothy P. Croughan - Crowley LA, US

Board of Supervisors of Louisiana State University and Agricultural and Mechanical College - Baton Rouge LA

A01H 5/00

800300, 8003202

Nucleotide sequences are disclosed that may be used to impart herbicide resistance to green plants. The sources of novel herbicide resistance were originally isolated in mutant rice plants. The sequences impart pre-emergence resistance, post-emergence resistance, or both pre-emergence resistance and post-emergence resistance to multiple herbicides. To date, resistance has been demonstrated against at least the following herbicides: imazethapyr, imazapic, imazapyr, imazamox, sulfometuron methyl, imazaquin, chlorimuron ethyl, metsulfuron methyl, rimsulfuron, thifensulfuron methyl, pyrithiobac sodium, tribenuron methyl, and nicosulfuron. Green plants transformed with these sequences are resistant to these herbicides and to derivatives of these herbicides, and to at least some of the other herbicides that normally inhibit acetohydroxyacid synthase (AHAS), particularly imidazolinone and sulfonylurea herbicides.

7495153, Feb 24, 2009

Mar 17, 2006

11/378882

Timothy P. Croughan - Crowley LA, US

Board of Supervisors of Louisiana State University and Agricultural and Mechanical College - Baton Rouge LA

A01H 1/00
A01H 5/00

800300, 8003202, 800266

Rice plants are disclosed with multiple sources of resistance to herbicides that normally inhibit a plant's acetohydroxyacid synthase (AHAS) enzyme. Besides controlling red rice, many AHAS-inhibiting herbicides also effectively control other weeds that are common in rice fields. Several of these herbicides have residual activity, so that one treatment can control both existing weeds and weeds that sprout later. With effective residual activity against red rice and other weeds, rice producers now have a weed control system superior to those that are currently available commercially.

7754947, Jul 13, 2010

Mar 18, 2008

12/050448

Timothy P. Croughan - Crowley LA, US

Board of Supervisors of Louisiana State University And Agricultural and Mechanical College - Baton Rouge LA

A01H 1/00
A01H 5/00

800300, 800266, 8003202

Rice plants are disclosed with multiple sources of resistance to herbicides that normally inhibit a plant's acetohydroxyacid synthase (AHAS) enzyme. Besides controlling red rice, many AHAS-inhibiting herbicides also effectively control other weeds that are common in rice fields. Several of these herbicides have residual activity, so that one treatment can control both existing weeds and weeds that sprout later. With effective residual activity against red rice and other weeds, rice producers now have a weed control system superior to those that are currently available commercially.

2009002, Jan 22, 2009

Jul 2, 2008

12/166517

Timothy P. Croughan - Crowley LA, US

A01H 5/00

8003202

Nucleotide sequences are disclosed that may be used to impart herbicide resistance to green plants. The sources of novel herbicide resistance were originally isolated in mutant rice plants. The sequences impart pre-emergence resistance, post-emergence resistance, or both pre-emergence resistance and post-emergence resistance to multiple herbicides. To date, resistance has been demonstrated against at least the following herbicides: imazethapyr, imazapic, imazapyr, imazamox, sulfometuron methyl, imazaquin, chlorimuron ethyl, metsulfuron methyl, rimsulfuron, thifensulfuron methyl, pyrithiobac sodium, tribenuron methyl, and nicosulfuron. Green plants transformed with these sequences are resistant to these herbicides and to derivatives of these herbicides, and to at least some of the other herbicides that normally inhibit acetohydroxyacid synthase (AHAS), particularly imidazolinone and sulfonylurea herbicides.

2010025, Oct 7, 2010

Jun 21, 2010

12/819360

Timothy P. Croughan - Crowley LA, US

A01H 5/00
A01H 1/02
C12N 5/04
A01N 43/50
A01N 47/28

800260, 8003202, 435418, 5041161, 504253, 504247, 504243, 504230, 504231

Rice plants are disclosed with multiple sources of resistance to herbicides that normally inhibit a plant's acetohydroxyacid synthase (AHAS) enzyme. Besides controlling red rice, many AHAS-inhibiting herbicides also effectively control other weeds that are common in rice fields. Several of these herbicides have residual activity, so that one treatment can control both existing weeds and weeds that sprout later. With effective residual activity against red rice and other weeds, rice producers now have a weed control system superior to those that are currently available commercially.