Petra J Wolters

US Patent:

20080016595, Jan 17, 2008

Filed:

Jul 20, 2007

Appl. No.:

11/780499

Inventors:

Karen Broglie - Landenberg PA, US
Karlene Butler - Newark DE, US
Alexandre da Silva Conceicao - Wilmington DE, US
Travis Frey - Huxley IA, US
James Hawk - Newark DE, US
Dilbag Multani - Urbandale IA, US
Petra Cecilia Wolters - Wilmington DE, US

International Classification:

A01H 1/00
A01H 5/00
C07H 21/04
C12N 15/00
C12N 15/05
C12N 15/82
G01N 33/00

US Classification:

800279000, 435320100, 435412000, 435468000, 435007920, 536023600, 800278000, 800320100

Abstract:

This invention relates to polynucleotide sequences encoding a gene that can confer resistance to the plant pathogen which causes anthracnose stalk rot, leaf blight and top dieback in corn and other cereals. It further relates to plants and seeds of plants carrying chimeric genes comprising said polynucleotide sequences, which enhance or confer resistance to the plant pathogen and processes of making said plants and seeds. The invention further presents sequences that can be used as molecular markers that in turn can be used to identify the region of interest in corn lines resulting from new crosses and to quickly and efficiently introgress the gene from corn lines carrying said gene into other corn lines that do not carry said gene, in order to make them resistant to and resistant to stalk rot.

US Patent:

20080022426, Jan 24, 2008

Filed:

Jul 6, 2007

Appl. No.:

11/774121

Inventors:

Karen Broglie - Landenberg PA, US
Karlene Butler - Newark DE, US
Marymar Butruille - Urbandale IA, US
Alexandre da Silva Conceicao - Wilmington DE, US
Travis Frey - Huxley IA, US
James Hawk - Newark DE, US
Jennifer Jaqueth - Des Moines IA, US
Elizabeth Jones - Prole IA, US
Dilbag Multani - Urbandale IA, US
Petra Johanna Wolters - Wilmington DE, US

International Classification:

A01H 5/10
A01H 5/00
C12N 5/04

US Classification:

800298000, 435412000

Abstract:

This invention relates to polynucleotide sequences encoding a gene that can confer resistance to the plant pathogen , which causes anthracnose stalk rot, leaf blight and top dieback in corn and other cereals. It further relates to plants and seeds of plants carrying chimeric genes comprising said polynucleotide sequences, which enhance or confer resistance to the plant pathogen , and processes of making said plants and seeds. The invention further presents sequences that can be used as molecular markers that in turn can be used to identify the region of interest in corn lines resulting from new crosses and to quickly and efficiently introgress the gene from corn lines carrying said gene into other corn lines that do not carry said gene, in order to make them resistant to and resistant to stalk rot.

US Patent:

20140020128, Jan 16, 2014

Filed:

Jul 12, 2013

Appl. No.:

13/940326

Inventors:

Ajay Sandhu - Wilmington DE, US
Petra Wolters - Kennett Square PA, US

International Classification:

C12Q 1/68

US Classification:

800260, 435 611

Abstract:

This disclosure relates to methods of identifying and/or selecting wheat plants or germplasm by detecting markers associated with flowering date, anther-extrusion, heading date and/or head blight resistance.

US Patent:

20060225152, Oct 5, 2006

Filed:

Apr 4, 2006

Appl. No.:

11/397247

Inventors:

Karen Broglie - Landenberg PA, US
Karlene Butler - Newark DE, US
Marymar Butruille - Urbandale IA, US
Alexandre da Silva Conceicao - Wilmington DE, US
Travis Frey - Huxley IA, US
James Hawk - Newark DE, US
Jennifer Jaqueth - Des Moines IA, US
Elizabeth Jones - Prole IA, US
Dilbag Multani - Urbandale IA, US
Petra Johanna Wolters - Wilmington DE, US

International Classification:

C12N 15/82
A01H 5/00
C12N 5/04
A01H 1/00

US Classification:

800279000, 800320100, 435412000

Abstract:

This invention relates to polynucleotide sequences encoding a gene that can confer resistance to the plant pathogen , which causes anthracnose stalk rot, leaf blight and top dieback in corn and other cereals. It further relates to plants and seeds of plants carrying chimeric genes comprising said polynucleotide sequences, which enhance or confer resistance to the plant pathogen , and processes of making said plants and seeds. The invention further presents sequences that can be used as molecular markers that in turn can be used to identify the region of interest in corn lines resulting from new crosses and to quickly and efficiently introgress the gene from corn lines carrying said gene into other corn lines that do not carry said gene, in order to make them resistant to and resistant to stalk rot.

US Patent:

20060225151, Oct 5, 2006

Filed:

Apr 4, 2006

Appl. No.:

11/397153

Inventors:

Karen Broglie - Landenberg PA, US
Karlene Butler - Newark DE, US
Alexandre de Silva Conceicao - Wilmington DE, US
Travis Frey - Huxley IA, US
James Hawk - Newark DE, US
Dilbag Multani - Urbandale IA, US
Petra Cecilia Wolters - Wilmington DE, US

International Classification:

A01H 1/00
C07H 21/04
C12N 15/82
A01H 5/00
C12N 5/04

US Classification:

800279000, 800320100, 536023600, 435412000, 435468000

Abstract:

This invention relates to polynucleotide sequences encoding a gene that can confer resistance to the plant pathogen which causes anthracnose stalk rot, leaf blight and top dieback in corn and other cereals. It further relates to plants and seeds of plants carrying chimeric genes comprising said polynucleotide sequences, which enhance or confer resistance to the plant pathogen and processes of making said plants and seeds. The invention further presents sequences that can be used as molecular markers that in turn can be used to identify the region of interest in corn lines resulting from new crosses and to quickly and efficiently introgress the gene from corn lines carrying said gene into other corn lines that do not carry said gene, in order to make them resistant to and resistant to stalk rot.

US Patent:

20220282338, Sep 8, 2022

Filed:

Aug 17, 2020

Appl. No.:

17/636060

Inventors:

- JOHNSTON IA, US
KEVIN A FENGLER - CLIVE IA, US
SHAWN THATCHER - URBANDALE IA, US
PETRA J WOLTERS - KENNETT SQUARE PA, US

Assignee:

PIONEER HI-BRED INTERNATIONAL, INC. - JOHNSTON IA

International Classification:

C12Q 1/6895
C12N 15/82

Abstract:

The field is related to plant breeding and methods of identifying and selecting plants with resistance to anthracnose stalk rot. Provided are methods to identify novel genes that encode proteins providing plant resistance to anthracnose stalk rot and uses thereof. These disease resistant genes are useful in the production of resistant plants through breeding, transgenic modification, or genome editing.

US Patent:

20190300969, Oct 3, 2019

Filed:

Jun 26, 2017

Appl. No.:

16/315727

Inventors:

- JOHNSTON IA, US
LEANDRO DANIEL PERUGINI - URBANDALE IA, US
PETRA J. WOLTERS - KENNETT SQUARE PA, US

Assignee:

PIONEER HI-BRED INTERNATIONAL, INC. - JOHNSTON IA

International Classification:

C12Q 1/6895
A01H 1/04

Abstract:

Compositions and methods useful in identifying and selecting maize plants with increased resistance to gray leaf spot are provided herein. The methods use molecular genetic markers within a QTL region located on chromosome 4 to identify and select plants with increased resistance to gray leaf spot, and plants comprising the QTL allele associated with increased resistance to gray leaf spot can be crossed to other maize plants to incorporate the increased resistance into other maize lines or varieties.

US Patent:

20180148798, May 31, 2018

Filed:

May 27, 2016

Appl. No.:

15/577475

Inventors:

- JOHNSTON IA, US
- WILMINGTON DE, US
MARK TIMOTHY JUNG - WEST CHESTER PA, US
ANA BEATRIZ LOCATELLI - CARAZINHO, BR
PETRA J. WOLTERS - KENNETT SQUARE PA, US

Assignee:

PIONEER HI-BRED INTERNATIONAL, INC. - JOHNSTON IA
E. I. DU PONT DE NEMOURS AND COMPANY - WILMINGTON DE

International Classification:

C12Q 1/6895
A01H 1/02
A01H 5/10
A01H 1/04

Abstract:

Compositions and methods useful in identifying and/or selecting maize plants that have anthracnose stalk rot resistance are provided herein. The resistance may be newly conferred or enhanced relative to a control plant. The methods use maize markers on chromosome 10 to identify, select and/or construct resistant plants. Maize plants generated by the methods also provided.