Patent RU2016111674A3

ZEA MAYS REGULATORY ELEMENTS AND USES THEREOF

ZEA MAYS REGULATORY ELEMENTS AND USES THEREOF

ZEA MAYS METALLOTHIONEIN-LIKE REGULATORY ELEMENTS AND USES THEREOF

CONSTRUCTS FOR EXPRESSING TRANSGENES USING REGULATORY ELEMENTS FROM SETARIA UBIQUITIN GENES

CONSTRUCTS FOR EXPRESSING TRANSGENES USING REGULATORY ELEMENTS FROM PANICUM UBIQUITIN GENES

CONSTRUCTS FOR EXPRESSING TRANSGENES USING REGULATORY ELEMENTS FROM BRACHYPODIUM UBIQUITIN GENES

CONSTRUCTS FOR EXPRESSING TRANSGENES USING REGULATORY ELEMENTS FROM BRACHYPODIUM UBIQUITIN 1C GENES

Sorghum plants having a mutant polynucleotide encoding the large subunit of mutated acetohydroxyacidsynthase protein and increased resistance of herb icides

Zea mays metallothionein-like regulatory elements and uses thereof

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using ...

ZEA MAYS METALLOTHIONEIN-LIKE REGULATORY ELEMENTS AND USES THEREOF

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using Zea mays metallothionein-like gene regulatory elements.

CONSTRUCTS FOR EXPRESSING TRANSGENES USING REGULATORY ELEMENTS FROM BRACHYPODIUM UBIQUITIN 1C GENES

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one embodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

CONSTRUCTS FOR EXPRESSING TRANSGENES USING REGULATORY ELEMENTS FROM PANICUM UBIQUITIN GENES

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3' -UTRs, isolated from Panicum virgatum ubiquitin genes.

ACETOLACTATE SYNTHASE HERBICIDE RESISTANT SORGHUM

Sorghum inbred PHW4OLXKE

A novel sorghum variety designated PHW4OLXKE and seed, plants and plant parts thereof. Methods for producing a plant that comprise crossing sorghum variety PHW4OLXKE with another plant. Methods for producing a plant containing in its genetic material one or more traits introgressed into PHW4OLXKE through backcross conversion and/or transformation, and to the sorghum seed, plant and plant part produced thereby. Hybrid sorghum seed, plant or plant part produced by crossing the sorghum variety PHW4OLXKE or a locus conversion of PHW4OLXKE with another sorghum variety.

Sorghum inbred PH2307GR

A novel sorghum variety designated PH2307GR and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety PH2307GR with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety PH2307GR with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into PH2307GR include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety PH2307GR or a locus conversion of PH2307GR with another sorghum variety are disclosed.

Sorghum inbred PH2545MW

A novel sorghum variety designated PH2545MW and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety PH2545MW with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety PH2545MW with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into PH2545MW include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety PH2545MW or a locus conversion of PH2545MW with another sorghum variety are disclosed.

РЕГУЛЯТОРНЫЕ ЭЛЕМЕНТЫ ZEA MAYS И ИХ ПРИМЕНЕНИЯ

А 2016118631 ко РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) р. (11) хх <“ х 39 < хх 35 3. х < (13) т ааа КО БОВ 76 6" Зе“ (50) МПК С12М 15/82 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2016118631, 15.10.2014 (71) Заявитель(и): ДАУ АГРОСАЙЕНСИЗ ЭлЭлСи (0$) Приоритет(ы): (30) Конвенционный приоритет: (72) Автор(ы): 15.10.2013 05 61/890,901 ГУПТА Манджу (05), ЭЛАНГО Навин (05), (43) Дата публикации заявки: 20.11.2017 Бюл. № 32 МУТХУРАМАН Картхик Нарайна (05), (85) Дата начала рассмотрения заявки РСТ на БЕРИНГЕР Джеффри (05), национальной фазе: 16.05.2016 БЕННЕТТ Сара (05), У Хуэйся (05), (86) Заявка РСТ: ГОРМАН Шэвелл (05), 05 2014/060618 (15.10.2014) УОРДЕН Эндрю (05) (87) Публикация заявки РСТ: УГО 2015/057788 (23.04.2015) Адрес для переписки: 129090, Москва, ул. Б.Спасская, 25, строение 3, ООО "Юридическая фирма Городисский и Партнеры" (54) РЕГУЛЯТОРНЫЕ ЭЛЕМЕНТЫ 7ЕА МАУЗ И ИХ ПРИМЕНЕНИЯ (57) Формула изобретения 1. Вектор нуклеиновой кислоты, содержащий промотор, функционально связанный 1) последовательностью полилинкера;: 1) трансгеном не-хлорофилла а/Ъ или 11) комбинацией 1) и п), в котором указанный промотор содержит ЗЕО Ш МО:1 или последовательность, которая имеет 90% идентичности последовательности с эЕО Ш МО:1. 2. Вектор нуклеиновой кислоты по п. 1, в котором указанный промотор имеет длину меньшую, чем 700 п.н. 3. Вектор нуклеиновой кислоты по п. 1, в котором указанный промотор состоит из ЭЕО Ш М:1 или последовательности, которая имеет 90% идентичности последовательности с ЕО Ш МО:1. 4. Вектор нуклеиновой кислоты по любому из пи. 1-3, дополнительно содержащий последовательность, кодирующую селектируемый маркер. 5. Вектор нуклеиновой кислоты по п. 4, в котором указанный промотор является функционально связанным с трансгеном или малой РНК. 6. Вектор нуклеиновой кислоты по п. 5, в котором трансген кодирует селектируемый маркер или генный продукт, придавая резистентность к действию инсектицидов, толерантность к ...

Plants

Constructs for expressing transgenes using regulatory elements from Setaria ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Setaria italica ubiquitin genes.

Constructs for expressing transgenes using regulatory elements from Setaria ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Setaria italica ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one mbodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

Inbred sorghum line PHAO8ZVKT

A novel sorghum variety designated PHAO8ZVKT and seed, plants and plant parts thereof. Methods for producing a plant that comprise crossing sorghum variety PHAO8ZVKT with another plant. Methods for producing a plant containing in its genetic material one or more traits introgressed into PHAO8ZVKT through backcross conversion and/or transformation, and to the sorghum seed, plant and plant part produced thereby. Hybrid sorghum seed, plant or plant part produced by crossing the sorghum variety PHAO8ZVKT or a locus conversion of PHAO8ZVKT with another sorghum variety.

Plants and seeds of sorghum variety GSV548207

The invention relates to the sorghum variety designated GSV548207. Provided by the invention are the seeds, plants and derivatives of the sorghum variety GSV548207. Also provided by the invention are tissue cultures of the sorghum variety GSV548207 and the plants regenerated therefrom. Still further provided by the invention are methods for producing sorghum plants by crossing the sorghum variety GSV548207 with itself or another sorghum variety and plants produced by such methods.

СОРГО, УСТОЙЧИВОЕ К АЦЕТОЛАКТАТСИНТАЗНОМУ ГЕРБИЦИДУ

FIELD: medicine. SUBSTANCE: what is described is a sorghum hybrid wherein a germ plasma of the sorghum hybrid gives a resistance to inhibition by one or more acetolactate synthase herbicides wherein said germ plasma of the sorghum hybrid contains a sequence presented in the description which additionally contains one or more nucleotide substitutions specified in a group consisting of guanine substitution for adenine in positions 1641, and guanine substitution for thymidine in position 1641. What is disclosed is a method for growing said sorghum hybrid in the presence of weed plants. What is described is a method for producing the hybrid sorghum line resistant to one or more acetolactate synthase herbicides involving introducing the germ plasma in the elite sorghum line by introducing a heterogenous gene. What is disclosed is a method for detecting the sorghum line plants resistant to acetolactate synthase herbicides. What is presented is a seed used for growing the plant resistant to acetolactate synthase herbicides. EFFECT: invention provides producing the sorghum hybrid resistant to inhibition by one or more acetolactate synthase herbicides taken in the concentrations normally inhibiting the sorghum hybrid growth. 16 cl, 1 dwg, 1 tbl, 3 ex РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 451 079 (13) C2 (51) МПК C12N 15/82 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21)(22) Заявка: 2009125927/10, 06.12.2007 (24) Дата начала отсчета срока действия патента: 06.12.2007 (72) Автор(ы): ТЬЮНСТРА Митчелл Р. (US), АЛЬ-ХАТИБ Кассим (US) (43) Дата публикации заявки: 20.01.2011 Бюл. № 2 2 4 5 1 0 7 9 (45) Опубликовано: 20.05.2012 Бюл. № 14 (56) Список документов, цитированных в отчете о поиске: WO 2006/007373 А, 19.01.2006. RU 2128426 С1, 10.04.1999. (85) Дата начала рассмотрения заявки PCT на национальной фазе: 07.07.2009 2 4 5 1 0 7 9 R U (87) Публикация заявки РСТ: WO 2008/073800 (19.06.2008) C 2 C 2 (86) Заявка PCT: US 2007/ ...

РАСТЕНИЯ СОРГО, ИМЕЮЩИЕ МУТАНТНЫЙ ПОЛИНУКЛЕОТИД, КОДИРУЮЩИЙ БОЛЬШУЮ СУБЪЕДИНИЦУ МУТИРОВАННОЙ СИНТАЗЫ АЦЕТОГИДРОКСИКИСЛОТ, И ПОВЫШЕННУЮ УСТОЙЧИВОСТЬ К ГЕРБИЦИДАМ

1. Растение сорго, содержащее в своем геноме по меньшей мере один полинуклеотид, где названный полинуклеотид кодирует полипептид, имеющий замену аланина на треонин в 93 положении большой субъединицы белка AHAS сорго, названное растение имеет повышенную устойчивость к одному или более гербицидам, по сравнению с растением сорго дикого типа, в частности к гербициду, выбранному из группы, включающей в себя имидазолиноны и сульфонилмочевины, где имидазолиноновый гербицид в частности отбирают из группы, включающей в себя имазетапир, имазапир и имазапик, и где по меньшей мере один полинуклеотид содержит в частности SEQ ID No. 1, кодирующий полипептид, содержащий SEQ ID No. 2.2. Растение сорго по п. 1, содержащее мутацию в гене AHAS, как показано в NCIMB 41870.3. Растение сорго по п. 1, где названное растение сорго имеет признаки повышенной устойчивости к одному или более гербицидам группы имидазолинонов как устойчивость представленная у NCIMB 41870.4. Растение сорго по п. 2 или 3, где названное растение сорго с повышенной устойчивостью к одному или более гербицидам может быть использовано для внедрения черты устойчивости в другое растение сорго путем интрогрессии.5. Растение сорго по п. 1, где названное растение является трансгенным.6. Растение сорго по п. 1, где названное растение не является трансгенным.7. Гербицид-устойчивое растение сорго, имеющее признаки устойчивости как у NCIMB 41870, где растение сорго отбирают из группы, включающей в себя растение, такое как NCIMB 41870, потомство растения NCIMB 41870, мутант растения NCIMB 41870 и потомство мутанта NCIMB 41870, где гербицид принадлежит в частности к группе имидазолинонов.8. Растение сорго по п. 7, где названное растение является трансгенным.9. Растение сорго по п. 7, где названное растение является не трансге РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (51) МПК C12N 15/82 (13) 2014 144 411 A (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2014144411, 05.04.2012 (71 ...

Zea mays regulatory elements and uses thereof

Provided are vector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promoters, 5'-UTRs, and/or 3'-UTRs, isolated from ...

Constructs for expressing transgenes using regulatory elements from Brachypodium ubiquitin 1C genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one embodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

Constructs for expressing transgenes using regulatory elements from panicum ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Panicum virgatum ubiquitin genes.

Zea mays regulatory elements and uses thereof

Provided are vector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promotors, 5'-UTRs, and/or 3' UTRs, isolated from Zea mays.

Patent RU2016111608A3

`”ВУ“” 2016111608” АЗ Дата публикации: 25.04.2018 Форма № 18 ИЗИМ-2011 Федеральная служба по интеллектуальной собственности Федеральное государственное бюджетное учреждение 5 «Федеральный институт промышленной собственности» (ФИПС) ОТЧЕТ О ПОИСКЕ 1. . ИДЕНТИФИКАЦИЯ ЗАЯВКИ Регистрационный номер Дата подачи 2016111608/10(018295) 29.08.2014 РСТД52014/053364 29.08.2014 Приоритет установлен по дате: [ ] подачи заявки [ ] поступления дополнительных материалов от к ранее поданной заявке № [ ] приоритета по первоначальной заявке № из которой данная заявка выделена [ ] подачи первоначальной заявки № из которой данная заявка выделена [ ] подачи ранее поданной заявки № [Х] подачи первой(ых) заявки(ок) в государстве-участнике Парижской конвенции (31) Номер первой(ых) заявки(ок) (32) Дата подачи первой(ых) заявки(ок) (33) Код страны 1. 61/872,134 30.08.2013 05 Название изобретения (полезной модели): [Х] - как заявлено; [ ] - уточненное (см. Примечания) КОНСТРУКЦИИ ДЛЯ ЭКСПРЕССИИ ТРАНСГЕНОВ С ИСПОЛЬЗОВАНИЕМ РЕГУЛЯТОРНЫХ ЭЛЕМЕНТОВ ИЗ ГЕНОВ УБИКТИВИНА ЗЕТАКГА Заявитель: ДАУ АГРОСАЙЕНСИЗ ЭлЭлСи, 0$ 2. ЕДИНСТВО ИЗОБРЕТЕНИЯ [Х] соблюдено [ ] не соблюдено. Пояснения: см. Примечания 3. ФОРМУЛА ИЗОБРЕТЕНИЯ: [ ] приняты во внимание все пункты п см. Примечания [Х] приняты во внимание следующие пункты: 1-30 р [ ] принята во внимание измененная формула изобретения (см. Примечания) 4. КЛАССИФИКАЦИЯ ОБЪЕКТА ИЗОБРЕТЕНИЯ (ПОЛЕЗНОЙ МОДЕЛИ) (Указываются индексы МПК и индикатор текущей версии) С]12М 15/82 (2006.01) 5. ОБЛАСТЬ ПОИСКА 5.1 Проверенный минимум документации РСТ (указывается индексами МПК) С12М 15/82 5.2 Другая проверенная документация в той мере, в какой она включена в поисковые подборки: 5.3 Электронные базы данных, использованные при поиске (название базы, и если, возможно, поисковые термины): Е-Габгагу, Езрасепе, РаЗеагсв, РАТЕМТЗСОРЕ, КУРТО, Соозе, боозе Эсво]аг, РиБМеа, О$РТО, 5слепсе)иесе 6. ДОКУМЕНТЫ, ОТНОСЯЩИЕСЯ К ПРЕДМЕТУ ПОИСКА Кате- Наименование документа с указанием (где ...

Patent RU2016111662A3

КОНСТРУКЦИИ ДЛЯ ЭКСПРЕССИИ ТРАНСГЕНОВ С ИСПОЛЬЗОВАНИЕМ РЕГУЛЯТОРНЫХ ЭЛЕМЕНТОВ ИЗ ГЕНОВ УБИКТИВИНА SETARIA

КОНСТРУКТЫ ДЛЯ ЭКСПРЕССИИ ТРАНСГЕНОВ С ИСПОЛЬЗОВАНИЕМ РЕГУЛЯТОРНЫХ ЭЛЕМЕНТОВ ИЗ ГЕНОВ УБИКВИТИНА ПРОСА

РЕГУЛЯТОРНЫЕ ЭЛЕМЕНТЫ ГЕНА МЕТАЛЛОТИОНЕИН-ПОДОБНОГО БЕЛКА ИЗ ZEA MAYS И ИХ ПРИМЕНЕНИЕ

Acetolactate synthase herbicide resistant sorghum

Sorghum hybrid XSW4801

A novel sorghum variety designated XSW4801 and seed, plants, plant parts and plant cells thereof are produced from a cross of inbred sorghum varieties. Methods for producing a sorghum plant comprise crossing hybrid sorghum variety XSW4801 with another sorghum plant. Sorghum variety XSW4801, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of sorghum variety XSW4801 are provided. Methods for producing a sorghum plant containing in its genetic material one or more traits introgressed into sorghum variety XSW4801 include one or both of backcross conversion and transformation of one or both inbred parents. The sorghum seed, plants and plant parts produced thereby are described.

SORGHUM YIELD ENHANCEMENT GENE MULTI-SEEDED 3 (MSD3)

This invention relates to novel mutations in a sorghum gene, Msd3, which increase the seed yield in sorghum. The nucleic acid sequences of this mutated gene and its encoded protein(s) are included. This invention also relates to genetically altered plants having this mutated gene and/or containing the mutated protein and which have increased flower production and seed yield and lower jasmonic acid production.

РАСТЕНИЯ СОРГО, ИМЕЮЩИЕ МУТАНТНЫЙ ПОЛИНУКЛЕОТИД, КОДИРУЮЩИЙ БОЛЬШУЮ СУБЪЕДИНИЦУ МУТИРОВАННОЙ СИНТАЗЫ АЦЕТОГИДРОКСИКИСЛОТ, И ПОВЫШЕННУЮ УСТОЙЧИВОСТЬ К ГЕРБИЦИДАМ

FIELD: chemistry. SUBSTANCE: invention relates to biochemistry, in particular to a mutant sorghum plant containing in its genome at least one polynucleotide, wherein said polynucleotide encodes a polypeptide having an alanine to threonine substitution at position 93 of the sorghum AHAS protein large subunit, said plant having increased resistance to one or more imidazolinone herbicides, to its seed, as well as to a method for its preparation and a method for its identification. Also disclosed is a polynucleotide having AHAS herbicide resistance activity and an expression cassette, a cell, an expression vector containing same. Invention also relates to a method for controlling weeds in the immediate vicinity of said sorghum plant. EFFECT: invention makes it possible to efficiently obtain a sorghum plant with increased resistance to one or more imidazolinone herbicides. 20 cl, 5 dwg, 5 tbl, 6 ex РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 658 604 C2 (51) МПК C12N 15/82 (2006.01) A01H 5/00 (2006.01) A01H 5/10 (2006.01) C12N 15/52 (2006.01) C12Q 1/68 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК A01H 5/00 (2006.01); A01H 5/10 (2006.01); C12N 15/8274 (2006.01); C12N 15/8278 (2006.01); C12Q 1/6895 (2006.01) (21)(22) Заявка: 2014144411, 05.04.2012 05.04.2012 Дата регистрации: 21.06.2018 (43) Дата публикации заявки: 27.05.2016 Бюл. № 15 (56) Список документов, цитированных в отчете о поиске: WO 2010037061 A1, 01.04.2010. WO 2008124431 A1, 16.10.2008. WO 2008124495 A2, 16.10.2008. RU 2337532 C2, 10.11.2008. (45) Опубликовано: 21.06.2018 Бюл. № 18 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 05.11.2014 2 6 5 8 6 0 4 (73) Патентообладатель(и): АДВАНТА ИНТЕРНЭШНЛ БВ (NL) Приоритет(ы): (22) Дата подачи заявки: 05.04.2012 R U (24) Дата начала отсчета срока действия патента: (72) Автор(ы): ТРУСИЛЬО УРИАРТЕ Висенте (AR), САМБЕЛЬИ Андрес Даниэль (AR), КАСПАР Маркос (AR), ПАРДО Алехандро Педро (AR) EP 2012/ ...

Patent RU2016118440A3

ВУ’? 2016118440`” АЗ Дата публикации: 22.05.2018 Форма № 18 ИЗ,ПМ-2011 Федеральная служба по интеллектуальной собственности Федеральное государственное бюджетное учреждение ж 5 «Федеральный институт промышленной собственности» (ФИПС) ОТЧЕТ О ПОИСКЕ 1. . ИДЕНТИФИКАЦИЯ ЗАЯВКИ Регистрационный номер Дата подачи 2016118440/10(028925) 15.10.2014 РСТД52014/060620 15.10.2014 Приоритет установлен по дате: [ ] подачи заявки [ ] поступления дополнительных материалов от к ранее поданной заявке № [ ] приоритета по первоначальной заявке № из которой данная заявка выделена [ ] подачи первоначальной заявки № из которой данная заявка выделена [ ] подачи ранее поданной заявки № [Х] подачи первой(ых) заявки(ок) в государстве-участнике Парижской конвенции (31) Номер первой(ых) заявки(ок) (32) Дата подачи первой(ых) заявки(ок) (33) Код страны 1. 61/890,904 15.10.2013 05 Название изобретения (полезной модели): [Х] - как заявлено; [ ] - уточненное (см. Примечания) РЕГУЛЯТОРНЫЕ ЭЛЕМЕНТЫ /ЕА МАУБЗ И ИХ ПРИМЕНЕНИЯ Заявитель: ДАУ АГРОСАЙЕНСИЗ ЭлЭлСи, 0$ 2. ЕДИНСТВО ИЗОБРЕТЕНИЯ [Х] соблюдено [ ] не соблюдено. Пояснения: см. Примечания 3. ФОРМУЛА ИЗОБРЕТЕНИЯ: [ ] приняты во внимание все пункты см. Примечания [Х] приняты во внимание следующие пункты: 1-27 ( р ) [ ] принята во внимание измененная формула изобретения (см. Примечания) 4. КЛАССИФИКАЦИЯ ОБЪЕКТА ИЗОБРЕТЕНИЯ (ПОЛЕЗНОЙ МОДЕЛИ) (Указываются индексы МПК и индикатор текущей версии) С]2М 15/82 (2006.01) 5. ОБЛАСТЬ ПОИСКА 5.1 Проверенный минимум документации РСТ (указывается индексами МПК) С12М 15/82 5.2 Другая проверенная документация в той мере, в какой она включена в поисковые подборки: 5.3 Электронные базы данных, использованные при поиске (название базы, и если, возможно, поисковые термины): Е-Габгагу, Езрасепе, РазЗеагсв, РАТЕМТСОРЕ, КОРТО, МСВТ, ЕМВГ-ЕВ1, Соозе, Соозе эсвБо][аг, РиИБМеа, ОЗРТО, Заепсе ес 6. ДОКУМЕНТЫ, ОТНОСЯЩИЕСЯ К ПРЕДМЕТУ ПОИСКА Кате- Наименование документа с указанием (где необходимо) частей, Относится к гория* ...

КОНСТРУКЦИИ ДЛЯ ЭКСПРЕССИИ ТРАНСГЕНОВ С ИСПОЛЬЗОВАНИЕМ РЕГУЛЯТОРНЫХ ЭЛЕМЕНТОВ, ПРОИСХОДЯЩИХ ОТ ГЕНОВ УБИХИТИНА 1C BRACHYPODIUM

Drought tolerant plants

H:\nmAlntcnvoventNRPortblDCCAAR4628_- do-260/12013 The present disclosure teaches the generation of drought tolerant plants. The present disclosure enables manipulation of a phenotypic characteristic referred to as "stay-green" to facilitate drought adaptation in plants by recombinant, mutagenic and/or breeding and selection methods. Plant management practice systems to increase crop yield and harvest efficiency in water-limited environments are also taught herein.

Constructs for expressing transgenes using regulatory elements from Brachypodium ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes.

Constructs for expressing transgenes using regulatory elements from Brachypodium ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one embodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

Constructs for expressing transgenes using regulatory elements from brachypodium ubiquitin 1C genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3′-UTRs, isolated from Brachypodium distachyon ubiquitin genes.

PLANTS AND SEEDS OF SORGHUM VARIETY GSV469392

The invention relates to the sorghum variety designated GSV469392. Provided by the invention are the seeds, plants and derivatives of the sorghum variety GSV469392. Also provided by the invention are tissue cultures of the sorghum variety GSV469392 and the plants regenerated therefrom. Still further provided by the invention are methods for producing sorghum plants by crossing the sorghum variety GSV469392 with itself or another sorghum variety and plants produced by such methods.

Sorghum inbred PHAT3BVIT

A novel sorghum variety designated PHAT3BVIT and seed, plants and plant parts thereof. Methods for producing a plant that comprise crossing sorghum variety PHAT3BVIT with another plant. Methods for producing a plant containing in its genetic material one or more traits introgressed into PHAT3BVIT through backcross conversion and/or transformation, and to the sorghum seed, plant and plant part produced thereby. Hybrid sorghum seed, plant or plant part produced by crossing the sorghum variety PHAT3BVIT or a locus conversion of PHAT3BVIT with another sorghum variety.

IMMUNE RECEPTOR CONFERRING BROAD SPECTRUM FUNGAL RESISTANCE IN SORGHUM

Disclosed herein is a unique molecular marker in sorghum genome for conferring broad range fungal resistance trait, and the use of the molecular marker to manipulate resistance in sorghum. A disease resistance gene called ANTHRACNOSE RESISTANCE GENE 1 (ARG1) and a negative regulator, i.e. antisense transcripts of ARG1, called CARRIER OF ARG (CARG) for the fungi resistance gene are knocked out within a quantitative trait locus (QTL).

Sorghum inbred PHWC4QMIT

A novel sorghum variety designated PHWC4QMIT and seed, plants and plant parts thereof. Methods for producing a plant that comprise crossing sorghum variety PHWC4QMIT with another plant. Methods for producing a plant containing in its genetic material one or more traits introgressed into PHWC4QMIT through backcross conversion and/or transformation, and to the sorghum seed, plant and plant part produced thereby. Hybrid sorghum seed, plant or plant part produced by crossing the sorghum variety PHWC4QMIT or a locus conversion of PHWC4QMIT with another sorghum variety.

СОРГО, УСТОЙЧИВОЕ К АЦЕТОЛАКТАТСИНТАЗНОМУ ГЕРБИЦИДУ

1. Гибрид сорго, при котором зародышевая плазма вышеупомянутого гибрида сорго придает устойчивость к ингибированию одним или более ацетолактатсинтазными гербицидами при уровнях одного или более вышеупомянутых гербицидов, которые в норме ингибировали бы рост гибрида сорго. ! 2. Гибрид сорго по п.1, при котором вышеупомянутые один или более ацетолактатсинтазные гербициды относятся к группе, состоящей из сульфонилмочевин, имидазолинонов, тразолопиримидинов и пиримидилтиобензоатов. ! 3. Гибрид сорго по п.1, при котором вышеупомянутая устойчивость к ингибированию одним или более ацетолактатсинтазными гербицидами вводится в зародышевую плазму вышеупомянутого гибрида сорго при помощи интрогрессии. ! 4. Гибрид сорго по п.1, при котором зародышевая плазма вышеупомянутого гибрида сорго, которая придает устойчивость к ингибированию одним или более ацетолактатсинтазными гербицидами содержит ген ацетолактатсинтазы, при котором вышеупомянутый ген содержит одно или более аминокислотных замещений в группе, состоящей из Val531Ile и Trp545Leu. ! 5. Гибрид сорго по п.4, при котором вышеупомянутый ген, содержащий одно или более аминокислотных замещений в группе, состоящей из Val531Ile и Trp545Leu, вводится в зародышевую плазму гибрида сорго при помощи интрогрессии. ! 6. Гибрид сорго по п.1, при котором зародышевая плазма вышеупомянутого гибрида сорго содержит SEQ ID NO: 1. ! 7. Гибрид сорго по п.6, при котором вышеупомянутая SEQ ID NO: 1 вводится в зародышевую плазму гибрида сорго при помощи интрогрессии. ! 8. Гибрид сорго по п.1, при котором зародышевая плазма вышеупомянутого гибрида сорго, которая придает устойчивость к ингибированию одним или более ацето

КОНСТРУКЦИИ ДЛЯ ЭКСПРЕССИИ ТРАНСГЕНОВ С ИСПОЛЬЗОВАНИЕМ РЕГУЛЯТОРНЫХ ЭЛЕМЕНТОВ ИЗ ГЕНОВ УБИКВИТИНА BRACHYPODIUM

А 2016111674 ко РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) (11) = КО © (51) МПК С12М 15/82 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2016111674, 29.08.2014 (71) Заявитель(и): ДАУ АГРОСАЙЕНСИЗ ЭлЭлСи (0$) Приоритет(ы): (30) Конвенционный приоритет: (72) Автор(ы): 30.08.2013 9$ 61/872,134 КУМАР Сандип (0$), (43) Дата публикации заявки: 05.10.2017 Бюл. № 28 БЕРИНГЕР Джеффри (05) (85) Дата начала рассмотрения заявки РСТ на национальной фазе: 30.03.2016 (86) Заявка РСТ: 0$ 2014/053328 (29.08.2014) (87) Публикация заявки РСТ: УГО 2015/031706 (05.03.2015) Адрес для переписки: 129090, Москва, ул. Б.Спасская, 25, строение 3, ООО "Юридическая фирма Городисский и Партнеры" (54) КОНСТРУКЦИИ ДЛЯ ЭКСПРЕССИИ ТРАНСГЕНОВС ИСПОЛЬЗОВАНИЕМ РЕГУЛЯТОРНЫХ ЭЛЕМЕНТОВ ИЗ ГЕНОВ УБИКВИТИНА ВКАСНУРОРГОМ (57) Формула изобретения 1. Вектор нуклеиновой кислоты, включающий промотор, функционально связанный 1) полилинкерной последовательностью; 1) отличным от убиквитина трансгеном или 11) комбинацией 1) и п), где указанный промотор включает ЗЕО Ш МО: 2 или последовательность, которая на 90% идентична ЗЕО Ш МО: 2. 2. Вектор нуклеиновой кислоты по п. 1, где указанный промотор имеет длину менее 3 тысяч п.о. 3. Вектор нуклеиновой кислоты по п. 1, где указанный промотор состоит из ЗЕО Ш МО: 2 или последовательности, которая на 90% идентична ЗЕО Ш МО: 2. 4. Вектор нуклеиновой кислоты по любому из пи. 1-3, дополнительно содержащий последовательность, кодирующую селектируемый маркер. 5. Вектор нуклеиновой кислоты по п. 4, где указанный промотор функционально связан с трансгеном. 6. Вектор нуклеиновой кислоты по п. 5, где трансген кодирует селектируемый маркер или продукт гена, придающий устойчивость к инсектицидам, толерантность к гербицидам, эффективное использование азота, эффективное использование воды или пищевую ценность. Стр.: 1 па УЭС У А 2016111674 ко 7. Вектор нуклеиновой кислоты по любому из пп. 1-3 или 5, дополнительно включающий 3’нетранслируемую ...

РЕГУЛЯТОРНЫЕ ЭЛЕМЕНТЫ ZEA MAYS И ИХ ПРИМЕНЕНИЯ

А 2016118440 ко РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) 11 3 3 < 35 х х 9х < х << 13 ВИ ‘2015 118 440 А (50) МПК С12М 15/82 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2016118440, 15.10.2014 (71) Заявитель(и): ДАУ АГРОСАЙЕНСИЗ ЭлЭлСи (0$) Приоритет(ы): (30) Конвенционный приоритет: (72) Автор(ы): 15.10.2013 95 61/890,904 ГУПТА Манджу (0$), ЭЛАНГО Навин (05), (43) Дата публикации заявки: 21.11.2017 Бюл. № 33 МУТХУРАМАН Картхик Нарайна (05), (85) Дата начала рассмотрения заявки РСТ на БЕРИНГЕР Джеффри (05), национальной фазе: 16.05.2016 БЕННЕТТ Сара (05), У Хойся (05) (86) Заявка РСТ: 0$ 2014/060620 (15.10.2014) (87) Публикация заявки РСТ: \О 2015/057790 (23.04.2015) Адрес для переписки: 129090, Москва, ул. Б.Спасская, 25, строение 3, ООО "Юридическая фирма Городисский и Партнеры" (54) РЕГУЛЯТОРНЫЕ ЭЛЕМЕНТЫ 7ЕА МАУЗ И ИХ ПРИМЕНЕНИЯ (57) Формула изобретения 1. Вектор нуклеиновой кислоты, содержащий промотор, функционально связанный 1) последовательностью полилинкера;: 1) трансгеном не-хлорофилла а/Ъ или 11) комбинацией из 1) и |), в котором указанный промотор содержит ЗЕО Ш МО:1 или последовательность, которая имеет 90% идентичности последовательности с ЕО Ш МО:1. 2. Вектор нуклеиновой кислоты по п. 1, в котором указанный промотор имеет длину меньшую, чем 3 т.п.н. 3. Вектор нуклеиновой кислоты по п. 1, в котором указанный промотор состоит из эЕО Ш МО:1 или последовательности, которая имеет 90% идентичности последовательности с ЕО Ш МО:1. 4. Вектор нуклеиновой кислоты по любому из пи. 1-3, дополнительно содержащий последовательность, кодирующую селектируемый маркер. 5. Вектор нуклеиновой кислоты по п. 4, в котором указанный промотор является функционально связанным с трансгеном или малой РНК. 6. Вектор нуклеиновой кислоты по п. 5, в котором трансген кодирует селектируемый маркер или генный продукт, придавая резистентность к действию инсектицидов, толерантность к гербицидам, эффективность использования азота, ...

Cultivated sorghum plant having a partially or fully multiplied genome and uses of same

A cultivated Sorghum plant having a partially or fully multiplied genome being at least as fertile as a diploid Sorghum plant isogenic to the genomically multiplied Sorghum plant when grown under the same conditions. Also provided are methods of generating and using same as well as products generated therefrom.

Zea mays regulatory elements and uses thereof

Provided are vector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promoters, 5'-UTRs, and/or 3'-UTRs, isolated from ...

Constructs for expressing transgenes using regulatory elements from panicum ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Panicum virgatum ubiquitin genes.

COMPOSITIONS AND METHODS FOR STATURE MODIFICATION IN PLANTS

Methods and compositions to modulate plant stature including plant height, ear height, planting density and other agronomic characteristics are disclosed. The disclosure further discloses compositions, polynucleotide constructs, transformed host cells, plants and seeds exhibiting altered stature characteristics or produce plants that exhibit altered stature parameters.

mutações que conferem tolerância a herbicida que inibe acetil-coa carboxilase (acc) em sorgo

A SORGHUM PLANT GROWN HAVING A GENOME PARTIALLY OR TOTALLY MULTIPLIED AND USES THEREOF

Una planta de Sorghum cultivada que tiene un genoma parcial o totalmente multiplicado, que es al menos tan fértil como una planta de Sorghum diploide isogénica a dicha planta de Sorghum genómicamente multiplicada al ser cultivada bajo las mismas condiciones. También se proporcionan métodos para generar y usar la misma como así también productos generados a partir de la misma. Tejido y célula vegetal. Semillas.

Drought tolerant plants

H:\nmAlntcnvoventNRPortblDCCAAR4628_- do-260/12013 The present disclosure teaches the generation of drought tolerant plants. The present disclosure enables manipulation of a phenotypic characteristic referred to as "stay-green" to facilitate drought adaptation in plants by recombinant, mutagenic and/or breeding and selection methods. Plant management practice systems to increase crop yield and harvest efficiency in water-limited environments are also taught herein.

Mutations conferring acetyl-CoA carboxylase (ACC) inhibiting herbicide tolerance in sorghum

The invention provides for sorghum plants and plant parts developed through tissue culture, gene editing or other methods of mutagenesis in which the plant or plant parts have increased tolerance to one or more acetyl-CoA carboxylase (ACC) herbicides at levels that would normally inhibit the growth of wild-type sorghum plants. In this context, the sorghum plant may be tolerant to any herbicide capable of inhibiting acetyl- CoA carboxylase enzyme activity. The present invention allows for the screening of ACC herbicide tolerant hybrids with markers or application of ACC inhibiting herbicides, and for the removal of unwanted vegetation with application of ACC inhibiting herbicides from seed and grain production fields.

ZEA MAYS REGULATORY ELEMENTS AND USES THEREOF

Provided are vector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promoters, 5'-UTRs, and/or 3'-UTRs, isolated from Zea mays.

ZEA MAYS REGULATORY ELEMENTS AND USES THEREOF

Provided are vector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promoters, 5'-UTRs, introns, and/or 3'-UTRs, isolated from Zea mays.

Constructs for expressing transgenes using regulatory elements from panicum ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3' -UTRs, isolated from ...

Zea mays regulatory elements and uses thereof

Provided are vector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promotors, 5'-UTRs, and/or 3' UTRs, isolated from Zea mays.

Constructs for expressing transgenes using regulatory elements from Setaria ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Setaria italica ubiquitin genes.

Inbred sorghum line PHA1CQBKE

A novel sorghum variety designated PHA1CQBKE and seed, plants and plant parts thereof. Methods for producing a plant that comprise crossing sorghum variety PHA1CQBKE with another plant. Methods for producing a plant containing in its genetic material one or more traits introgressed into PHA1CQBKE through backcross conversion and/or transformation, and to the sorghum seed, plant and plant part produced thereby. Hybrid sorghum seed, plant or plant part produced by crossing the sorghum variety PHA1CQBKE or a locus conversion of PHA1CQBKE with another sorghum variety.

PLANTS AND SEEDS OF SORGHUM VARIETY GSV672338

The invention relates to the sorghum variety designated GSV672338. Provided by the invention are the seeds, plants and derivatives of the sorghum variety GSV672338. Also provided by the invention are tissue cultures of the sorghum variety GSV672338 and the plants regenerated therefrom. Still further provided by the invention are methods for producing sorghum plants by crossing the sorghum variety GSV672338 with itself or another sorghum variety and plants produced by such methods.

Constructs for expressing transgenes using regulatory elements from Setaria ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Setaria italica ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one mbodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

Sorghum plants having a mutant polynucleotide encoding the large subunit of mutated acetohydroxyacid synthase protein and increased resistance to herbicides

A sorghum seed comprising in its genome at least one polynucleotide encoding a polypeptide having an alanine to threonine substitution at position 93 of the sorghum AHAS protein large subunit. The plant has increased resistance to one or more herbicides, for example from the imidazolinone group, as compared to wild-type sorghum plants. The sorghum plant may comprise in its genome, one, two, three or more copies of a polynucleotide encoding a mutated large subunit of sorghum AHAS or a sorghum AHAS polypeptide of the invention. In this context, the sorghum plant may be tolerant to any herbicide capable of inhibiting AHAS enzyme activity. For example, the sorghum plant may be tolerant to herbicides of the imidazolinones type, such as imazethapyr, imazapir, and imazapic or to herbicides of the sulfonylurea group.

Zea mays regulatory elements and uses thereof

Provided are rector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promoters, 5'-UTRs, introns, and/or 3 ITRs, isolated from Zea mays.

DROUGHT TOLERANT PLANTS PRODUCED BY MODIFICATION OF THE STAY-GREEN STGX LOCUS

The present disclosure teaches the generation of drought tolerant plants. The present disclosure enables manipulation of a phenotypic characteristic referred to as 'stay -green' to facilitate drought adaptation in plants by recombinant, mutagenic and/or breeding and selection methods of manipulating StgX genes including Stg1, Stg2, Stg3a, Stg3b and Stg4. Plant management practice systems to increase crop yield and harvest efficiency in water-limited environments are also taught herein.

CONSTRUCTS FOR EXPRESSING TRANSGENES USING REGULATORY ELEMENTS FROM SETARIA UBIQUITIN GENES

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Setaria italica ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one mbodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

Sorghum hybrid XS4321

A novel sorghum variety designated XS4321 and seed, plants, plant parts and plant cells thereof are produced from a cross of inbred sorghum varieties. Methods for producing a sorghum plant comprise crossing hybrid sorghum variety XS4321 with another sorghum plant. Sorghum variety XS4321, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of sorghum variety XS4321 are provided. Methods for producing a sorghum plant containing in its genetic material one or more traits introgressed into sorghum variety XS4321 include one or both of backcross conversion and transformation of one or both inbred parents. The sorghum seed, plants and plant parts produced thereby are described.

Constructs for expressing transgenes using regulatory elements from Brachypodium ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one embodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

Constructs for expressing transgenes using regulatory elements from Brachypodium ubiquitin 1C genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes.

CONSTRUCTS FOR EXPRESSING TRANSGENES USING REGULATORY ELEMENTS FROM BRACHYPODIUM UBIQUITIN GENES

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one embodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

CONSTRUCTS FOR EXPRESSING TRANSGENES TO THE USE OF REGULATORY ELEMENTS FROM GENES OF UBIQUITIN

Se proveen constructos y métodos para expresar un transgen en células vegetales y/o tejidos vegetales con el uso de elementos reguladores, que incluyen a los promotores y/o 3-UTRs, aislados de genes ubiquitina de Panicum virgatum. Vector. Vegetal.

PLANTS AND SEEDS OF SORGHUM VARIETY GSV142316

The invention relates to the sorghum variety designated GSV142316. Provided by the invention are the seeds, plants and derivatives of the sorghum variety GSV142316. Also provided by the invention are tissue cultures of the sorghum variety GSV142316 and the plants regenerated therefrom. Still further provided by the invention are methods for producing sorghum plants by crossing the sorghum variety GSV142316 with itself or another sorghum variety and plants produced by such methods.

Drought tolerant plants produced by modification of the stay-green STGX locus

H:\nmAlntcnvoventNRPortblDCCAAR4628_- do-260/12013 The present disclosure teaches the generation of drought tolerant plants. The present disclosure enables manipulation of a phenotypic characteristic referred to as "stay-green" to facilitate drought adaptation in plants by recombinant, mutagenic and/or breeding and selection methods. Plant management practice systems to increase crop yield and harvest efficiency in water-limited environments are also taught herein.

Zea mays regulatory elements and uses thereof

Provided are vector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promoters, 5'-UTRs, introns, and/or 3'-UTRs, isolated from Zea mays.

CONSTRUCTS FOR EXPRESSING TRANSGENES TO THE USE OF REGULATORY ELEMENTS FROM GENES OF UBIQUITIN 1C

Reivindicación 1: Un vector de ácido nucleico que comprende un promotor operativamente unido a: i) una secuencia polienlazadora; ii) un transgen que no es de ubiquitina; o iii) una combinación de i) y ii), en donde dicho promotor comprende la SEC ID Nº 1 o una secuencia que posee un 90% de identidad de secuencia con la SEC ID Nº 1. Reivindicación 6: El vector de ácido nucleico de la reivindicación 5, en donde el transgen codifica un marcador seleccionable o un producto génico que confiere resistencia insecticida, tolerancia a herbicidas, eficacia en el uso de nitrógeno, eficacia en el uso del agua, o calidad nutricional. Reivindicación 14: Un vegetal que no es Brachypodium que comprende la SEC ID Nº 1, o una secuencia que posee un 90% de identidad de secuencia con la SEC ID Nº 1 operativamente unida a un transgen. Reivindicación 25: Un vector de ácido nucleico que comprende un terminador de la transcripción operativamente unido a: i) una secuencia polienlazadora; ii) un transgen que no ...

Plants

A method of producing Sorghum bicolor plants displaying day length neutrality that are propagatable from seed and which display at least one trait selected from i) ultra-earliness; ii) seeds being capable of sprouting and growing into mature plants at a latitude of up to 64 degrees North (N) in Europe; iii) display cold tolerance in the seed head at latitudes of up to 55 degrees North (N) in Europe; and iv) being able to mature under low light intensity. Further disclosed are sorghum plants that grow at latitudes from 30 degrees up to 64 degrees North and show substantial uniformity in inheritance of characteristics selected from: day length neutrality, high sugar level in the stem, cold tolerance in the seeds head, or increased levels of antioxidants in the leaves. Further disclosed are the seed and sorghum plants of CN7-8, W18, and HD6 having NCIMB deposit numbers 43458, 43459, and 43460, respectively.

Acetolactate synthase herbicide resistant sorghum

The present invention provides for compositions and methods for producing sorghum crop plants that are resistant to herbicides. In particular, the present invention provides for sorghum plants, plant tissues and plant seeds that contain altered acetolactate synthase (ALS) genes and proteins that are resistant to inhibition by herbicides that normally inhibit the activity of the ALS protein.

Zea mays regulatory elements and uses thereof

Provided are vector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promoters, 5'-UTRs, introns, and/or 3'-UTRs, isolated from Zea mays.

MAIZE REGULATORY ELEMENTS AND USES THEREOF

Se proporcionan constructos de vector y métodos para expresar un transgen en células de planta y/o tejidos de planta utilizando elementos regulatorios de gen, que incluyen los promotores, 5-UTRs, y/o 3-UTRs, aislados de Zea mays. Reivindicación 1: Un vector de ácido nucleico que comprende un promotor operativamente unido a i) una secuencia de poliligador; ii) un transgen sin clorofila a/b o iii) una combinación de i) y ii), en donde dicho promotor comprende SEC ID Nº 1 o una secuencia que tiene 90% en identidad de secuencia con SEC ID Nº 1. Reivindicación 6: El vector de ácido nucleico de la reivindicación 5 en donde el transgen codifica un marcador seleccionable o un producto de gen que confiere resistencia a insecticidas, tolerancia a herbicidas, eficacia de uso de nitrógeno, eficacia de uso de agua, o calidad nutricional.

Plants and seeds of sorghum variety GSV469392

The invention relates to the sorghum variety designated GSV469392. Provided by the invention are the seeds, plants and derivatives of the sorghum variety GSV469392. Also provided by the invention are tissue cultures of the sorghum variety GSV469392 and the plants regenerated therefrom. Still further provided by the invention are methods for producing sorghum plants by crossing the sorghum variety GSV469392 with itself or another sorghum variety and plants produced by such methods.

Constructs for expressing transgenes using regulatory elements from panicum ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3' -UTRs, isolated from ...

"método para controlar as ervas daninhas, método para produzir uma linhagem vegetal de híbrido de sorgo e método para identificar linhagens vegetais de sorgo".

ZEA MAYS METALLOTHIONEIN-LIKE REGULATORY ELEMENTS AND USES THEREOF

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using Zea mays metallothionein-like gene regulatory elements.

Zea mays regulatory elements and uses thereof

Provided are rector constructs and methods for expressing a transgene in plant cells and/or plant tissues using gene regulatory elements, including the promoters, 5'-UTRs, introns, and/or 3 ITRs, isolated from Zea mays.

Constructs for expressing transgenes using regulatory elements from Brachypodium ubiquitin 1C genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes. In one embodiment an expression vector is provided wherein the regulatory elements of a ubiquitin gene are operably linked to a polylinker sequence. In accordance with one embodiment a plant, plant tissue, or plant cell is provided comprising a promoter operably linked to a non-ubiquitin transgene.

Acetolactate synthase herbicide resistant sorghum

The present invention provides for compositions and methods for producing sorghum crop plants that are resistant to herbicides. In particular, the present invention provides for sorghum plants, plant tissues and plant seeds that contain altered acetolactate synthase (ALS) genes and proteins that are resistant to inhibition by herbicides that normally inhibit the activity of the ALS protein.

Sorghum inbred PH2431MW

A novel sorghum variety designated PH2431MW and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety PH2431MW with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety PH2431MW with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into PH2431MW include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety PH2431MW or a locus conversion of PH2431MW with another sorghum variety are disclosed.

construtos para expressão de transgenes usando elementos reguladores de genes de ubiquitina de setaria

PLANTS AND SEEDS OF SORGHUM VARIETY GSV864306

According to the invention, there is provided seed and plants of the sorghum variety designated GSV864306. The invention thus relates to the plants, seeds and tissue cultures of the variety GSV864306, and to methods for producing a sorghum plant produced by crossing a sorghum plant of variety GSV864306 with itself or with another sorghum plant, such as a plant of another variety. The invention further relates to sorghum seeds and plants produced by crossing plants of variety GSV864306 with plants of another variety, such as another inbred line. The invention further relates to the inbred and hybrid genetic complements of plants of variety GSV864306.

Plants and seeds of sorghum variety GSV682287

According to the invention, there is provided plants and plant parts of the variety designated GSV682287. The invention also relates to methods for using a GSV682287 plant to produce various plants and plant parts.

Sorghum inbred PHA4OZQKE

A novel sorghum variety designated PHA4OZQKE and seed, plants and plant parts thereof. Methods for producing a plant that comprise crossing sorghum variety PHA4OZQKE with another plant. Methods for producing a plant containing in its genetic material one or more traits introgressed into PHA4OZQKE through backcross conversion and/or transformation, and to the sorghum seed, plant and plant part produced thereby. Hybrid sorghum seed, plant or plant part produced by crossing the sorghum variety PHA4OZQKE or a locus conversion of PHA4OZQKE with another sorghum variety.

Sorghum cytoplasmic male sterility markers and loci

Various methods and compositions are provided for identifying and/or selecting a sorghum plant or germplasm with or without a cytoplasmic male sterility (CMS) trait. In certain embodiments, the method comprises detecting at least one allele of one or more marker locus within or linked to a QTL associated with CMS. In further embodiments, the method comprises crossing a selected sorghum plant with a recurrent sorghum parent plant and selecting progeny with CMS.

Constructs for expressing transgenes using regulatory elements from Brachypodium ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes.

Constructs for expressing transgenes using regulatory elements from Brachypodium ubiquitin 1C genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3'-UTRs, isolated from Brachypodium distachyon ubiquitin genes.

Sorghum plants having a mutant polynucleotide encoding the large subunit of mutated acetohydroxyacid synthase protein and increased resistance to herbicides

A sorghum seed comprising in its genome at least one polynucleotide encoding a polypeptide having an alanine to threonine substitution at position 93 of the sorghum AHAS protein large subunit. The plant has increased resistance to one or more herbicides, for example from the imidazolinone group, as compared to wild-type sorghum plants. The sorghum plant may comprise in its genome, one, two, three or more copies of a polynucleotide encoding a mutated large subunit of sorghum AHAS or a sorghum AHAS polypeptide of the invention. In this context, the sorghum plant may be tolerant to any herbicide capable of inhibiting AHAS enzyme activity. For example, the sorghum plant may be tolerant to herbicides of the imidazolinones type, such as imazethapyr, imazapir, and imazapic or to herbicides of the sulfonylurea group.

IMPROVED VARIETY OF SORGHUM

An object of the present invention is to provide a variety that has higher biomass, and contains a high proportion of sugar raw material (i.e., a higher sugar content). The present invention provides an improved plant derived from variety 74LH3213, wherein chromosome 6 DNA is partially or entirely substituted by a DNA region comprising a high-sugar-content locus qBRX-6 derived from variety SIL-05; and an improved Tentaka variety obtained by crossing the improved 74LH3213 plant with variety MS79A. 1sorghumsorghum. An improved 74LH3213 plant , which is an improved plant of variety 74LH3213 , wherein chromosome 6 DNA is partially or entirely substituted by a DNA region comprising a high-sugar-content locus qBRX-6 , which is derived from variety SIL-05 , and the DNA region is a DNA region ranging from(A) DNA marker SB3412 to(J) DNA marker SB3762.2. (canceled)3. The improved 74LH3213 plant according to claim 1 , wherein the substitution is present on both of a pair of chromosomes 6.4. A seed of the improved 74LH3213 plant according to .5. A method for producing the improved 74LH3213 plant according to claim 1 , comprising the following steps (a) to (d):{'i': sorghum', 'sorghum, '(a) crossing variety 74LH3213 with variety SIL-05 to obtain an F1 individual;'}{'i': 'sorghum', '(b) backcrossing the F1 individual to variety 74LH3213 to obtain a BCH individual (BC stands for backcrossing; BC1 indicates that the number of backcrossings is 1);'}(c) repeating backcrossing several times, as necessary; and{'i': 'sorghum', '(d) confirming that the chromosome 6 DNA in an individual obtained by at least one step selected from the group consisting of steps (a) to (c) is partially or entirely substituted by a DNA region comprising a high-sugar-content locus qBRX-6, which is derived from variety SIL-05.'}6sorghumsorghumsorghum. An improved Tentaka plant claim 1 , which is an improved plant of variety Tentaka claim 1 , the improved Tentaka plant being obtained by crossing the improved ...

Methods for Creating Doubled Haploid Plants

Provided are methods for increasing the efficiency of creating doubled haploid plants by increasing the number of chances of forming a double haploid seed through treatment of a monocot plant with a plant growth regulator. In certain embodiments, maize plants are produced that comprise multiple co-dominant ears. Also provided are plants comprising the potential to generate increased numbers of doubled haploid offspring.

METHODS AND MATERIALS FOR HIGH THROUGHPUT TESTING OF MUTAGENIZED ALLELE COMBINATIONS

High throughput methods are described for identifying combinations of mutations that can be used to improve a phenotypic feature in an organism. Large populations of organisms (e.g., plants) containing different combinations of mutations can be assessed using the methods. 1. A method for identifying a combination of genetic mutations that improves a phenotype of a plant , wherein said method comprises:(a) selecting a plurality of genomic targets for mutation,(b) making a plant cell comprising a plurality of different gRNAs designed to mutate the genomic targets, and a Cas9 polypeptide, wherein a plant descended from the plant cell has a plurality of germline mutations,(c) sexually crossing a first parental plant comprising at least a subset of the germline mutations to a second parental plant to produce a progeny population,(d) phenotyping the progeny population to select an individual with improved phenotype, and(e) genotyping the selected individual to identify the combination of genetic mutations that improves the phenotype of the plant.2. The method of wherein said plurality of genomic targets comprises is at least four.3Zea mays.. The method of wherein said first and second parental plants are4. The method of wherein said plurality of genomic targets comprises at least one of SEQ ID NOs: 26-39.5. The method of wherein a subset of said plurality of different gRNAs are designed to mutate distinct residues of the same genomic target.6. The method of wherein a subset of said plurality of different gRNAs is designed to mutate residues within conserved sequences of paralogous genes.7. The method of wherein making a plant cell comprises inserting gRNA-expressing transgenes.8. The method of wherein making a plant cell comprises contacting the cell with pre-assembled gRNA-Cas9 ribonucloeoproteins.9. The method of wherein making a plant cell comprises adding a Cas9 polypeptide-expressing transgene.10. The method of wherein adding the Cas9 polypeptide-expressing transgene ...

SORGHUM MATERNAL HAPLOID INDUCING LINE SMHI02

Two sorghum maternal haploid inducer lines SMHI01 and SMHI02 are provided including seed, plants and plant parts thereof. Methods for producing sorghum haploid embryos using SMHI01 and SMHI02 are also provided. The sorghum haploid embryos produced as a result of the use of either maternal haploid inducer line SMHI01 or SMHI02 may be doubled to produce doubled haploid embryos, seeds, and plants as part of a sorghum breeding program. 130-. (canceled)31. A plant , non-seed plant part , seed , or cell of sorghum variety SMHI02 , representative seed of said line having been deposited with the ATCC as PTA-123712.32. The plant claim 31 , non-seed plant part claim 31 , seed claim 31 , or cell of claim 31 , further comprising a marker gene that allows visual selection of haploid embryos claim 31 , wherein (i) the seed claim 31 , non-seed plant part or cell produces a plant which has otherwise all of the phenotypic and morphological characteristics of sorghum variety SMHI02 claim 31 , or (ii) the plant has otherwise all of the phenotypic and morphological characteristics of sorghum variety SMHI02.33. The plant claim 32 , non-seed plant part claim 32 , seed claim 32 , or cell of claim 32 , wherein the marker gene is expressed in embryo tissue.34. An F1 sorghum seed or a plant or plant part grown therefrom claim 32 , the seed produced by crossing the plant or non-seed plant part of with a different plant claim 32 , wherein the plant part comprises at least one cell of the F1 sorghum seed or plant.35. An F1 sorghum haploid embryo or seed claim 31 , or a sorghum haploid plant grown therefrom claim 31 , produced by crossing the plant of with a second plant claim 31 , wherein said second plant is used as a female.36. A method of producing a sorghum doubled haploid embryo claim 35 , seed claim 35 , or plant claim 35 , said method comprising contacting the sorghum haploid embryo claim 35 , seed of with a chromosome doubling agent.37. A method of producing a sorghum doubled haploid ...

Constructs for expressing transgenes using regulatory elements from brachypodium ubiquitin genes

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters and/or 3′-UTRs, isolated from Brachypodium distachyon ubiquitin genes.

Methods and materials for high throughput testing of mutagenized allele combinations

High throughput methods are described for identifying combinations of mutations that can be used to improve a phenotypic feature in an organism. Large populations of organisms (e.g., plants) containing different combinations of mutations can be assessed using the methods.

MUTATIONS CONFERRING ACETYL-COA CARBOXYLASE (ACC) INHIBITING HERBICIDE TOLERANCE IN SORGHUM

The invention provides for plants and plant parts developed through tissue culture, gene editing, or other methods of mutagenesis in which the plant or plant parts have increased tolerance to one or more acetyl-CoA carboxylase (ACC) herbicides at levels that would normally inhibit the growth of wild-type plants. In this context, the plant may be tolerant to any herbicide capable of inhibiting acetyl-CoA carboxylase enzyme activity. The present invention allows for the screening of ACC herbicide tolerant hybrids with markers or application of ACC inhibiting herbicides, and for the removal of unwanted vegetation with application of ACC inhibiting herbicides from seed and grain production fields.

SORGHUM INBRED PH2013MW

A novel sorghum variety designated PH2013MW and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety PH2013MW with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety PH2013MW with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into PH2013MW include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety PH2013MW or a locus conversion of PH2013MW with another sorghum variety are disclosed. 1. A seed of sorghum variety PH2013MW , representative seed of the variety having been deposited under ATCC accession number XXXX.2. A plant claim 1 , non-seed plant part claim 1 , seed or plant cell produced by growing the sorghum variety PH2013MW seed of .3. The plant or non-seed plant part of claim 2 , comprising a pollen or ovule.4. The plant claim 2 , non-seed plant part claim 2 , seed or plant cell of claim 2 , further comprising a locus conversion claim 2 , wherein the plant or a plant grown from the plant part claim 2 , seed or plant cell otherwise comprises all of the physiological and morphological characteristics of sorghum variety PH2013MW when grown under the same environmental conditions.5. The plant claim 4 , non-seed plant part claim 4 , seed claim 4 , or plant cell of claim 4 , wherein the locus conversion confers a property selected from the group consisting of abiotic stress tolerance claim 4 , altered phosphate content claim 4 , altered antioxidant content claim 4 , altered fatty acid profile claim 4 , altered essential amino acid profile claim 4 , altered carbohydrate content claim 4 , herbicide resistance claim 4 , insect resistance claim 4 , disease resistance claim 4 , and salt tolerance.6. A sorghum seed produced by crossing the plant or non-seed plant part of with a different plant.7. An F1 hybrid ...

SORGHUM INBRED PH2862FW

A novel sorghum variety designated PH2862FW and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety PH2862FW with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety PH2862FW with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into PH2862FW include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety PH2862FW or a locus conversion of PH2862FW with another sorghum variety are disclosed. 1. A seed of sorghum variety PH2862FW , representative seed of the variety having been deposited under ATCC accession number PTA-126354.2. A plant claim 1 , non-seed plant part claim 1 , seed or plant cell produced by growing the sorghum variety PH2862FW seed of .3. The plant or non-seed plant part of claim 2 , comprising a pollen or ovule.4. The plant claim 2 , non-seed plant part claim 2 , seed or plant cell of claim 2 , further comprising a locus conversion claim 2 , wherein the plant or a plant grown from the plant part claim 2 , seed or plant cell otherwise comprises all of the physiological and morphological characteristics of sorghum variety PH2862FW when grown under the same environmental conditions.5. The plant claim 4 , non-seed plant part claim 4 , seed claim 4 , or plant cell of claim 4 , wherein the locus conversion confers a property selected from the group consisting of abiotic stress tolerance claim 4 , altered phosphate content claim 4 , altered antioxidant content claim 4 , altered fatty acid profile claim 4 , altered essential amino acid profile claim 4 , altered carbohydrate content claim 4 , herbicide resistance claim 4 , insect resistance claim 4 , disease resistance claim 4 , and salt tolerance.6. A sorghum seed produced by crossing the plant or non-seed plant part of with a different plant.7. An F1 ...

SORGHUM INBRED 2PAFL94R

A novel sorghum variety designated 2PAFL94R and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety 2PAFL94R with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety 2PAFL94R with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into 2PAFL94R include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety 2PAFL94R or a locus conversion of 2PAFL94R with another sorghum variety are disclosed. 1. A seed of sorghum variety 2PAFL94R , representative seed of the variety having been deposited under ATCC accession number ______.2. A plant claim 1 , non-seed plant part claim 1 , seed or plant cell produced by growing the sorghum variety 2PAFL94R seed of .3. The plant or non-seed plant part of claim 2 , comprising a pollen or ovule.4. The plant claim 2 , non-seed plant part claim 2 , seed or plant cell of claim 2 , further comprising a locus conversion claim 2 , wherein the plant or a plant grown from the plant part claim 2 , seed or plant cell otherwise comprises all of the physiological and morphological characteristics of sorghum variety 2PAFL94R when grown under the same environmental conditions.5. The plant claim 4 , non-seed plant part claim 4 , seed claim 4 , or plant cell of claim 4 , wherein the locus conversion confers a property selected from the group consisting of abiotic stress tolerance claim 4 , altered phosphate content claim 4 , altered antioxidant content claim 4 , altered fatty acid profile claim 4 , altered essential amino acid profile claim 4 , altered carbohydrate content claim 4 , herbicide resistance claim 4 , insect resistance claim 4 , disease resistance claim 4 , and salt tolerance.6. A sorghum seed produced by crossing the plant or non-seed plant part of with a different plant.7. An F1 ...

SORGHUM INBRED 2PJPR62R

A novel sorghum variety designated 2PJPR62R and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety 2PJPR62R with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety 2PJPR62R with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into 2PJPR62R include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety 2PJPR62R or a locus conversion of 2PJPR62R with another sorghum variety are disclosed. 1. A seed of sorghum variety 2PJPR62R , representative seed of the variety having been deposited under ATCC accession number XXXX.2. A plant claim 1 , non-seed plant part claim 1 , seed or plant cell produced by growing the sorghum variety 2PJPR62R seed of .3. The plant or non-seed plant part of claim 2 , comprising a pollen or ovule.4. The plant claim 2 , non-seed plant part claim 2 , seed or plant cell of claim 2 , further comprising a locus conversion claim 2 , wherein the plant or a plant grown from the plant part claim 2 , seed or plant cell otherwise comprises all of the physiological and morphological characteristics of sorghum variety 2PJPR62R when grown under the same environmental conditions.5. The plant claim 4 , non-seed plant part claim 4 , seed claim 4 , or plant cell of claim 4 , wherein the locus conversion confers a property selected from the group consisting of abiotic stress tolerance claim 4 , altered phosphate content claim 4 , altered antioxidant content claim 4 , altered fatty acid profile claim 4 , altered essential amino acid profile claim 4 , altered carbohydrate content claim 4 , herbicide resistance claim 4 , insect resistance claim 4 , disease resistance claim 4 , and salt tolerance.6. A sorghum seed produced by crossing the plant or non-seed plant part of with a different plant.7. An F1 hybrid ...

SORGHUM INBRED PH2710MW

A novel sorghum variety designated PH2710MW and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety PH2710MW with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety PH2710MW with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into PH2710MW include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety PH2710MW or a locus conversion of PH2710MW with another sorghum variety are disclosed. 1. A seed of sorghum variety PH2710MW , representative seed of the variety having been deposited under ATCC accession number PTA-126357.2. A plant claim 1 , non-seed plant part claim 1 , seed or plant cell produced by growing the sorghum variety PH2710MW seed of .3. The plant or non-seed plant part of claim 2 , comprising a pollen or ovule.4. The plant claim 2 , non-seed plant part claim 2 , seed or plant cell of claim 2 , further comprising a locus conversion claim 2 , wherein the plant or a plant grown from the plant part claim 2 , seed or plant cell otherwise comprises all of the physiological and morphological characteristics of sorghum variety PH2710MW when grown under the same environmental conditions.5. The plant claim 4 , non-seed plant part claim 4 , seed claim 4 , or plant cell of claim 4 , wherein the locus conversion confers a property selected from the group consisting of abiotic stress tolerance claim 4 , altered phosphate content claim 4 , altered antioxidant content claim 4 , altered fatty acid profile claim 4 , altered essential amino acid profile claim 4 , altered carbohydrate content claim 4 , herbicide resistance claim 4 , insect resistance claim 4 , disease resistance claim 4 , and salt tolerance.6. A sorghum seed produced by crossing the plant or non-seed plant part of with a different plant.7. An F1 ...

SORGHUM INBRED PH3126MW

A novel sorghum variety designated PH3126MW and seed, plants and plant parts thereof are provided. Methods for producing a plant comprise crossing sorghum variety PH3126MW with another plant. Sorghum seed, plants and plant parts produced by crossing sorghum variety PH3126MW with another plant are described. Methods for producing a plant containing in its genetic material one or more traits introgressed into PH3126MW include one or both of backcross conversion and transformation. Hybrid sorghum seed, plants or plant parts produced by crossing the sorghum variety PH3126MW or a locus conversion of PH3126MW with another sorghum variety are disclosed. 1. A seed of sorghum variety PH3126MW , representative seed of the variety having been deposited under ATCC accession number XXXX.2. A plant claim 1 , non-seed plant part claim 1 , seed or plant cell produced by growing the sorghum variety PH3126MW seed of .3. The plant or non-seed plant part of claim 2 , comprising a pollen or ovule.4. The plant claim 2 , non-seed plant part claim 2 , seed or plant cell of claim 2 , further comprising a locus conversion claim 2 , wherein the plant or a plant grown from the plant part claim 2 , seed or plant cell otherwise comprises all of the physiological and morphological characteristics of sorghum variety PH3126MW when grown under the same environmental conditions.5. The plant claim 4 , non-seed plant part claim 4 , seed claim 4 , or plant cell of claim 4 , wherein the locus conversion confers a property selected from the group consisting of abiotic stress tolerance claim 4 , altered phosphate content claim 4 , altered antioxidant content claim 4 , altered fatty acid profile claim 4 , altered essential amino acid profile claim 4 , altered carbohydrate content claim 4 , herbicide resistance claim 4 , insect resistance claim 4 , disease resistance claim 4 , and salt tolerance.6. A sorghum seed produced by crossing the plant or non-seed plant part of with a different plant.7. An F1 hybrid ...

SORGHUM VARIETY 2PYFG43

A novel sorghum variety designated 2PYFG43 and seed, plants, plant parts and plant cells thereof are provided. Methods for producing a sorghum plant comprise crossing sorghum variety 2PYFG43 with another sorghum plant. Sorghum variety 2PYFG43, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of sorghum variety 2PYFG43 are provided. Methods for producing a sorghum plant containing in its genetic material one or more traits introgressed into sorghum variety 2PYFG43 include one or both of backcross conversion and transformation. The sorghum seed, plants and plant parts produced thereby are described. 1. A plant of sorghum variety 2PYFG43 , representative seed of the variety having been deposited under ATCC Accession Number PTA-______.2. A treated seed of the sorghum variety 2PYFG43 , representative seed of the variety having been deposited under ATCC Accession Number PTA-______ , the seed comprising a seed treatment on the surface of the seed3. A method for producing the seed of claim 2 , the method comprising applying the seed treatment on the surface of the seed of the sorghum variety 2PYFG43.4. The seed of claim 2 , wherein the treatment comprises a fungicide claim 2 , insecticide or a combination thereof.5. A plant part of the sorghum plant of claim 1 , wherein the plant part comprises at least one cell of the sorghum variety 2PYFG43.6. A method comprising cleaning seed harvested from the plant of .7. A method for producing sorghum oil claim 1 , the method comprising processing seed harvested from the plant of .8. A method of producing a sorghum seed claim 1 , the method comprising growing the plant of to produce a subsequent generation of seed; and harvesting the subsequent generation of seed.9. The method of further comprising cleaning the seed prior to applying the seed treatment.10. A method for producing a second sorghum plant or plant part claim 1 , the method comprising doubling haploid seed generated from the plant ...

SORGHUM HYBRID 2PEWG07

A novel sorghum variety designated 2PEWG07 and seed, plants, plant parts and plant cells thereof are produced from a cross of inbred sorghum varieties. Methods for producing a sorghum plant comprise crossing hybrid sorghum variety 2PEWG07 with another sorghum plant. Sorghum variety 2PEWG07, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of sorghum variety 2PEWG07 are provided. Methods for producing a sorghum plant containing in its genetic material one or more traits introgressed into sorghum variety 2PEWG07 include one or both of backcross conversion and transformation of one or both inbred parents. The sorghum seed, plants and plant parts produced thereby are described. 1. An F1 hybrid sorghum variety 2PEWG07 seed produced by crossing a first plant of variety PH2862FW with a second plant of variety PH2013MW , representative seed of the varieties PH2862FW and PH2013MW having been deposited under ATCC Accession Numbers PTA-126354 and PTA-126353 , respectively.2. The F1 hybrid sorghum variety 2PEWG07 seed of claim 1 , further comprising a seed treatment on the seed.3. An F1 plant claim 1 , plant part claim 1 , or plant cell produced by growing the Fhybrid sorghum variety 2PEWG07 seed of claim 1 , the plant part comprising at least one cell of sorghum variety 2PEWG07.4. The Fplant claim 3 , plant part claim 3 , or plant cell of claim 3 , wherein the plant claim 3 , plant part or plant cell is a pollen or ovule.5. A method of making a commodity plant product claim 3 , the method comprising producing the commodity plant product from the plant or plant part of .6. A method comprising cleaning the plant part of claim 3 , wherein the plant part comprises sorghum grain.7. A method for producing a second sorghum plant claim 3 , the method comprising applying plant breeding techniques to the plant or plant part of to produce the second sorghum plant.8. A method comprising:{'claim-ref': {'@idref': 'CLM-00003', 'claim 3'}, '(a) ...

Herbicide-Resistant Grain Sorghum

A fluazifop-resistant cultivar designated ‘X’ and plants comprising a polynucleotide encoding the polypeptide of SEQ ID NO: 39 are disclosed herein. The present invention provides seeds, plants, and plant parts derived from cultivar ‘X’ and those including SEQ ID NO: 39. Further, it provides methods for producing a plant by crossing ‘X’ with itself or another variety. The invention also encompasses any seeds, plants, and plant parts produced by the methods disclosed herein, including those in which additional traits have been transferred into ‘X’ through the introduction of a transgene or by breeding ‘X’ with another cultivar. 1sorghum. A seed comprising a polynucleotide encoding the polypeptide of SEQ ID NO: 39.2sorghumsorghum. The seed of claim 1 , wherein the seed is of variety ‘X claim 1 ,’ a representative sample of seed of said variety having been deposited under ATCC Accession No. XXX.3sorghum. A plant claim 1 , or a part thereof claim 1 , produced by growing the seed of .4. The plant of claim 3 , wherein the plant is resistant to ACCase inhibitor herbicides.5. The plant of claim 4 , wherein the ACCase inhibitor herbicide is selected from the group consisting of fluazifop-p-butyl claim 4 , fenoxaprop-p-ethyl claim 4 , cyhalofop-butyl claim 4 , quizalofop-p-ethyl claim 4 , clodinafop-propargyl claim 4 , pinoxaden claim 4 , diclofop-methyl claim 4 , and a combination thereof.6. The plant of claim 3 , wherein the plant is photoperiod-insensitive.7sorghumsorghum. A plant claim 3 , or a part thereof claim 3 , having the physiological and morphological characteristics of the plant of .8. Pollen or an ovule of the plant of .9sorghumsorghumsorghum. A method for producing plants claim 1 , said method comprising planting a plurality of seeds as recited in under conditions favorable for the growth of plants.10sorghumsorghum. The method of claim 9 , wherein the plants are treated with an ACCase inhibitor herbicide claim 9 , wherein the percent injury to the is preferably ...

Acetolactate synthase herbicide resistant sorghum

The present invention provides for compositions and methods for producing sorghum crop plants that are resistant to herbicides. In particular, the present invention provides for sorghum plants, plant tissues and plant seeds that contain altered acetolactate synthase (ALS) genes and proteins that are resistant to inhibition by herbicides that normally inhibit the activity of the ALS protein.

Sorghum cytoplasmic male sterility markers and loci

Various methods and compositions are provided for identifying and/or selecting a sorghum plant or germplasm with or without a cytoplasmic male sterility (CMS) trait. In certain embodiments, the method comprises detecting at least one allele of one or more marker locus within or linked to a QTL associated with CMS. In further embodiments, the method comprises crossing a selected sorghum plant with a recurrent sorghum parent plant and selecting progeny with CMS.

Plants and seeds of sorghum variety gsv674558

The invention relates to the sorghum variety designated GSV674558. Provided by the invention are the seeds, plants and derivatives of the sorghum variety GSV674558. Also provided by the invention are tissue cultures of the sorghum variety GSV674558 and the plants regenerated therefrom. Still further provided by the invention are methods for producing sorghum plants by crossing the sorghum variety GSV674558 with itself or another sorghum variety and plants produced by such methods.

Genetic mutations that disrupt dhurrin production in sorghum

Embodiments of the present invention relate generally to new forage crops and methods of creating new forage crops. For example, chemical mutagenesis is used to create mutant crops having desirable forage characteristics. In some embodiments, a mutant sorghum plant is produced by inducing mutagenesis; producing a population of mutant sorghum plants using the treated reproductive portion; assaying the population of mutant sorghum for a C493Y mutation in CYP79A1; and growing the mutant sorghum plant, wherein the mutant sorghum plant exhibits altered dhurrin content or catabolism as compared to a control sorghum plant.

Sorghum maternal haploid inducing lines smhi01 and smhi02

Two sorghum maternal haploid inducer lines SMHI01 and SMHI02 are provided including seed, plants and plant parts thereof. Methods for producing sorghum haploid embryos using SMHI01 and SMHI02 are also provided. The sorghum haploid embryos produced as a result of the use of either maternal haploid inducer line SMHI01 or SMHI02 may be doubled to produce doubled haploid embryos, seeds, and plants as part of a sorghum breeding program.

Mutations Conferring Acetyl-Coa Carboxylase (ACC) Inhibiting Herbicide Tolerance in Sorghum

The invention provides for sorghum plants and plant parts developed through tissue culture, gene editing or other methods of mutagenesis in which the plant or plant parts have increased tolerance to one or more acetyl-CoA carboxylase (ACC) herbicides at levels that would normally inhibit the growth of wild-type sorghum plants. In this context, the sorghum plant may be tolerant to any herbicide capable of inhibiting acetyl-CoA carboxylase enzyme activity. The present invention allows for the screening of ACC herbicide tolerant hybrids with markers or application of ACC inhibiting herbicides, and for the removal of unwanted vegetation with application of ACC inhibiting herbicides from seed and grain production fields.

The sorghum plant of polynucleotides and the Herbicid resistant enhancing of the mutation of acetohydroxy acid synthetase albumen large subunit with encoding mutant

一种在其基因组中包括至少一种多核苷酸的高粱种子，该多核苷酸编码多肽，该多肽在高粱AHAS蛋白大亚基的第93位上的丙氨酸被替换为苏氨酸。该植物相比于野生型高粱植物对一种或多种除草剂具有增强的抗性，其中除草剂例如为来自咪唑啉酮组的除草剂。高粱植物在其基因组中可以包括一个、两个、三个或更多个拷贝的多核苷酸，该多核苷酸编码高粱AHAS的突变的大亚基，或本发明的高粱AHAS多肽。在此上下文中，高粱植物可以对能够抑制AHAS酶活性的任何除草剂都有耐受性。例如，高粱植物可以对咪唑啉酮类型的除草剂(诸如，咪草烟、灭草烟和甲基咪草烟)有耐受性，或者对磺酰脲组的除草剂有耐受性。

Acetolactate synthase herbicide resistant sorghum

Herbicide resistant sorghum

Sorghum genotypes that exhibit resistance to dinitroanaline herbicides are disclosed. The invention relates to the seeds of sorghum genotypes with resistance to dinitroanaline herbicides, to the plants of sorghum genotypes with resistance to dinitroanaline herbicides, to plant parts of sorghum genotypes with resistance to dinitroanaline herbicides and to methods for producing a sorghum plant produced by crossing of one or more sorghum genotypes with resistance to dinitroanaline herbicides with itself or with another sorghum plant.

Herbicide resistant sorghum

Sorghum genotypes that exhibit resistance to dinitroanaline herbicides are disclosed. The invention relates to the seeds of sorghum genotypes with resistance to dinitroanaline herbicides, to the plants of sorghum genotypes with resistance to dinitroanaline herbicides, to plant parts of sorghum genotypes with resistance to dinitroanaline herbicides and to methods for producing a sorghum plant produced by crossing of one or more sorghum genotypes with resistance to dinitroanaline herbicides with itself or with another sorghum plant.

Zea mays regulatory elements and uses thereof

제아 메이스로부터 단리된, 프로모터, 5'-UTR, 인트론, 및/또는 3'-UTR을 포함하는, 유전자 조절 요소를 사용하여 식물 세포 및/또는 식물 조직에서 트랜스진을 발현하기 위한 벡터 구축물 및 방법을 제공한다.

zea mays regulatory elements and uses thereof

elementos regulatórios de zea mays e usos dos mesmos. a presente invenção refere-se a construtos de vetor e métodos para expressão de um transgene em células de planta e/ou tecidos de planta usando elementos regulatórios de gene, incluindo os promotores, 5'-utrs, e/ou 3'-utrs, isolados de zea mays. zea mays regulatory elements and their uses. The present invention relates to vector constructs and methods for expression of a transgene in plant cells and / or plant tissues using gene regulatory elements, including promoters, 5'-utrs, and / or 3'-utrs, isolated from zea mays.

zea mays regulatory elements and their use

elementos regulatórios de zea mays e uso dos mesmos. a presente invenção refere-se a construtos de vetor e a métodos para expressar um transgene nas células de planta e/ou tecidos de planta com o uso de elementos regulatórios de gene, que incluem os promotores, 5'-utrs, introns e/ou 3'-utrs, isolados de zea mays. zea mays regulatory elements and their use. The present invention relates to vector constructs and methods for expressing a transgene in plant cells and / or plant tissues using gene regulatory elements, which include promoters, 5'-utrs, introns and / or 3'-utrs, isolated from zea mays.

A recombinant vector comprising intron of Histone Deacetylase 1 for plant transformation and use thereof

The present invention relates to a recombinant vector for converting a trait of a plant including an HD1 intron and a method for use thereof. More specifically, the present invention relates to a cassette for suppressing the expression of a target gene which includes: a first fragment (a) of a target gene; an intron (b) of a histone deacetylase 1 (HD1) gene comprising a base sequence indicated as the sequence number 3; and a second fragment (c) which is inversely complementary to the first fragment, a vector for suppressing the expression of a target gene which includes the cassette, a trait conversion plant body with the suppressed expression of a target gene which includes the vector, and a method of manufacturing the trait conversion plant body. Since the cassette for suppressing the expression of a target gene and the recombinant vector including the same form siRNA of the target gene, which suppresses the expression of the gene, the present invention can be properly used for the development of beneficial crops as well as analysis on functions of unknown genes.

Zea mays metallothionein-like regulatory elements and uses thereof

Provided are constructs and methods for expressing a transgene in plant cells and/or plant tissues using Zea mays metallothionein-like gene regulatory elements.

Constructs for expressing transgenes using regulatory elements from panicum ubiquitin genes

Sorghum plants having a mutant polynucleotide encoding the large subunit of mutated acetohydroxyacid synthase protein and increased resistance to herbicides

Acetolactate synthase herbicide resistant sorghum

The present invention provides for compositions and methods for producing sorghum crop plants that are resistant to herbicides. In particular, the present invention provides for sorghum plants, plant tissues and plant seeds that contain altered acetolactate synthase (ALS) genes and proteins that are resistant to inhibition by herbicides that normally inhibit the activity of the ALS protein.

Acetolactate synthase herbicide resistant sorghum

Sorhum with extremely high antioxidant activity

본 발명은 CS-4 Local collection을 순계분리 과정을 통하여 육성된 것을 특징으로 하는 항산화 고활성 특성을 갖는 신품종 수수에 관한 것이다. The present invention relates to a new variety having high antioxidant activity characteristics, characterized in that the CS-4 local collection is cultivated through a purifying step.

Compositions and methods for stature modification in plants

Multi-ear system to enhance monocot plant yield

Provided are methods for increasing the yield of a monocot plant through treatment of the plant with a plant growth regulator. In certain embodiments, maize plants produce multiple ears and an increased number of kernels. In certain embodiments, reduced height of the plant allows for more efficient self-pollination.

Sorghum doubled haploid production system

Methods and compositions useful in sorghum breeding are provided. Methods of producing haploid sorghum embryos, plants, seeds, and plant parts are provided. The sorghum haploid embryos produced may be doubled to produce doubled haploid embryos, plants, seeds, and plant parts as part of a sorghum breeding program.

Compositions and methods for stature modification in plants

Methods and compositions to modulate plant stature including plant height, ear height, planting density and other agronomic characteristics are disclosed. The disclosure further discloses compositions, polynucleotide constructs, transformed host cells, plants and seeds exhibiting altered stature characteristics or produce plants that exhibit altered stature parameters.

method for reducing plant height, method for identifying a br1 allele or a dw5 allele in a plant population, semianan plant, semianan sorghum plant, recombinant DNA construction, plant cell, plant rna sequence, seed, plant modified semiannum sorghum, dwarf sorghum plant, mutant maize plant, method to reduce plant height, sorghum plant, sorghum plant population, method to reduce the frequency of reversion of a dwarf 3 (dw3) allele in a plant sorghum in a high phenotype, rice plant, marker assisted selection method of a plant

Trata-se de métodos e composições para modular a estatura de planta incluindo altura de planta, altura de espiga, densidade de plantação e outras características agronômicas. A revelação revela adicionalmente composições, construções de polinucleotídeo, células hospedeiras transformadas, plantas e sementes que exibem características de estatura alterada ou produzem plantas que exibem parâmetros de estatura alterada.

Drought tolerant plants produced by modification of the stay-green stgx locus

The present disclosure teaches the generation of drought tolerant plants. The present disclosure enables manipulation of a phenotypic characteristic referred to as 'stay -green' to facilitate drought adaptation in plants by recombinant, mutagenic and/or breeding and selection methods of manipulating StgX genes including Stg1, Stg2, Stg3a, Stg3b and Stg4 . Plant management practice systems to increase crop yield and harvest efficiency in water-limited environments are also taught herein.

Mutations conferring acetyl-coa carboxylase (acc) inhibiting herbicide tolerance in sorghum

The invention provides for sorghum plants and plant parts developed through tissue culture, gene editing or other methods of mutagenesis in which the plant or plant parts have increased tolerance to one or more acetyl-CoA carboxylase (ACC) herbicides at levels that would normally inhibit the growth of wild-type sorghum plants. In this context, the sorghum plant may be tolerant to any herbicide capable of inhibiting acetyl- CoA carboxylase enzyme activity. The present invention allows for the screening of ACC herbicide tolerant hybrids with markers or application of ACC inhibiting herbicides, and for the removal of unwanted vegetation with application of ACC inhibiting herbicides from seed and grain production fields.

Drought tolerant plants produced by modification of the stay-green stgx locus

Immune receptor conferring broad spectrum fungal resistance in sorghum

Disclosed herein is a unique molecular marker in sorghum genome for conferring broad range fungal resistance trait, and the use of the molecular marker to manipulate resistance in sorghum. A disease resistance gene called ANTHRACNOSE RESISTANCE GENE 1 (ARG1) and a negative regulator, i.e. antisense transcripts of ARG1, called CARRIER OF ARG (CARG) for the fungi resistance gene are knocked out within a quantitative trait locus (QTL).

Drought tolerant plants produced by modification of the stay-green stgx locus

Винахід стосується способу отримання генетично модифікованої рослини, яка ефективніше використовує воду, яка включає стадію введення в рослину послідовності гена сорго ID Sb02g029210, що розташований від пари основ 64347327 до пари основ 64350341, яка кодує SbPIN1, і яка асоційована з фенотипом «залишатися зеленим", причому включає в себе зсув в споживанні води на період після цвітіння або підвищену доступність води під час росту сільськогосподарської культури або підвищену ефективність транспірації, що приводить до збільшення індексу збирання урожаю і урожаю зерна в умовах обмеженого водопостачання.

Methods and compositions for improving cold-tolerance of plants

Provided herein are a sorghum genomic region, alleles, and genotypes that are shown to be associated with a cold-stress tolerance phenotype. Also provided are genetically edited plastocyanin genes that result in a cold-stress tolerance phenotype. Also provided are cold-tolerant plants comprising an introgressed genomic region associated with cold-stress tolerance.

Sterile mutant and two line breeding system

Disclosed herein are nuclear male sterile Sorghum mutants, three-component genetic constructs, and methods of using said mutants and genetic constructs, such as in a two-line male sterility system for hybrid breeding.

Sorghum plants having a mutant polynucleotide encoding the large subunit of mutated acetohydroxyacid synthase protein and increased resistance to herbicides.

Planta de sorgo que comprende en su genoma al menos un polinucleótido, en donde el polinucléotido codifica una subunidad mayor de AHAS que tiene una sustitución de alanina por treonina en la posición 93 de la sub unidad mayor de AHAS de sorgo o en una posición equivalente, . La planta tiene resistencia incrementada a uno o más herbicidas, por ejemplo del grupo de las imidazolinonas, respecto de las plantas de sorgo salvajes. La planta de sorgo puede comprender en su genoma, una, dos, tres o más copias del polinucleótido que codifica a la sub unidad mayor mutada de AHAS o polipéptido AHAS de sorgo de la invención. En este contexto la planta de sorgo puede ser tolerante a cualquier herbicida que inhiba la acción de la enzima AHAS, por ejemplo, la planta de sorgo puede ser tolerante a herbicidas el tipo de las imidazolinonas, por ejemplo imazetapir, imazapir, imazapic e imazamox.

multiple ear system to improve yield of monocotyledonous plant

são apresentados métodos para aumentar o rendimento de uma planta monocotiledônea através do tratamento da planta com um regulador de crescimento vegetal. em certas modalidades, as plantas de milho produzem múltiplas espigas e um aumento no número de grãos. em certas modalidades, a altura reduzida da planta permite uma autopolinização mais eficiente. Methods for increasing the yield of a monocotyledonous plant by treating the plant with a plant growth regulator are presented. In certain embodiments, maize plants produce multiple spikes and an increase in the number of grains. In certain embodiments, the reduced plant height allows for more efficient self-pollination.

Sterile mutant and two line breeding system

Disclosed herein are nuclear male sterile sorghum mutants, three-component genetic constructs, and methods of using said mutants and genetic constructs, such as in a two-line male sterility system for hybrid breeding.

constructs for transgene expression using panicum ubiquitin gene regulatory elements

construtos para expressão de transgenes usando elementos reguladores de genes de ubiquitina de panicum. são fornecidos construtos e métodos para expressão de um transgene em células de plantas e/ou tecidos de plantas usando os elementos reguladores, incluindo promotores e/ou 3'-utrs, isolados de genes de ubiquitina de panicum virgatum. constructs for transgene expression using panicum ubiquitin gene regulatory elements. Constructs and methods for expressing a transgene in plant cells and / or plant tissues using the regulatory elements, including promoters and / or 3'-utrs, isolated from panicum virgatum ubiquitin genes are provided.

MARKERS AND SITE OF CYTOPLASMATIC MALE-STERILITY OF SORGHUM

marcadores e loci de macho-esterilidade citoplasmática de sorgo. trata-se de vários métodos e composições para identificar e/ou selecionar uma planta de sorgo ou germoplasma com ou sem uma característica de macho- esterilidade citoplasmática (cms). em determinadas concretizações, o método compreende detectar pelo menos um alelo dentre um ou mais loci marcadores dentro de um qtl, ou ligado ao qtl, associados à cms. em concretizações adicionais, o método compreende cruzar uma planta de sorgo selecionada com uma planta progenitora de sorgo recorrente e selecionar a progênie com cms. sorghum cytoplasmic male-sterility markers and loci. these are various methods and compositions to identify and / or select a sorghum or germplasm plant with or without a cytoplasmic male-sterility (cms) characteristic. in certain embodiments, the method comprises detecting at least one allele among one or more marker loci within a qtl, or linked to qtl, associated with cms. in additional embodiments, the method comprises crossing a selected sorghum plant with a recurrent sorghum parent plant and selecting the progeny with cms.

Hppd inhibitor herbicide tolerant plant

The present invention relates to an amino acid sequence having Seq ID No.3, comprising a mutation from a Tryptophane to Serine residue at position 445. The invention further relates to a nucleic acid encoding the said amino acid sequence, in particular the nucleic acid of claim 2, comprising Seq ID No. 1. The said nucleic acid provides resistance or tolerance to an HPPD herbicide in a plant or seed, in particular a sorghum plant or seed. The nucleic acid is in particular present in a non-HPPD gene located on chromosome 3 of the plant. The invention further provides a method of determining the presence or absence of a mutation on chromosome 3 of a plant with HPPD herbicide tolerance or resistance comprising providing a nucleic acid sample from a plant; amplifying a region comprising the mutation on chromosome 3 present in said nucleic acid sample from a plant using primers; and identifying a herbicide-resistant plant based on the presence of at least one mutation on chromosome 3 in the amplified nucleic acid sample. The invention also relates to plants comprising the mutation and to a method of controlling weeds in the vicinity of the herbicide tolerant or resistant plant.

Graft-mediated hybridisation of monocotyledonous plants

The invention relates to the production of graft-mediated hybrid monocotyledonous plants. Methods for the production of such plants are disclosed herein.

Procedimientos para crear plantas doble haploides

Se proporcionan métodos para aumentar la eficiencia de la creación de plantas haploides dobles aumentando el número de posibilidades de formar una semilla haploide doble mediante el tratamiento de una planta monocotiledónea con un regulador del crecimiento vegetal. En determinadas realizaciones, se producen plantas de maíz que comprenden múltiples mazorcas codominantes. También se proporcionan plantas que comprenden el potencial de generar un mayor número de descendencia haploide duplicada. (Traducción automática con Google Translate, sin valor legal)

Multi-ear system to enhance monocot plant yield

Provided are methods for increasing the yield of a monocot plant through treatment of the plant with a plant growth regulator. In certain embodiments, maize plants produce multiple ears and an increased number of kernels. In certain embodiments, reduced height of the plant allows for more efficient self-pollination.

Multi-ear system to enhance monocot plant yield

Provided are methods for increasing the yield of a monocot plant through treatment of the plant with a plant growth regulator. In certain embodiments, maize plants produce multiple ears and an increased number of kernels. In certain embodiments, reduced height of the plant allows for more efficient self-pollination.

Modified plants and seeds with enhanced physiological performance and environmental stress resistance

Embodiments of the present disclosure pertain to methods of enhancing a physiological performance or environmental stress resistance of a plant or seed by exposing the plant or seed to a composition that includes ethanol, acetic acid, or combinations thereof. Additional embodiments of the present disclosure pertain to modified plants or seeds that demonstrate enhanced physiological performance, enhanced environmental stress resistance, or combinations thereof. In some embodiments, the modified plants or seeds are formed by exposing the plants or seeds to a composition of the present disclosure. In some embodiments, the enhanced physiological performance or environmental stress resistance may occur through inheritable epigenetic modifications in the plant or seed.

Sistema de producción de haploides doble de sorgo.

Se proporcionan métodos y composiciones útiles en fitomejoramiento de sorgo. Se proporcionan métodos para producir embriones de sorgo haploides, plantas, semillas, y partes de la planta. Los embriones haploides de sorgo producidos pueden duplicarse para producir embriones, plantas, semillas y partes de plantas haploides duplicados como parte de un programa de fitomejoramiento de sorgo.

Genetic mutations that disrupt dhurrin production in sorghum

Embodiments of the present invention relate generally to new forage crops and methods of creating new forage crops. For example, chemical mutagenesis is used to create mutant crops having desirable forage characteristics. In some embodiments, a mutant sorghum plant is produced by inducing mutagenesis; producing a population of mutant sorghum plants using the treated reproductive portion; assaying the population of mutant sorghum for a C493Y mutation in CYP79A1; and growing the mutant sorghum plant, wherein the mutant sorghum plant exhibits altered dhurrin content or catabolism as compared to a control sorghum plant.

Genetic mutations that disrupt dhurrin production in sorghum

Embodiments of the present invention relate generally to new forage crops and methods of creating new forage crops. For example, chemical mutagenesis is used to create mutant crops having desirable forage characteristics. In some embodiments, a mutant sorghum plant is produced by inducing mutagenesis; producing a population of mutant sorghum plants using the treated reproductive portion; assaying the population of mutant sorghum for a C493Y mutation in CYP79A1; and growing the mutant sorghum plant, wherein the mutant sorghum plant exhibits altered dhurrin content or catabolism as compared to a control sorghum plant.

Plants and seeds of sorghum variety GSV616359

The invention relates to the sorghum variety designated GSV616359. Provided by the invention are the seeds, plants and derivatives of the sorghum variety GSV616359. Also provided by the invention are tissue cultures of the sorghum variety GSV616359 and the plants regenerated therefrom. Still further provided by the invention are methods for producing sorghum plants by crossing the sorghum variety GSV616359 with itself or another sorghum variety and plants produced by such methods.

Plants and seeds of sorghum variety GSV206860

According to the invention, there is provided plants and plant parts of the variety designated GSV206860. The invention also relates to methods for using a GSV206860 plant to produce various plants and plant parts.

Plants and seeds of sorghum variety GSV674558

The invention relates to the sorghum variety designated GSV674558. Provided by the invention are the seeds, plants and derivatives of the sorghum variety GSV674558. Also provided by the invention are tissue cultures of the sorghum variety GSV674558 and the plants regenerated therefrom. Still further provided by the invention are methods for producing sorghum plants by crossing the sorghum variety GSV674558 with itself or another sorghum variety and plants produced by such methods.

Sorghum inbred pharolyke

A novel sorghum variety designated PHAROLYKE and seed, plants and plant parts thereof. Methods for producing a plant that comprise crossing sorghum variety PHAROLYKE with another plant. Methods for producing a plant containing in its genetic material one or more traits introgressed into PHAROLYKE through backcross conversion and/or transformation, and to the sorghum seed, plant and plant part produced thereby. Hybrid sorghum seed, plant or plant part produced by crossing the sorghum variety PHAROLYKE or a locus conversion of PHAROLYKE with another sorghum variety.