О. А. Орловская scite author profile

О. А. Орловская

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Institute of Genetics and Cytology of the National Academy of Sciences of Belarus

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Grain quality in bread wheat lines T. aestivum with introgression of genetic material T. dicoccoides and T. dicoccum

et al. 2019

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Related wild and cultural wheat species are regularly involved for expanding T. aestivum genetic diversity because they contain many valuable genes. We evaluated the effect of the genetic material of tetraploid species of the genus Triticum (T. dicoccoides, T. dicoccum) on the grain quality of introgression lines of spring bread wheat. The composition of the high molecular weight glutenin subunits which play an essential role in the formation of wheat baking properties was identified in the introgression lines of bread wheat and their parental forms. The traits of grain quality (hardness, protein and gluten content, gluten quality) were also evaluated. The lines with Glu-1 loci alleles from wheat relatives T. dicoccoides and Т. dicoccum were selected. It was found that the introgression of alien genetic material into the common wheat genome had a positive effect on the parameters of grain quality such as hardness, protein and gluten content. The lines with Glu-A1 loci alleles from T. dicoccoides and Glu-B1 from T. dicoccum were at the level of a parent wheat variety or of a higher gluten quality. As a result of the research, the new lines of bread soft wheat with high grain quality were found and can be used in the crop breeding.

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Molecular-cytogenetic analysis of triticale and wheat lines with introgressions of the tribe Triticeae species genetic material

Орловская¹,

Леонова²,

Адонина³

et al. 2015

Vestn. VOGiS

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2 institute of cytology and Genetics SB rAS�� novosibirs�� russiaThere are a number of �roblems in selection of cultivated cereals associated with the requirements to create forms with resistance to diseases�� ests and unfavorable environmental conditions. The genetic diversity of genes for resistance to biotic and abiotic stresses can be increased by means of the gene �ool of wild and cultivated wheat relatives. To im�rove agronomic traits in cereals�� we have develo�ed common wheat hybrid lines T. aestivum / T. durum�� T. aestivum / T. dicoccoides and triticale lines by crossing hexa�loid triticale with common wheat forms with the substitution of genome D for the genome of di�loid Aegilops s�ecies. The aim of the study was to identify the lines of common wheat and hexa�loid triticale with alien introgression using cytological and molecular-genetic analyses and evaluation of their cytological stability. com�arative analysis of the structure of chromosomes by GiSH and FiSH methods�� microsatellite-and chromosome-s�ecific mar�ers revealed that hybridization of triticale with genome-substitution forms of wheat leads to the reorganization of the genome�� including both the introgression of foreign material and wheat chromosome rearrangements�� which lead to new combinations of genetic loci. The efficiency of wheat microsatellite mar�ers to characterize of the T. aestivum / T. durum�� T. aestivum / T. dicoccum inters�ecific hybrid lines was shown. From 4 to 12 translocations of different lengths from T. durum and T. dicoccum were identified in the chromosomes of A and В genomes in the hybrid lines. Meiotic stability of wheat and triticale hybrids was found. it creates В селекции кул��тивируемых злаков существует ряд про�лем�� связанных с нео�ходимост�� создания форм�� характеризу�щихся устой�ивост�� к �олезням�� вредителям и не�лагоприятным усло-виям внешней среды. Расширение генети�еского разноо�разия по генам устой�ивости к �иоти�еским и а�иоти�еским стрессам достигается за с�ет испол��зования генофонда диких и кул��турных сороди�ей мягкой пшеницы. Для улу�шения злаков по ряду хозяйственно ценных признаков методом отдаленной ги�риди-зации полу�ены ги�ридные линии мягкой пшеницы T. aestivum / T. durum и T. aestivum / T. dicoccoides�� а также линии тритикале от скрещивания сортов гексаплоидных тритикале с геномно-замещенными формами мягкой пшеницы�� у которых геном D замещен на геномы диплоидных эгилопсов. Цел�� исследования состояла в том�� то�ы с помощ�� цитологи�еского и молекулярно-генети�еского анализов выделит�� линии мягкой пшеницы и гексаплоидных тритикале с �ужеродными интрогрессиями и оценит�� их цитологи�еску� ста�ил��ност��. Испол��зование для генотипирования линий тритикале сравнител��ного анализа структуры хромосом методами GiSH и FiSH�� микросателлитных и хромосом-специфи�ных маркеров позволило установит�� то в процессе ги�ридизации тритикале с геномно-замещенными формами мягкой пшеницы происходит реорганизация генома�� вкл��а�щая как интрогресси� �ужеродного материала�� так и перестройки хро...

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Marker-assisted identification of maize genotypes with improved protein quality

Орловская¹,

Кубрак²,

Вакула³

et al. 2015

Vestn. VOGiS

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currently�� more than �0 % of maize is used for food and fodder; therefore�� grain quality im�rovement can increase its nutritive and energy value. Deficiency of two essential amino acids (lysine and try�to�han� significantly reduces the nutritional quality of maize �roteins. However�� in com�arison to conventional maize varieties�� opaque2 (o2� mutants have greater contents of lysine and try�to�han in their endos�erm �roteins and their bioavailability is better. The aim of the study was identification of maize accessions with high-quality �rotein. a collection of maize accessions of various ecogeogra�hical origins was studied by molecular methods. This a��roach was ex�ected to im�rove maize breeding efficiency. we collected 54 maize genoty�es differing in grain quality �erformance. am�lification with three s�ecific mar�ers to the opaque-2 gene (�hi05�� hi112 and umc1066� revealed homozygous recessive o2 genoty�es�� associated with im�roved nutritional quality of the �rotein. UrEa-PaG electro�horesis of zein �roteins was used for Quality Protein Maize (QPM� identification. in addition to the mutant o2 allele�� QPM contains genetic modifiers that convert starchy endos�erm of o2 mutant to the hard vitreous �henoty�e. The selected QPM accessions are of interest for maize breeding �rograms aimed at grain quality im�rovement. The use of the mar�ers to o2 and modifier genes accelerates the develo�ment of QPM varieties and significantly reduces the labor and financial costs of their �roduction.Key words�� maize; QPM genoty�e; SSr mar�ers; UrEaPaGE; zeins.В настоящее время �олее �0 % кукурузы испол��зуется для производства пищевых продуктов и кормов�� поэтому улу�шение ка�ественных показателей зерна может повысит�� пищеву� и энергети�еску� ценност�� данной кул��туры. Дефицит двух незаменимых аминокислот�� лизина и триптофана�� существенно снижает питател��ное ка�ество �елка кукурузы. Однако мутанты кукурузы opaque2 (o2� име�т увели�енное содержание лизина и триптофана в �елке эндосперма по сравнени� с традиционными сортами�� то повышает �иологи�еску� ценност�� кукурузного �елка. Цел�� исследования -выявление о�разцов с высоким ка�еством �елка в коллекции кукурузы разли�ного эколого-географи�еского происхождения с испол��зованием молекулярно-генети�еских методов для повышения эффективности селекции данной кул��туры. Создана коллекция из 54 генотипов кукурузы с разли�ными ка�ественными показателями зерна. С помощ�� трех специфи�еских маркеров к гену оpaque-2 (�hi 05�� hi 112 и umc 1066� выявлены генотипы кукурузы�� гомозиготные по рецессивному аллел� o2�� который связан с улу�шенными питател��ными свойствами �елка. Электрофорети�еский анализ зеинов позволил ото�рат�� о�разцы Quality Protein Maize (QPM�� которые содержат наряду с мутантным аллелем о2 генети�еские модификаторы�� прео�разу�щие крахмал��ный эндосперм o2-мутанта в твердый�� стекловидный фенотип. Выделенные в резул��тате исследования QPM-о�разцы представля�т интерес для селекционных программ кукурузы�� направленных на повышение ка�ества зерна. �рименение...

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ОЦЕНКА ПРИЗНАКОВ ПРОДУКТИВНОСТИ У ИНТРОГРЕССИВНЫХ ЛИНИЙ Triticum aestivum/T. timopheevii В РАЗЛИЧНЫХ ЭКОЛОГИЧЕСКИХ УСЛОВИЯХ

ВАКУЛА¹,

Орловская²,

Хотылева³

et al. 2018

S-h. biol.

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Effect of GPC-B1 Gene Allele State on Adaptation of Triticum Dicoccoides and Triticum Aestivum Plants to Zinc Deficiency

Kaznina¹,

Батова²,

Ignatenko³

et al. 2020

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