Applications of biotechnology and genomics in potato improvement

Barrell, Philippa J.; Meiyalaghan, Sathiyamoorthy; Jacobs, Jeanne M. E.; Conner, A. J.

doi:10.1111/pbi.12099

Cited by 89 publications

(70 citation statements)

References 200 publications

(276 reference statements)

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“…The potato genome sequence (Potato Genome Sequencing Consortium, 2011) provides further means for genome-wide assays and tools for gene discovery and enables the development of marker haplotypes spanning QTL regions. They will probably be very useful in introgression breeding and a whole-genome approach such as genomic prediction for selection (Barrell et al 2013), thus improving the efficiency of selecting elite clones and enhancing genetic gain over time (Abera and Ortiz 2014). Recently, also the first genome of a tuber-producing wild potato species was published (Aversano et al 2015).…”

Section: Specific Breeding Toolsmentioning

confidence: 99%

Overview and Breeding Strategies of Table Potato Production in Sweden and the Fennoscandian Region

et al. 2016

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Recent reductions in the public commitment to potato breeding in Sweden, Norway and Finland call for an evaluation of the current situation regarding the commercial basis for, and structure of, potato breeding in these countries. We here review the extent of cultivation, processing and consumption of table potato in Sweden, as well as provide an overview of the potato breeding tools and programmes in the three countries. We then discuss various strategies to provide long-term stability and increase the impact of public potato breeding, based on the similar overall conditions for potato cultivation across the Fennoscandian region. The conclusions are twofold; first, an increased long-term funding of the public potato breeding programmes is necessary to maintain a minimum level of material, and second, a coordination of the breeding activities in the Fennoscandian region would be of great benefit to all involved stakeholders and allow an enhancement of the current national breeding programmes. In addition, we propose a minimum first field year population size for potato breeding.

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Section: Specific Breeding Toolsmentioning

confidence: 99%

Overview and Breeding Strategies of Table Potato Production in Sweden and the Fennoscandian Region

et al. 2016

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“…Методы биотехнологии растений (соматическая гибри-дизация, трансгенез, геномное редактирование) являются эффективными способами преодоления барьеров не-скрещиваемости, ускорения создания новых источников гермоплазмы картофеля, которые в дальнейшем можно вовлекать в селекционный процесс (Barrell et al, 2013;Andersson et al, 2017). В основе современных биотехно-логических методов лежит тотипотентность -уникальное свойство растительной клетки, способность реализовать генетическую информацию и развить целое растение в культуре in vitro из отдельного органа или же ткани (Бутенко, 1970).…”

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The Morphogenic Potential of Siberian Potato Cultivars in Tissue Cultures

Ibragimova¹,

Romanova²,

Мызгина³

et al. 2018

Vestn. VOGiS

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Potato is an important crop widely cultivated through out the world. It is prone to several pathogenic fungi, viruses, and bacteria, which cause severe economic loss every year. Recent advances in plant biotechnology have made it possible to produce resistant cultivars by plant genome editing. This approach allows crop modifications that would be difficult to obtain by con ventional breeding techniques. A successful and re producible plant system requires a responsive in vitro regeneration system. Three Siberian potato cultivarsKemerovchanin, Tuleevsky, and Sapho -and two con trol cultivars -Golubizna and Nikulinsky -were chosen for in vitro response tests. The stem explants were ex cised from in vitro grown plantlets. Their stem explants were incubated on Murashige&Skoog (MS) medium supplemented with 1 mg/L transzeatin, 0.1 mg/L IAA, and 10 mg/L GA 3 with vitamins (medium P1). All the stages of cultivation up to obtaining fullfledged rege nerant plants were carried out on medium P1. Every two weeks the explants were transferred to fresh nutri ent media. All cultivars formed calluses but differed in terms of callus formation and in callus type. With further cultivation on the medium of the same compo sition, morphogenesis was observed: shoots formed on wound surfaces of the stem explants. Cultivars Tu leevsky, Kemerovchanin, and Golubizna showed high regeneration ability (73-97.7 %), while that of Sapho (63 %) was poor. All the Siberian cultivars were variable with regard to their morphogenic potentials. Root for mation was observed in the shoots within 7 days on hormonefree MS. In the control (hormonefree medi um), stem explants of all cultivars did not form calluses or develop shoots on the wound surfaces. The protocol described here is simple and efficient. It can be applied to other potato cultivars.Кеу words: potato; Solanum tuberosum L.; cultivars; stem explants; regeneration in vitro; biotechnology; breeding.Картофель -одна из важнейших пищевых культур в мире, подвер жен поражению вирусами, грибами, бактериями, что снижает его урожайность и приносит большой экономический ущерб. Дости жения современной биотехнологии позволяют создавать устойчи вые сорта растений, для которых традиционные методы селекции затруднены, путем модификации их генома. Необходимы эффек тивные и воспроизводимые методики регенерации картофеля в культуре in vitro. Три сорта сибирской селекции Тулеевский, Кемеровчанин, Сафо и два контрольных сорта Голубизна и Нику линский использовали в работе в качестве модельных для оценки их морфогенетического потенциала в культуре in vitro. Экспланты стебля получали от растений, выращенных in vitro в пробирках. Стеблевые экспланты исследуемых сортов культивировали на основной среде Мурасиге-Скуга с добавлением 1 мг/л трансзеа тина, 0.1 мг/л индолилуксусной кислоты, 10 мг/л гиббереллина и витаминов (среда Р1). Все этапы культивирования, вплоть до получения полноценных растенийрегенерантов, проводили на среде Р1. Каждые две недели экспланты переносили на свежие питательные среды. Все сорта формировал...

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“…Новые горизонты открывает геномная селекция, опериру-ющая всей совокупностью полиморфизмов исследуемого генома (Barrell et al, 2013).…”

Section: место молекулярных маркеров в создании межвидовых гибридов кunclassified

Interspecific potato hybrids as donors of durable resistance to pathogens

Рогозина¹,

Хавкин²

2017

Vestn. VOGiS

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Applications of biotechnology and genomics in potato improvement

Cited by 89 publications

References 200 publications

Overview and Breeding Strategies of Table Potato Production in Sweden and the Fennoscandian Region

Overview and Breeding Strategies of Table Potato Production in Sweden and the Fennoscandian Region

The Morphogenic Potential of Siberian Potato Cultivars in Tissue Cultures

Interspecific potato hybrids as donors of durable resistance to pathogens

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