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List of Potato Varieties Not Subject to Plant Variety Rights Or Maintained

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List of Potato Varieties Not Subject to Plant Variety Rights Or Maintained List of potato varieties not subject to Plant Variety rights or maintained on behalf of an individual or Company held in the SASA Nuclear collection 2020 (held as In vitro stocks) 2573 2 Delcora King Edward Red Craigs Royal Aberdeen Favourite Deodara Kingston Red Duke of York Achievement Desiree Kirrie Red King Edward Adams Apple Di Vernon Krantz Red Pontiac Adirondack Dobbies Asset Langworthy Red Ulster Premier Alpha Dominion Lord Rosebery Redskin America Doon Eire Lumpers Rhoderick Dhu Argyll Favourite Doon Pearl Magnificent (1918) Robijn Arran Banner Doon Star Magnum Bonum Rocks (<1856) Arran Bard Dr McIntosh Maine chip Roseval Arran Cairn Draga Majestic Roslin Mount Kenya Arran Comet Drummond Castle Maris Bard Royal Kidney Arran Comrade Duke of Kent Maris Page Rural New Yorker Arran Consul Duke of York Maris Peer Russet Burbank UK Arran Peak Dunbar Cavalier Maris Piper Ryecroft Purple Arran Pilot Dunbar Rover Marquis of Bute Salad Blue Arran Rose Dunbar Standard Maud Meg Salad Red Arran Victory Dunbar Yeoman Mauve Queen Saphir Asparges Dunluce May Queen Saturna Astarte Early Pink Champion Meins Early Round Sefton Wonder Atlantic Early Rose Mila Sequoia Aura Eden (SCRI) Miriam Shamrock Ballydoon Edgecote Purple Mr Bresee Sharpes Express Bamberger Hornchen Edzell Blue Myatts Ashleaf Sheriff Beauty of Bute Eigenheimer Ninetyfold Sherine Belle de Fontenay Epicure Nikita Shetland Ben Cruachan Erntestolz Northern Star Shetland Black BF 15 Escort Old Long Red Sieglinde Bintje Etoile du Nord Orion Skerry Blue Bishop Evergood Orkney Black Snowden Black Bishop Flourball Patersons Victoria Solanda Black Castle Foremost Pawnee Stormont Enterprise Black Knight Fortyfold Peachbloom Suncrisp Blanka Foxton Peerless Tayside Blue Congo (NGB) Gladstone Pentland Beauty Tinwald Perfection Blue Kestrel Glen Clova Pentland Crown Tomensa Blue Peter Gloria Pentland Dell Toolangi Delight Bonnie Dundee Golden Wonder Pentland Hawk Torridon British Queen Heather Pentland Ivory Ulster Chieftain Brodick Herd Laddie Pentland Javelin Ulster Classic Buchan Beauty Hermes Pentland Lustre Ulster Concord Bute Blues Highland Burgundy Pentland Marble Ulster Leader Cardinal Red Pentland Meteor Ulster Premier Catriona Home Guard Pentland Squire Ulster Prince Centifolia Imandra Pimpernel Ulster Sceptre Champion 1876 Incomer Pink Duke of York Ulster Sovereign Charlotte International Kidney Pink Fir Apple Up to Date Chieftain Invincible Primura Van der Plank Chipeta Iris Prizetaker Vanessa Claymore Jaerla Producent Venus Clauster Jashimi warmi Puca quitisch Vitelotte Collessie John Bull Puritan Webbs Pride Congo Kaimes Beauty Purple eyed seedling Witchhill Craigneil Karolin Raeburn Gregor Cups Yam Craigs Alliance Kennebec Ranfurly Red Yana Pituwaya Crusader Kepplestone Kidney Ranger Russet Yetholm Gypsy Defender Kerrs Pink Record Yukon Gold .
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  • A Cellulose Binding Domain Protein Restores Female Fertility When Expressed in Transgenic Bintje Potato Richard W
    Jones and Perez BMC Res Notes (2016) 9:176 DOI 10.1186/s13104-016-1978-6 BMC Research Notes RESEARCH ARTICLE Open Access A cellulose binding domain protein restores female fertility when expressed in transgenic Bintje potato Richard W. Jones* and Frances G. Perez Abstract Background: Expression of a gene encoding the family 1 cellulose binding domain protein CBD1, identified in the cellulosic cell wall of the potato late blight pathogen Phytophthora infestans, was tested in transgenic potato to deter- mine if it had an influence on plant cell walls and resistance to late blight. Results: Multiple regenerants of potato (cv. Bintje) were developed and selected for high expression of CBD 1 transcripts. Tests with detached leaflets showed no evidence of increased or decreased resistance to P. infestans, in comparison with the blight susceptible Bintje controls, however, changes in plant morphology were evident in CBD 1 transgenics. Plant height increases were evident, and most importantly, the ability to produce seed berries from a previously sterile cultivar. Immunolocalization of CBD 1 in seed berries revealed the presence throughout the tissue. While Bintje control plants are male and female sterile, CBD 1 transgenics were female fertile. Crosses made using pol- len from the late blight resistant Sarpo Mira and transgenic CBD1 Bintje as the female parent demonstrated the ability to introgress P. infestans targeted resistance genes, as well as genes responsible for color and tuber shape, into Bintje germplasm. Conclusions: A family 1 cellulose-binding domain (CBD 1) encoding gene from the potato late blight pathogen P. infestans was used to develop transgenic Bintje potato plants.
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  • Maintenance of the National Public in Vitro Potato Collection
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  • Identifying Novel Diagnostic SNP Markers for Potato (Solanum Tuberosum L.) Tuber Starch and Yield by Association Mapping
    Identifying novel diagnostic SNP markers for potato (Solanum tuberosum L.) tuber starch and yield by association mapping Inaugural-Dissertation zur Erlangung des Doktorgrades der Mathematisch-Naturwissenschaftlichen Fakult¨at der Universit¨atzu K¨oln vorgelegt von Elske Maria Sch¨onhals aus Kirchheimbolanden K¨oln,2014 Die vorliegende Arbeit wurde am Max-Planck-Institut f¨ur Pflanzenz¨uchtungsforschung in der Abteilung f¨urPflanzenz¨uchtung und Genetik (Direktor Prof. Dr. Maarten Koornneef) angefertigt. Berichterstatter PD Dr. Christane Gebhardt (Gutachter) Prof. Dr. Martin H¨ulskamp Tag der m¨undlichen Pr¨ufung 28.05.2014 Science cannot solve the ultimate mystery of nature. And that is because, in the last analysis, we ourselves are part of nature and therefore part of the mystery that we are trying to solve. Max Planck (1932) Abstract The starch of potato (Solanum tuberosum L.) tubers is a renewable resource and an im- portant component of multiple food and non-food products. Optimized starch yield, the product of tuber starch content and tuber yield, is therefore the central selection criterion in breeding programs for starch potatoes. The aim of this work was the detection of di- agnostic single nucleotide polymorphism (SNP) markers for starch yield optimization by marker-assisted selection. A novel association mapping population of 282 potato genotypes formed the basis of this thesis. Within a collaborative project with breeders, this population was assembled and phenotyped in replicated field trials in Northern Spain for the starch yield determining traits tuber starch content, tuber yield, weight and number. The population was geno- typed for known diagnostic PCR markers, SSR markers and novel SNPs in candidate genes, which were reported in the literature to have a function in starch or yield accumulation in potato or other organisms.
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  • Pest Management Strategic Plan for Organic Potato Production in the West
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  • 1212 Regeneration and Agrobacterium-Mediated Transformation of Three Potato Cultivars (Solanum Tuberosum Cv. Desiree, Agria
    AJCS 6(7):1212-1220 (2012) ISSN:1835-2707 Regeneration and Agrobacterium -mediated transformation of three potato cultivars (Solanum tuberosum cv. Desiree, Agria and Marfona) by human proinsulin gene Kimia Kashani 1, Mokhtar Jalali Javaran 1* , Mehdi Mohebodini 2, Ahmad Moieni 1, Maryam Sheikhi Deh Abadi 1 1Department of Plant Breeding and Biotechnology, Faculty of Agriculture, Tarbiat Modares University, Tehran, Iran 2Department of Horticulture Science, Faculty of Agriculture, University of Mohaghegh Ardabili, Iran * Corresponding author: [email protected] Abstract It is expected that the increasing outbreaks of diabetes mellitus along with introducing alternative of present insulin consumption methods, will result in increasing the demand of such a drug in future. Plant systems have high potential to produce safe, economical, inexpensive and large-scale biopharmaceuticals and potato is one of the most important bioreactors, globally. Most Agrobacterium - mediated transformation procedures referred to in the literatures have proven to be inefficient for the transformation of Agria and Marfona potato cultivars. In this study a novel one- step method was demonstrated for the transformation of the internodal explants of these cultivars. Using this method, human proinsulin gene was expressed in the transgenic potato plants. In this research, the DNA sequence of Immunoglobulin G binding protein taken from Staphylococcus aureus was infused to the human proinsulin gene and this construct was then transferred to the nuclear genome of potato via Agrobacterium -mediated transformation. Assessment of the transgenic plants was carried out in 3 levels of DNA, RNA and protein. Gel analysis of the PCR and RT-PCR products showed a single 500 bp band in the transgenic potato lines.
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  • International Union for the Protection of New Varieties of Plants Geneva
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  • Seed Potatoes You Would Like to Request from the Plant Materials Center (PMC) to Plant on Your Farm in 2020
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  • Report of a Working Group on Potato: First Meeting, 23-25 March 2000
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  • Best Practice Document for the Coexistence of Genetically Modified
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  • Potatoes in the Home Garden
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