Nomenclatural standards and genetic passports of potato cultivars bred by the Kamchatka Research Institute of Agriculture and the Federal Scientific Center of Agricultural Biotechnology of the Far East named after A.K. Chaika

Nomenclatural standards of five potato cultivars ‘Vulkan’ (WIR-108746), ‘Gejzer’ (WIR-108747), ‘Kamčatka’ (WIR-108748), ‘Severânin’ (WIR-108749), and ‘Solnyško’ (WIR-108750) bred by the Kamchatka Research Institute of Agriculture (currently a branch of VIR), and six potato cultivars ‘Dačnyj’ (WIR-108751), ‘Kazačok’ (WIR-108752), ‘Morâk’ (WIR-108753), ‘Orion’ (WIR-108755), ‘Posejdon’ (WIR-108756), and ‘Smak’ (WIR-108754) bred by the Federal Scientific Center of Agricultural Biotechnology of the Far East named after A.K. Chaika, were prepared within the framework of the comprehensive program initiated at the All-Russian Institute of Plant Genetic Resources (VIR) for registering the gene pool of Russian cultivars and preserving them in the institute’s gene bank. Plant material of the cultivars collected by the authors and transferred to VIR for herbarization was also used for DNA extraction, genetic certification, selection of explants and introducing them into the in vitro culture. Genetic passports of 11 cultivars have been developed using eight microsatellite markers and 15 markers associated with R-genes of resistance to various pests. A comparison of microsatellite profiles of nomenclatural standards and accessions of the same name from the VIR in vitro collection confirmed their identity.

1. Ahmadvand R., Wolf I., Gorji A.M., Polgár Z., Taller J. Development of molecular tools for distinguishing between the highly similar Rx1 and Rx2 PVX extreme resistance genes in tetraploid potato. Potato Research. 2013;56(4):277-291. DOI: 10.1007/s11540-013-9244-y

2. Alexeeva N.B., Chukhina I.G. Nomenclatural standards of iris cultivars bred at the Peter the Great Botanical Garden of the V.L. Komarov Botanical Institute of RAS. Vavilovia. 2024;7(1):3-9. [in Russian]. DOI: 10.30901/2658-3860-2024-1-o3

3. Antonova O.Y., Klimenko N.S., Evdokimova Z.Z., Kostina L.I., Gavrilenko T.A. Finding RB/Rpi-blb1/Rpi-sto1-like sequences in conventionally bred potato varieties. Vavilov Journal of Genetics and Breeding. 2018;22(6):693-702. DOI: 10.18699/VJ18.412

4. Antonova O.Yu., Klimenko N.S., Rybakov D.А., Fomina N.А., Zheltova V.V., Novikova L.Yu., Gavrilenko T.А. SSR analysis of modern Russian potato varieties using DNA samples of nomenclatural standards. Plant Biotechnology and Breeding. 2020;3(4):77-96. [in Russian]. DOI: 10.30901/2658-6266-2020-4-o2

5. Asano K., Kobayashi A., Tsuda S., Nishinaka M., Tamiya S. DNA marker-assisted evaluation of potato genotypes for potential resistance to potato cyst nematode pathotypes not yet invading into Japan. Breeding Science. 2012;62(2):142-150. DOI: 10.1270/jsbbs.62.142

6. Bagmet L.V., Shlyavas A.V. Nomenclatural standards of apple cultivars bred at the Pavlovsk experiment station of VIR. Vavilovia. 2021;4(1):3-24. [in Russian]. DOI: 10.30901/2658-3860-2021-1-3-24

7. Bagmet L.V., Tarasova G.N. Nomenclatural standards of pear varieties bred by Sverdlovsk Horticultural Breeding Station. Agricultural Science Euro-North-East. 2023;24(2):201-213. [in Russian]. DOI: 2072-9081.2023.24.2.201-213

8. Bagmet L.V., Tikhonova N.G. Nomenclature standards of honeysuckle varieties selected by the Pavlovsk Experimental Station of the Vavilov All-Russian Institute of Plant Genetic Resources. Horticulture and viticulture. 2023;(4):5-13. [in Russian]. DOI: 0235-2591-2023-4-5-13

9. Ballvora A., Ercolano M.R., Weiss J., Meksem K., Bormann C.A., Oberhagemann P., Salamini F., Gebhardt C. The R1 gene for potato resistance to late blight (Phytophthora infestans) belongs to the leucine zipper/NBS/LRR class of plant resistance genes. The Plant Journal. 2002;30(3):361-371. DOI: 10.1046/j.1365-313X.2001.01292.x

10. Belozor N.I. Herbarization of cultivated plants: (guidelines) (Gerbarizatsiya kulturnykh rastenii: (metodicheskie ukazaniya)). Leningrad: VIR; 1989. [in Russian]

11. Bhardwaj V., Kumar A., Sharma S., Singh B., Poonam, Sood S., Dipta B., Singh S., Siddappa S., Thakur A.K., Dalamu D., Sharma A.K., Kumar V., Lal M., Kumar D. Analysis of genetic diversity, population structure and association mapping for late blight resistance in potato (Solanum tuberosum L.) accessions using SSR markers. Agronomy. 2023;13(2):294. DOI: 10.3390/agronomy13020294

12. Brickell C.D., Alexander C., Cubey J.J., David J.C., Hoffman M.H.A., Leslie A.C., Malécot V., Jin X. (eds). International code of nomenclature for cultivated plants. Ed. 9. Scripta Horticulturae. 2016;18:I-XVII+1-190.

13. Bryan G.J, McNicoll J., Ramsay G., Meyer R.C., De Jong W.S. Polymorphic simple sequences repeat markers in chloroplast genomes of Solanaceous plants. Theoretical and Applied Genetics. 1999;99(5):859-867. DOI: 10.1007/s001220051306

14. Chayka A.K., Vashchenko E.P. Agrarian science in Primorye (XX-XXI centuries) (Agrarnaya nauka v Primorye (XX–XXI vv.). A.K. Novoselov (ed.). Vladivostok: Reya; 2017. [in Russian]

15. Colton L.M., Groza H.I., Wielgus S.M., Jiang J. Marker-assisted selection for the broad-spectrum potato late blight resistance conferred by gene RB derived from a wild potato species. Crop Science. 2006;46(2):589-594. DOI: 10.2135/cropsci2005.0112

16. Dionne L.A. Cytoplasmic sterility in derivatives of Solanum demissum. American Potato Journal. 1961;38(4):117-120. DOI: 10.1007/ BF02870217

17. Dunaeva S.E., Pendinen G.I., Antonova O.Yu., Shvachko N.A., Ukhatova Yu.V., Shuvalova L.E., Volkova N.N., Gavrilenko T.A. Preservation of vegetatively propagated crops in in vitro and cryocollections: methodological guidelines (Sokhraneniye vegetativno razmnozhayemykh kultur v in vitro- i kriokollektsiyakh: metodicheskiye ukazaniya). T.A. Gavrilenko (ed.). 2nd ed. St. Petersburg: VIR; 2017. [in Russian]

18. Efremova O.S., Volkova N.N., Rybakov D.А., Lisitsyna O.V., Ozerski P.V., Gavrilenko T.A. Development of the potato cryocollection preserved in the VIR cryobank. Proceedings on Applied Botany, Genetics and Breeding. 2023;184(3):9-20. [in Russian]. DOI: 10.30901/2227-8834-2023-3- 9-20

19. Ershova L.A., Varganova I.V., Lebedeva N.V. Nomenclatural standard of barley cultivar ‘Talovsky 9’. Vavilovia. 2023;6(3):15-21. [in Russian]. DOI: 2658-3860-2023-3-o1

20. Evdokimenko S.N., Каmnev A.M., Podgaetskiy M.A., Burmenko Yu.V., Chukhina I.G. Nomenclature standards for raspberry breeding varieties of the Federal Scientific Breeding and Technological Center for Horticulture and Plant Nursery. Horticulture and viticulture. 2023;(4):14-24. [in Russian]. DOI: 0235-2591-2023-4-14-24

21. Feingold S., Lloyd J., Norero N., Bonierbale M., Lorenzen J. Mapping and characterization of new EST-derived microsatellites for potato (Solanum tuberosum L.). Theoretical and Applied Genetics. 2005;111(3):456-466. DOI: 10.1007/s00122-005-2028-2

22. Finkers-Tomczak A., Bakker E., de Boer J., van der Vossen E., Achenbach U., Goals T., Suryaningrat S., Smant G., Bakker J., Goverse A. Comparative sequence analysis of the potato cyst nematode resistance locus H1 reveals a major lack of co-linearity between three haplotypes in potato (Solanum tuberosum ssp.). Theoretical and Applied Genetics. 2011;122(3):595-608. DOI: 10.1007/s00122-010-1472-9.

23. Fisenko P., Sobko O., Kim I., Matsishina N., Volkov D. Screening of Potato Cultivars (Solanum tuberosum L.) and Identification of Markers of Fesistance Genes to PVX, PVY, Globodera pallida and Globodera rostochiensis. In: Muratov, A., Ignateva, S. (eds) Fundamental and Applied Scientific Research in the Development of Agriculture in the Far East. Agricultural Innovation Systems, Vol. 1. Lecture Notes in Networks and Systems. International Scientific Conference AFE-2021. Ussuriysk: Springer, Cham. 2022;353:1-8. DOI: 10.1007/978-3-030-91402-8_1

24. Fisenko P.V., Matsishina N.V., Popova Yu.S., Volkov D.I., Khoruzheva T.I., Ermak M.V., Sobko O.A. Study of the structure of potato varieties to Phytophtora infestans (Mont.) de Bary, Synchytrium endobioticum (Schilb.), Globodera pallida (Stone), Globodera rostochiensis (Wollenweber), PVY, PVX in Primorsky Krai. Agrarian science. 2023;374(9):126-132 [In Russian]. DOI: 10.32634/0869-8155-2023-374-9-126-132

25. Flis B., Hennig J., Strzelczyk-Zyta D., Gebhardt C., Marczewski W. The Ry-f sto gene from Solanum stoloniferum for extreme resistant to Potato virus Y maps to potato chromosome XII and is diagnosed by PCR marker GP122718 in PVY resistant potato cultivars. Molecular Breeding. 2005;15(1):95-101. DOI: 10.1007/s11032-004-2736-3

26. Fomina N.A., Antonova O.Yu., Chukhina I.G., Gimaeva E.A., Stashevski Z., Gavrilenko T.A. Nomenclatural standards and genetic passports of potato cultivars bred by the Tatar Research Institute of Agriculture “Kazan Scientific Center of the Russian Academy of Sciences”. Plant Biotechnology and Breeding. 2020a;3(3):55-67. [in Russian]. DOI: 10.30901/2658-6266-2020-3-o4

27. Fomina N.A., Antonova O.Yu., Chukhina I.G., Rybakov D.A., Safonova A.D., Meleshin A.A., Gavrilenko T.A. Nomenclatural standards, voucher specimens and genetic passports of potato cultivars created in the Siberian and Ural breeding centers. Plant Biotechnology and Breeding. 2020b;3(4):53-76. [in Russian]. DOI: 10.30901/2658-6266-2020-4-o3

28. Gavrilenko T.A., Chukhina I.G. Nomenclatural standards of modern Russian potato cultivars preserved at the VIR herbarium (WIR): A new approach to cultivar genepool registration in a genebank. Plant Biotechnology and Breeding. 2020;3(3):6-17. [in Russian]. DOI: 10.30901/2658-6266-2020-3-o2

29. Gavrilenko T.A., Dunaeva S.E., Tikhonova O.A., Chukhina I.G. New approaches to registration and conservation of domestic cultivars of berry crops in the VIR Genebank on the example of red raspberry and black currant. Plant Biotechnology and Breeding. 2022;5(4):24-38. [in Russian]. DOI: 10.30901/2658-6266-2022-4-o5

30. Gavrilenko Т.А., Klimenko N.S., Alpatieva N.V., Kostina L.I., Lebedeva V.A., Evdokimova Z.Z., Apalikova O.V., Novikova L.Y., Antonova O.Yu. Cytoplasmic genetic diversity of potato varieties bred in Russia and FSU countries. Vavilov Journal of Genetics and Breeding. 2019;23(6):753-764. DOI 10.18699/VJ19.534

31. Gavrilenko Т.А., Klimenko N.S., Antonova O.Yu., Lebedeva V.A., Evdokimova Z.Z., Gadjiyev N.M., Apalikova O.V., Alpatyeva N.V., Kostina L.I., Zoteyeva N.M., Mamadbokirova F.T., Egorova K.V. Molecular screening of potato varieties bred in the northwestern zone of the Russian Federаtion. Vavilov Journal of Genetics and Breeding. 2018;22(1):35-45. [in Russian]. DOI: 10.18699/VJ18.329

32. Ghebreslassie B.M., Githiri S. M., Mehari T., Kasili R.W., Ghislain M., Magembe E. Genetic diversity assessment of farmers’ and improved potato (Solanum tuberosum) cultivars from Eritrea using simple sequence repeat (SSR) markers. African Journal of Biotechnology. 2016;15(35):1883-1891. DOI: 10.5897/AJB 2016.15237

33. Ghislain M., Nunez J., del Rosario Herrera M, Pignataro J., Guzman F., Bonierbale M., Spooner D.M. Robust and highly informative microsatellite-based genetic identity kit for potato. Molecular Breeding. 2009;23:377-388. DOI: 10.1007/s11032-008-9240-0

34. Hosaka K. Distribution of the 241 bp deletion of chloroplast DNA in wild potato species. American Journal of Potato Research. 2002;79(2):119-123. DOI: 10.1007/BF02881520

35. Hosaka K., Sanetomo R. Development of a rapid identification method for potato cytoplasm and its use for evaluating Japanese collections. Theoretical and Applied Genetics. 2012;125(6):1237-1251. DOI: 10.1007/s00122-012-1909-4

36. Huang S., van der Vossen E.A.G., Kuang H., Vleeshouwers V.G.A.A., Zhang N., Borm T.J.A., van Eck H.J., Baker B., Jacobsen E., Visser R.G.F. Comparative genomics enabled the isolation of the R3a late blight resistance gene in potato. The Plant Journal. 2005;42(2):251-261. DOI: 10.1111/j.1365-313X.2005.02365.x

37. Irikura Y. Studies on interspecific crosses of tuber-bearing Solanums. I. Overcoming cross-incompatibility between Solanum tuberosum and other Solanum species by means of induced polyploids and haploids. Research Bulletin. Hokkaido National Agricultural Experiment Station. 1968;92:21-37.

38. Ivanova-Pozdejeva A., Kivistik A., Kübarsepp L., Tähtjärv T., Tsahkna A., Droz E., Laanemets K. Fingerprinting of potato genotypes from Estonian Genebank collection using SSR markers. Potato Research. 2022;65:153-170. DOI: 10.1007/s11540-021-09514-z

39. Kamnev A.M., Yagovtseva N.D., Dunaeva S.E., Gavrilenko T.A., Chukhina I.G. Nomenclatural standards of raspberry cultivars bred in the Altai. Vavilovia. 2021;4(2):26-43. [in Russian]. DOI: 10.30901/2658-3860-2021-2-26-43

40. Kasai K., Morikawa Y., Sorri V.A., Valkonen J.P.T., Gebhardt C., Watanabe K.N. Development of SCAR markers to the PVY resistance gene Ryadg based on a common feature of plant disease resistance genes. Genome. 2000;43(1):1-8. DOI: 10.1139/g99-092

41. Kim I.V., Klykov A.G. Potential of potato as a bioresource in the Russian Far East. V.S. Serdyuk (ed.). Vladivostok: Dal-nauka; 2023. [in Russian]

42. Klimenko N.S., Antonova O.Yu., Kostina L.I., Mamadbokirova F.T., Gavrilenko T.A. Marker-associated selection of Russian potato varieties with using markers of resistance genes to the golden potato cyst nematode (pathotype Ro1). Proceedings on Applied Botany, Genetics and Breeding. 2017;178(4):71-79. [in Russian]. DOI: 10.30901/2227-8834-2017-4-66-75

43. Klimenko N.S., Gavrilenko T.A., Chukhina I.G., Gadzhiev N.M., Evdokimova Z.Z., Lebedeva V.A. Nomenclatural standards and genetic passports of potato cultivars bred at the Leningrad Research Institute for Agriculture “Belogorka”. Plant Biotechnology and Breeding. 2020;3(3):18-54. [in Russian]. DOI: 10.30901/2658-6266- 2020-3-o3

44. Klimenko N.S., Gavrilenko Т.A., Kostina L.I., Mamadbokirova F.Т., Antonova O.Yu. Search for resistance sources to Globodera pallida and potato virus X in the collection of potato varieties using molecular markers. Plant Biotechnology and Breeding. 2019;2(1):42-48. [in Russian]. DOI: 10.30901/2658-6266-2019-1-42-48

45. Lebedeva N.V., Fomina M.N., Ivanova Yu.S., Sharapova N.V., Varganova I.V. Nomenclatural standards of barley cultivars bred by the Scientific Research Institute of Agriculture for Northern Trans-Ural Region – Branch of the Tyumen Scientific Research Center SB RAS. Vavilovia. 2023;6(3):3-14. [in Russian]. DOI: 2658-3860-2023-3-o2

46. Lee K.-J., Sebastin R., Cho G.-T., Yoon M., Lee G.-A., Hyun D.-Y. Genetic diversity and population structure of potato germplasm in RDA-Genebank: utilization for breeding and conservation. Plants. 2021;10(4):752. DOI: 10.3390/ plants10040752

47. Lopez-Vizcón C., Ortega F. Detection of mislabelling in the fresh potato retail market employing microsatellite markers. Food Control. 2012;26(2):575-579. DOI: 10.1016/j.foodcont.2012.02.020

48. Lössl A., Götz M., Braun A., Wenzel G. Molecular markers for cytoplasm in potato: male sterility and contribution of different plastid-mitochondrial configurations to starch production. Euphytica. 2000;116(3):221-230. DOI: 10.1023/A:1004039320227

49. Milbourne D., Meyer R.C., Collins A.J., Ramsay L.D., Gebhardt C., Waugh R. Isolation, characterisation and mapping of simple sequence repeat loci in potato. Molecular and General Genetics. 1998;259:233-245. DOI: 10.1007/s004380050809

50. Mori K., Sakamoto Y., Mukojima N., Tamiya S., Naka T., Ishii T., Hosaka K. Development of a multiplex PCR method for simultaneous detection of diagnostic DNA markers of five disease and pest resistance genes in potato. Euphytica. 2011;180(3):347-355. DOI: 10.1007/s10681-011-0381-6

51. Oskina N.A., Rybakov D.А., Shanina E.P., Lisitsyna O.V., Chukhina I.G., Gavrilenko T.А. An integrated approach to the registration and preservation of a cultivar gene pool in the VIR genebank exemplified in cultivars bred by the Ural Federal Agrarian Research Center of the Ural Branch of the Russian Academy of Sciences. Plant Biotechnology and Breeding. 2023;6(2):5-26. [in Russian]. DOI: 10.30901/2658-6266-2023-2-o4

52. Patil V.U., Vanishree G., Saikia L., Bhardwaj V., Chakrabarti S.K. Genetic diversity of different late blight responsive Indian potato cultivars as revealed by SSR markers. Indian Journal of Genetics and Plant Breeding. 2020;80(2):221-225. DOI: 10.31742/IJGPB.80.2.15

53. Rahman S.U., Jamil S., Shahzad R., Yasmeen E., Sattar S., Iqbal M.Z. Genetic diversity and DNA fingerprinting of potato varieties using simple sequence repeat (SSR) markers. Journal of Animal & Plant Sciences. 2022;32(3):775-783. DOI: 10.36899/JAPS.2022.3.0479

54. Reid A., Hof L., Felix G., Ruecker B., Tams S., Milczynska E., Esselink D., Uenk G., Vosman B., Weitz A. Construction of an integrated microsatellite and key morphological characteristic database of potato varieties on the EU Common Catalogue. Euphytica. 2011;182:239-249. DOI: 10.1007/s10681-011-0462-6

55. Rybakov D.A., Cheremisin A.I., Antonova O.Yu., Chukhina I.G., Gavrilenko T.A. Nomenclatural standards and genetic passports of potato cultivars bred by the Omsk Agrarian Research Center. Plant Biotechnology and Breeding. 2022;5(4):6-23. [in Russian]. DOI: 10.30901/2658-6266-2022-4-o4

56. Rybakov D.А., Аntonova O.Yu., Chukhina I.G., Fomina N.А., Klimenko N.S., Zheltova V.V., Meleshin А.А., Kochieva E.Z., Oves E.V., Аpshev Kh.Kh., Simakov E.А., Gavrilenko T.А. Nomenclatural standards and genetic passports of potato cultivars bred in the A.G. Lorkh All-Russian Potato Research Institute of Potato Farming. Plant Biotechnology and Breeding. 2020;3(4):5-52. [in Russian]. DOI: 10.30901/2658-6266-2020-4-o1

57. Sanetomo R., Hosaka K.A. A maternally inherited DNA marker, descended from Solanum demissum (2n=6x=72) to S. tuberosum (2n=4x=48). Breeding Science. 2011;61(4):426-434. DOI: 10.1270/jsbbs.61.426

58. Schultz L., Cogan N.О.I., McLean K., Dale M.F.B., Bryan G.J., Forster J.N.W., Slater A.T. Evaluation and implementation of a potential diagnostic molecular marker for H1-conferred potato cyst nematode resistance in potato (Solanum tuberosum L.). Plant Breeding. 2012;131(2):315-321. DOI: 10.1111/j.1439-0523.2012.01949.x

59. Sherstyukova T.P., Gamolina M.L. Creation of highly productive potato varieties in Kamchatka Krai. Vestnik of Far Eastern Branch of Russian Academy of Sciences. 2016;2:92-94. [in Russian]

60. Sherstyukova T.P., Gamolina M.L. Severyanin – new nematode-resistant variety of potato. Far Eastern Agricultural Journal. 2019;1(49):27-31. [in Russian]. DOI: 10.24411/1999-6837-2019-11004

61. Simakov Ye.A., Yakovleva V.A., Abrosimova S.B., D'yachenko A.A., Biryukova V.A. How to assess potato resistance to Globodera rostochiensis? The Russian scale should be brought in line with the European one (Kak otsenivat' ustoichivost' kartofelya k Globodera rostochiensis? Rossiyskuyu shkalu pora privesti v sootvetstvie s evropeiskoy). Plant protection and quarantine. 2009;1:28-29. [in Russian]

62. Smoley V.Ya. The results of vegetable crop breeding in Primorsky Krai (Itogi selektsii ovoshchnykh kul'tur v Primorskom kraye). In: Breeding and seed production of agricultural plants in the Far East: materials of the first scientific and methodological meeting. on breeding and seed production of agricultural plants in the Far East (Selektsiya i semenovodstvo sel'skokhozyaystvennykh kul'tur na Dal'nem Vostoke: materialy pervogo nauchno-metodicheskogo soveshchaniya po selektsii i semenovodstvu sel'skokhozyaystvennykh rasteniy na Dal'nem Vostoke). Khabarovsk; 1970. p.181-187. [in Russian]

63. Song Y.-S., Schwarzfischer A. Development of STS markers for selection of extreme resistance (Rysto) to PVY and maternal pedigree analysis of extremely resistant cultivars. American Journal of Potato Research. 2008;85(2):159-170. DOI: 10.1007/s12230-008-9012-8

64. State Register for Selection Achievements Admitted for Usage (National List). Vol. 1. “Plant varieties” (official publication). Moscow: Ministry of Agriculture of Russia; Gossortkomissiya; 2024. [in Russian]

65. Takeuchi T., Sasaki J., Suzuki T., Horita H., Hiura S., Iketani S., Fujita R., Senda K. DNA markers for efficient selection of disease and pests resistance genes in potato [in Japanese]. Hokkaido Nogyo-Shiken-Kaigi-Shiryo 2008. 2009;1-26.

66. Tikhonova O.A., Shabliuk N.O., Gavrilenko T.A., Dunaeva S.E., Talovina G.V. Nomenclatural standards of black currant cultivars bred at VIR. Vavilovia. 2021;4(2):3-25. [in Russian]. DOI: 10.30901/2658-3860-2021-2-3-25

67. Valkonen J., Wiegmann K., Hämäläinen J., Marczewaski W., Watanabe K. Evidence for utility of the same PCR-based markers for selection of extreme resistance to Potato virus Y controlled by Rysto of Solanum stoloniferum derived from different sources. Annals of Applied Biology. 2008;152(1):121-130. DOI: 10.1111/j.1744-7348.2007.00194.x

68. Varganova I.V., Stolpivskaya E.V., Kosykh L.A., Lebedeva N.V. Nomenclatural standards of spring barley cultivars bred by the Volga Scientific Research Institute of Selection and Seed-Growing named after P.N. Konstantinov. Vavilovia. 2023;6(4):3-14. [in Russian]. DOI: 2658-3860-2023-4-o1

69. Wang M., Allefs A., van den Berg R.G., Vleeshouwers V.G.A.A., van der Vossen E., Vosman B. Allele mining in Solanum: conserved homologues of Rpi-blb1 are identified in Solanum stoloniferum. Theoretical and Applied Genetics. 2008;116(7):933-943. DOI: 10.1007/s00122-008-0725-3

70. Zaytseva N.D. Guide to identifying potato varieties (Rukovodstvo po opredeleniyu sortov kartofelya). L.V. Zelenetskaya (ed.). Moscow: Rosselkhozizdat; 1965. [in Russian]

71. Zaytseva N.D. Description of potato varieties that participated in the state variety testing (Opisaniye sortov kartofelya, uchastvovavshikh v gosudarstvennom sortoispytanii). Moscow: Selkhozgiz; 1935. (Works of the Research Institute of Potato Farming (Raboty nauchno-issledovatel'skogo instituta kartofel'nogo khozyaystva); iss. 7). [in Russian]

72. Zaytseva N.D., Filippov A.S. Potato variety identification guide with seed production basics (Opredelitel' sortov kartofelya s osnovami semenovodstva). T.S. Mikael'yan (ed.). Moscow: MSKh RSFSR; 1962. [in Russian]