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Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco

Year 2024, , 865 - 879, 20.09.2024
https://doi.org/10.33462/jotaf.1278798

Abstract

Hybrid cultivars could be beneficial to achieve high leaf yields while maintaining good quality properties in oriental tobacco. Identification of parents constitutes a major part of a hybrid breeding program. The aim of the present study was to determine the relationship between the genetic distance of parents determined by simple sequence repeats (SSR) markers and heterosis levels in hybrids produced from those parents for leaf yield and quality properties in oriental tobacco. Twenty-one hybrids produced by half diallel crossing among seven tobacco genotypes used in oriental tobacco production in Turkey were grown along with their parents in three locations in 2012 and 2013. Twenty-nine SSR markers were used to determine genetic distances among seven tobacco genotypes. A total of 80 alleles were produced by all twenty-nine markers. Average number of observed alleles per polymorphic marker was 2.96. Twenty-seven of 80 alleles were observed in only one of the seven parents. The polymorphic information content of markers varied from 0.215 to 0.810 (average 0.480). Mid-parent heterosis levels ranged from 18.03 to 42.00% for leaf number, between -19.75 and 38.06% for leaf width, between -17.51 and 36.25% for leaf length, between -34.38 and 76.12% for leaf yield, between -78.30 and 154.01% for sugar content and between -45.40 and 143.29% for nicotine content. Heterosis levels were correlated with genetic distances between parents for leaf number in Erbaa 2012 and Tokat 2012 locations, for leaf width in Erbaa 2013 location, for leaf length in Erbaa 2013 location, and for leaf yield in Tokat 2012 location only. SSR markers were very effective to determine genetic distance of oriental tobacco, and only two markers could distinguish all seven genotypes used in the study. The findings indicated that genetic distance determined by SSR markers used in the present study is not sufficient to predict hybrid performance in oriental tobacco.

References

  • Adhikari, A., Ibrahim, A. M., Rudd, J. C., Baenziger, P. S. and Sarazin, J. B. (2020). Estimation of heterosis and combining abilities of US winter wheat germplasm for hybrid development in Texas. Crop Science, 60(2): 788-803.
  • Ali, M., Copeland, L. O., Elias, S. G. and Kelly, J. D. (1995). Relationship between genetic distance and heterosis for yield and phenotypic traits in winter canola (Brassica napus L.). Theoretical and Applied Genetics, 91: 118-121.
  • Anderson, J. A., Churchill, G. A., Autrique, J. E., Tanksley, S. D. and Sorrells, M. E. (1993). Optimizing parental selection for genetic linkage maps. Genome, 36: 181-186.
  • Bahar, E., Korkutal, I., Sahin, N., Sagir, F. S., Kok, D., Ergonul, O. and Ozalp, Z. O. (2019). Molecular and ampelographic characterization of grapevine (Vitis vinifera L.) genetic materials collected in natural flora of Ganos mountains. Journal of Tekirdag Agricultural Faculty, 16(1): 92–102.
  • Bindler, G., Hoeven, R., Gunduz, I., Plieske, J., Ganal, M., Rossi, L., Gadani, F. and Paolo, D. (2007). A microsatellite marker based linkage map of tobacco. Theoretical and Applied Genetics, 114: 341-349.
  • Bindler, G., Plieske, J., Bakaher, N., Gunduz, I., Ivanov, N., Hoeven, R., Ganal, M. and Paolo, D. (2011). A high density genetic map of tobacco (Nicotiana tabacum L.) obtained from large scale microsatellite marker development. Theoretical and Applied Genetics, 123: 219-230.
  • Buti, M., Giordani, T., Vukich, M., Pugliesi, C., Natali, L. and Cavallini, A. (2013). Retrotransposon-related genetic distance and hybrid performance in sunflower (Helianthus annuus L.). Euphytica, 192: 289–303.
  • Butorac, J., Beljo, J. and Gunjaca, J. (2004). Study of inheritance of some agronomic and morphological traits in burley tobacco by graphic analysis of diallel cross. Plant, Soil and Environment, 50: 162-167.
  • Cerna, F. J., Cianzio, S. R., Rafalski, A., Tingey, S. and Dyer, D. (1997). Relationship between seed yield heterosis and molecular heterozygosity in soybean. Theoretical and Applied Genetics, 95: 460-467.
  • Corbellini, M., Perenzin, M., Accerbi, M., Vaccino, P. and Borghi, B. (2002). Genetic diversity in bread wheat, as revealed by coefficient of parentage and molecular markers, and its relationship to hybrid performance. Euphytica, 123: 273-285.
  • Davalieva, K., Maleva, I., Filipovski, K., Spiroski, O. and Efremov, G. D. (2010). Genetic variability of Macedonian tobacco varieties determined by microsatellite marker analysis. Diversity, 2: 439-449.
  • Darvishzadeh, R., Basirnia, A., Maleki, H. H. and Jafari, M. (2014). Association mapping for resistance to powdery mildew in oriental tobacco (Nicotiana tabaccum L.) germplasm. Iranian Journal of Genetics and Plant Breeding, 3: 21-30.
  • Dermail, A., Suriharn, B., Chankaew, S., Sanitchon, J. and Lertrat, K. (2020). Hybrid prediction based on SSR-genetic distance, heterosis and combining ability on agronomic traits and yields in sweet and waxy corn. Scientia Horticulturae, 259: 108817.
  • Dong, Y., Feng, Y. F., Xu, Z. M., Wang, S. M., Tang, H. L. and Huang, W. (2021). Analysis of the relationship between genetic distance and heterosis by SSR markers in cabbage (Brassica oleracea var. capitata). Acta Horticulturae Sinica, 48 (5): 934-946.
  • Dreisigacker, S., Melchinger, A. E., Zhang, P., Ammar, K., Flache-necker, C., Hoisington, D. and Warburton, M. L. (2005). Hybrid performance and heterosis in spring bread wheat, and their relations to SSR-based genetic distances and coefficients of parentage. Euphytica, 144: 51-59.
  • Farooq, A., Khan, U. M., Khan, M. A., Ali, Z., Maqbool, R. and Sajjad, M. (2024). Male sterility systems and their applications in hybrid wheat breeding. Cereal Research Communications, 52 (1): 25-37.
  • Geng, X., Qu, Y., Jia, Y., He, S., Pan, Z., Wang, L. and Du, X. (2021). Assessment of heterosis based on parental genetic distance estimated with SSR and SNP markers in upland cotton (Gossypium hirsutum L.). BMC genomics, 22: 1-11.
  • Gimenez, K., Blanc, P., Argillier, O., Pierre, J. B., Le Gouis, J. and Paux, E. (2021). Dissecting bread wheat heterosis through the integration of agronomic and physiological traits. Biology, 10: 907.
  • Gholizadeh, S., Darvishzadeh, R., Mandoulakani, B. A., Bernousi, I., Alavi, S. R. and Masouleh, A. K. (2012). Molecular characterization and similarity relationships among flue-cured tobacco (Nicotiana tabacum L.) genotypes using simple sequence repeat markers. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 40: 247-253.
  • He, B., Geng, R., Cheng, L., Yang, X., Ge, H. and Ren, M. (2020). Genetic diversity and fingerprinting of 33 standard flue-cured tobacco varieties for use in distinctness, uniformity, and stability testing. BMC Plant Biology, 20: 1-10.
  • Keskin, A., Koprulu, T. K., Bursali, A., Ozsemir, A. C., Yavuz, K. E. and Tekin, S. (2014). First record of ixodes arboricola (Ixodida: Ixodidae) from Turkey with presence of candidatus rickettsia vini (Rickettsiales: Rickettsiaceae). Journal of Medical Entomology, 51: 864-867.
  • Kinay, A., Kurt, D. and Karakoc, E. (2019). Yield and quality performances of hybrid tobacco developed for Gümüşhaciköy Basma region. Turkish Journal of Agriculture-Food Science and Technology, 7 (2): 1-6.
  • Kinay, A., Yilmaz, G. and Kandemir, N. (2020). Yield and quality properties of some oriental tobacco (Nicotiana tabacum L.) hybrids. Genetika, 52: 735-750.
  • Kinay, A. and Kurt, D. (2022). Heterosis and inheritance studies on morphological and chemical characters of tobacco. Agronomy Journal, 114: 927-934.
  • Kurt, D., Kinay, A., Saygili, I. and Kandemir, N. (2022). Determining the genetic and agronomic variations in lines from Samsun tobacco growing areas. Anadolu Journal of Agricultural Sciences, 37 (3): 617-636.
  • Kurt, D., Saygili, I. and Kinay, A. (2023). Genetic, yield and quality variations of Samsun Tobacco are still continuing in production areas. Academic Journal of Agriculture, 12 (2): 227-238.
  • Kwon, S. J., Ha, W. G., Hwang, H. G., Yang, S. J., Choi, H. C., Moon, H. P. and Ahn, S. N. (2002). Relationship between heterosis and genetic divergence in ‘Tongil’-type rice. Plant Breeding, 121: 487-492.
  • Lamkey, K. R. and Edwards, J. W. (1997). Quantitative Genetics of Heterosis. An International Symposium. 17-22 August, P. 8-9, Mexico City, Mexico.
  • Liu, Z. Q., Pei, Y. and Pu, Z. J. (1999). Relationship between hybrid performance and genetic diversity based on RAPD markers in wheat (Triticum aestivum L.). Plant Breeding, 118: 119-123.
  • Marcón, F., Martínez, E. J., Rodríguez, G. R., Zilli, A. L., Brugnoli, E. A. and Acuña, C. A. (2019). Genetic distance and the relationship with heterosis and reproductive behavior in tetraploid bahiagrass hybrids. Molecular Breeding, 39: 1-13.
  • Moon, H. S., Nifong, J. M., Nicholson, J. S., Heineman, A., Lion, K., Hoeven, R., Hayes, A. J. and Lewis, R. S. (2009). Microsatellite-based analysis of tobacco (Nicotiana tabacum L.) genetic resources. Crop Science, 49: 2149-2159.
  • Nei, M. (1972). Genetic distance between populations. American Naturalist, 106: 283-292. Palaniyappan, S., Ganesan, K. N., Manivannan, N., Ravichandran, V. and Senthil, N. (2023). Genetic distance as a predictor of heterosis in single cross hybrids of fodder maize (Zea mays L.). Electronic Journal of Plant Breeding, 14 (2): 625-632.
  • Peksüslü, A., Yilmaz, I., Kartal, A. I. H. and Kartal, H. (2012). Tobacco Genotypes of Turkey. Anadolu Journal of Aegean Agricultural Research Institute, 22 (2): 82-90.
  • Rao, S. H., Bano, S., Baloch, A. W., Arsal, M., Akram, R., Khan, H., Channa, S. A., Liaquat A. B. and Asadullah. (2023). Estimation of heterotic effects under water deficit conditions in rapeseed genotypes (Brassica napus L.). Pure and Applied Biology, 13 (1): 1-14.
  • Saygili, I., Kinay, A., Kurt D. and Kandemir, N. (2021). Genetic and agronomic diversity of Basma tobacco (Nicotiana tabacum L.) landrace in Turkey. Biotechnology, Agronomy, Society and Environment, 25: 279- 290.
  • Saygili, I., Kandemir, N., Kinay, A., Aytaç, S. and Ayan, A. K. (2022). SSR marker-based genetic characterization of Turkish oriental tobaccos. Molecular Biology Reports, 49: 11351-11358.
  • Serrote, C. M. L., Reiniger, L. R. S., Silva, K. B., dos Santos Rabaiolli, S. M. and Stefanel, C. M. (2020). Determining the polymorphism information content of a molecular marker. Gene, 726: 144175.
  • Solomon, K. F., Zeppa, A. and Mulugeta, S. D. (2012). Combining ability, genetic diversity and heterosis in relation to F1 performance of tropically adapted shrunken (sh2) sweet corn lines. Plant Breeding, 131: 430-436. Tian, H. Y., Channa, S. A. and Hu, S. W. (2017). Relationships between genetic distance, combining ability and heterosis in rapeseed (Brassica napus L.). Euphytica, 213: 1-11.
  • Tomkowiak, A., Bocianowski, J., Kwiatek, M. and Kowalczewski, P. Ł. (2020). Dependence of the heterosis effect on genetic distance, determined using various molecular markers. Open Life Sciences, 15 (1): 1-11.
  • Tong, Z., Yang, Z., Chen, X., Jiao, F., Li, X., Wu, X., Gao, Y., Xiao, B. and Wu, W. (2012). Large-scale development of microsatellite markers in Nicotiana tabacum and construction of a genetic map of flue-cured tobacco. Plant Breeding, 131: 674-680.
  • Xiao, B. G., Zhu, J., Lu, X. P., Bai, Y. F. and Li, Y. P. (2007). Analysis on genetic contribution of agronomic traits to total sugar in flue-cured tobacco (Nicotiana tabacum L.). Field Crops Research, 102: 98-103.
  • Yeh, F. C., Yang, R. C., Boyle, T. B. J., Ye, Z. H. and Mao, J. X. (2000). PopGene32, Microsoft Windows-Based Freeware for Population Genetic Analysis, Version 1.32. Molecular Biology and Biotechnology Centre, University of Alberta Alberta, Canada.
  • Yongliang, D. I. N. G., Renxiao, C. H. E. N., Jumin, Y. U. A. N., Chengwei, G. U. A. N., Kuanxin, H. E., Xingwei, Z. H. A. N. G., and Qiming, Z. H. A. N. G. (2020). Genetic diversity of flue-cured tobacco germplasm resources based on SSR molecular markers. Chinese Tobacco Science, 41 (2): 8-14.
  • Wernsman, E. A. and Matzinger, D. F. (1980). Tobacco. In: Hybridization of Crop Plants, Eds: Fehr W. R. and Hadley H. H., American Society of Agronomy, USA.

Oryantal Tütünde SSR Markörleriyle Belirlenen Heterosis ile Genetik Mesafe Arasındaki İlişki

Year 2024, , 865 - 879, 20.09.2024
https://doi.org/10.33462/jotaf.1278798

Abstract

Hibrit çeşitler, oryantal tütünde iyi kalite özelliklerini korurken yüksek yaprak verimi elde etmek için faydalı olabilir. Hibrit çeşitleri oluşturacak ebeveynlerin belirlenmesi hibrit çeşit ıslah programlarında önemli bir yer tutmaktadır. Bu çalışmanın amacı, basit dizi tekrarları (simple sequence repeats, SSR) markörleri ile belirlenen ebeveynlerin genetik uzaklığı ile oryantal tütünde yaprak verimi ve kalite özellikleri için bu ebeveynlerden üretilen hibritlerdeki heterozis seviyeleri arasındaki ilişkiyi belirlemektir. Türkiye’de yoğun kullanılan yedi tütün genotipinden ve bu ebeveynlerden yarım diallel melezlemeyle ile elde edilen 21 hibrit ebeveynleriyle ile üç bölgede 2012 ve 2013 yıllarında yetiştirilmiştir. Yedi tütün genotipi arasındaki genetik uzaklıklarını belirlemek için yirmi dokuz SSR markörü kullanılmıştır. Yirmi dokuz markör toplamda 80 allel üretmiştir. Polimorfik markör başına ortalama gözlenen allel sayısı 2.96 olarak belirlenmiştir. Seksen allelin 27’si sadece bir ebeveynde gözlemlenmiştir. Markörlerin polimorfik bilgi içeriği 0.215 - 0.810 (ortalama 0.480) arasında değişmiştir. Ebeveyn ortalamasına göre hesaplanan heterozis değerleri yaprak sayısı için %18.03 - %42.00, yaprak eni için %-19.75 - %38.06, yaprak boyu için %-17.51 - %36.25, yaprak verimi için %-34.38 - %76.12, şeker oranı için %78.30 - 154.01 için ve nikotin içeriği için %-45.40 - %143.29 arasında değişmiştir. Genetik uzaklık ile heterozis arasındaki korelasyon, yaprak sayısında Erbaa 2012 ve Tokat 2012, yaprak eninde Erbaa 2013, yaprak boyunda Erbaa 2013 ve yaprak veriminde Tokat 2012 lokasyonlarında önemli bulunurken, diğer lokasyonlarda önemli bulunmamıştır. Çalışmada kullanılan yedi genotipi yalnızca iki markörün ayırt edebilmesinden dolayı, SSR markörlerinin oryantal tütünün genetik uzaklıkları belirlemek için çok etkili olduğu söylenebilir. Bu araştırmada kullanılan SSR markörleriyle belirlenen genetik uzaklık değeri doğrudan hibrit performansı tahmin etmek için yeterli olmamıştır.

References

  • Adhikari, A., Ibrahim, A. M., Rudd, J. C., Baenziger, P. S. and Sarazin, J. B. (2020). Estimation of heterosis and combining abilities of US winter wheat germplasm for hybrid development in Texas. Crop Science, 60(2): 788-803.
  • Ali, M., Copeland, L. O., Elias, S. G. and Kelly, J. D. (1995). Relationship between genetic distance and heterosis for yield and phenotypic traits in winter canola (Brassica napus L.). Theoretical and Applied Genetics, 91: 118-121.
  • Anderson, J. A., Churchill, G. A., Autrique, J. E., Tanksley, S. D. and Sorrells, M. E. (1993). Optimizing parental selection for genetic linkage maps. Genome, 36: 181-186.
  • Bahar, E., Korkutal, I., Sahin, N., Sagir, F. S., Kok, D., Ergonul, O. and Ozalp, Z. O. (2019). Molecular and ampelographic characterization of grapevine (Vitis vinifera L.) genetic materials collected in natural flora of Ganos mountains. Journal of Tekirdag Agricultural Faculty, 16(1): 92–102.
  • Bindler, G., Hoeven, R., Gunduz, I., Plieske, J., Ganal, M., Rossi, L., Gadani, F. and Paolo, D. (2007). A microsatellite marker based linkage map of tobacco. Theoretical and Applied Genetics, 114: 341-349.
  • Bindler, G., Plieske, J., Bakaher, N., Gunduz, I., Ivanov, N., Hoeven, R., Ganal, M. and Paolo, D. (2011). A high density genetic map of tobacco (Nicotiana tabacum L.) obtained from large scale microsatellite marker development. Theoretical and Applied Genetics, 123: 219-230.
  • Buti, M., Giordani, T., Vukich, M., Pugliesi, C., Natali, L. and Cavallini, A. (2013). Retrotransposon-related genetic distance and hybrid performance in sunflower (Helianthus annuus L.). Euphytica, 192: 289–303.
  • Butorac, J., Beljo, J. and Gunjaca, J. (2004). Study of inheritance of some agronomic and morphological traits in burley tobacco by graphic analysis of diallel cross. Plant, Soil and Environment, 50: 162-167.
  • Cerna, F. J., Cianzio, S. R., Rafalski, A., Tingey, S. and Dyer, D. (1997). Relationship between seed yield heterosis and molecular heterozygosity in soybean. Theoretical and Applied Genetics, 95: 460-467.
  • Corbellini, M., Perenzin, M., Accerbi, M., Vaccino, P. and Borghi, B. (2002). Genetic diversity in bread wheat, as revealed by coefficient of parentage and molecular markers, and its relationship to hybrid performance. Euphytica, 123: 273-285.
  • Davalieva, K., Maleva, I., Filipovski, K., Spiroski, O. and Efremov, G. D. (2010). Genetic variability of Macedonian tobacco varieties determined by microsatellite marker analysis. Diversity, 2: 439-449.
  • Darvishzadeh, R., Basirnia, A., Maleki, H. H. and Jafari, M. (2014). Association mapping for resistance to powdery mildew in oriental tobacco (Nicotiana tabaccum L.) germplasm. Iranian Journal of Genetics and Plant Breeding, 3: 21-30.
  • Dermail, A., Suriharn, B., Chankaew, S., Sanitchon, J. and Lertrat, K. (2020). Hybrid prediction based on SSR-genetic distance, heterosis and combining ability on agronomic traits and yields in sweet and waxy corn. Scientia Horticulturae, 259: 108817.
  • Dong, Y., Feng, Y. F., Xu, Z. M., Wang, S. M., Tang, H. L. and Huang, W. (2021). Analysis of the relationship between genetic distance and heterosis by SSR markers in cabbage (Brassica oleracea var. capitata). Acta Horticulturae Sinica, 48 (5): 934-946.
  • Dreisigacker, S., Melchinger, A. E., Zhang, P., Ammar, K., Flache-necker, C., Hoisington, D. and Warburton, M. L. (2005). Hybrid performance and heterosis in spring bread wheat, and their relations to SSR-based genetic distances and coefficients of parentage. Euphytica, 144: 51-59.
  • Farooq, A., Khan, U. M., Khan, M. A., Ali, Z., Maqbool, R. and Sajjad, M. (2024). Male sterility systems and their applications in hybrid wheat breeding. Cereal Research Communications, 52 (1): 25-37.
  • Geng, X., Qu, Y., Jia, Y., He, S., Pan, Z., Wang, L. and Du, X. (2021). Assessment of heterosis based on parental genetic distance estimated with SSR and SNP markers in upland cotton (Gossypium hirsutum L.). BMC genomics, 22: 1-11.
  • Gimenez, K., Blanc, P., Argillier, O., Pierre, J. B., Le Gouis, J. and Paux, E. (2021). Dissecting bread wheat heterosis through the integration of agronomic and physiological traits. Biology, 10: 907.
  • Gholizadeh, S., Darvishzadeh, R., Mandoulakani, B. A., Bernousi, I., Alavi, S. R. and Masouleh, A. K. (2012). Molecular characterization and similarity relationships among flue-cured tobacco (Nicotiana tabacum L.) genotypes using simple sequence repeat markers. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 40: 247-253.
  • He, B., Geng, R., Cheng, L., Yang, X., Ge, H. and Ren, M. (2020). Genetic diversity and fingerprinting of 33 standard flue-cured tobacco varieties for use in distinctness, uniformity, and stability testing. BMC Plant Biology, 20: 1-10.
  • Keskin, A., Koprulu, T. K., Bursali, A., Ozsemir, A. C., Yavuz, K. E. and Tekin, S. (2014). First record of ixodes arboricola (Ixodida: Ixodidae) from Turkey with presence of candidatus rickettsia vini (Rickettsiales: Rickettsiaceae). Journal of Medical Entomology, 51: 864-867.
  • Kinay, A., Kurt, D. and Karakoc, E. (2019). Yield and quality performances of hybrid tobacco developed for Gümüşhaciköy Basma region. Turkish Journal of Agriculture-Food Science and Technology, 7 (2): 1-6.
  • Kinay, A., Yilmaz, G. and Kandemir, N. (2020). Yield and quality properties of some oriental tobacco (Nicotiana tabacum L.) hybrids. Genetika, 52: 735-750.
  • Kinay, A. and Kurt, D. (2022). Heterosis and inheritance studies on morphological and chemical characters of tobacco. Agronomy Journal, 114: 927-934.
  • Kurt, D., Kinay, A., Saygili, I. and Kandemir, N. (2022). Determining the genetic and agronomic variations in lines from Samsun tobacco growing areas. Anadolu Journal of Agricultural Sciences, 37 (3): 617-636.
  • Kurt, D., Saygili, I. and Kinay, A. (2023). Genetic, yield and quality variations of Samsun Tobacco are still continuing in production areas. Academic Journal of Agriculture, 12 (2): 227-238.
  • Kwon, S. J., Ha, W. G., Hwang, H. G., Yang, S. J., Choi, H. C., Moon, H. P. and Ahn, S. N. (2002). Relationship between heterosis and genetic divergence in ‘Tongil’-type rice. Plant Breeding, 121: 487-492.
  • Lamkey, K. R. and Edwards, J. W. (1997). Quantitative Genetics of Heterosis. An International Symposium. 17-22 August, P. 8-9, Mexico City, Mexico.
  • Liu, Z. Q., Pei, Y. and Pu, Z. J. (1999). Relationship between hybrid performance and genetic diversity based on RAPD markers in wheat (Triticum aestivum L.). Plant Breeding, 118: 119-123.
  • Marcón, F., Martínez, E. J., Rodríguez, G. R., Zilli, A. L., Brugnoli, E. A. and Acuña, C. A. (2019). Genetic distance and the relationship with heterosis and reproductive behavior in tetraploid bahiagrass hybrids. Molecular Breeding, 39: 1-13.
  • Moon, H. S., Nifong, J. M., Nicholson, J. S., Heineman, A., Lion, K., Hoeven, R., Hayes, A. J. and Lewis, R. S. (2009). Microsatellite-based analysis of tobacco (Nicotiana tabacum L.) genetic resources. Crop Science, 49: 2149-2159.
  • Nei, M. (1972). Genetic distance between populations. American Naturalist, 106: 283-292. Palaniyappan, S., Ganesan, K. N., Manivannan, N., Ravichandran, V. and Senthil, N. (2023). Genetic distance as a predictor of heterosis in single cross hybrids of fodder maize (Zea mays L.). Electronic Journal of Plant Breeding, 14 (2): 625-632.
  • Peksüslü, A., Yilmaz, I., Kartal, A. I. H. and Kartal, H. (2012). Tobacco Genotypes of Turkey. Anadolu Journal of Aegean Agricultural Research Institute, 22 (2): 82-90.
  • Rao, S. H., Bano, S., Baloch, A. W., Arsal, M., Akram, R., Khan, H., Channa, S. A., Liaquat A. B. and Asadullah. (2023). Estimation of heterotic effects under water deficit conditions in rapeseed genotypes (Brassica napus L.). Pure and Applied Biology, 13 (1): 1-14.
  • Saygili, I., Kinay, A., Kurt D. and Kandemir, N. (2021). Genetic and agronomic diversity of Basma tobacco (Nicotiana tabacum L.) landrace in Turkey. Biotechnology, Agronomy, Society and Environment, 25: 279- 290.
  • Saygili, I., Kandemir, N., Kinay, A., Aytaç, S. and Ayan, A. K. (2022). SSR marker-based genetic characterization of Turkish oriental tobaccos. Molecular Biology Reports, 49: 11351-11358.
  • Serrote, C. M. L., Reiniger, L. R. S., Silva, K. B., dos Santos Rabaiolli, S. M. and Stefanel, C. M. (2020). Determining the polymorphism information content of a molecular marker. Gene, 726: 144175.
  • Solomon, K. F., Zeppa, A. and Mulugeta, S. D. (2012). Combining ability, genetic diversity and heterosis in relation to F1 performance of tropically adapted shrunken (sh2) sweet corn lines. Plant Breeding, 131: 430-436. Tian, H. Y., Channa, S. A. and Hu, S. W. (2017). Relationships between genetic distance, combining ability and heterosis in rapeseed (Brassica napus L.). Euphytica, 213: 1-11.
  • Tomkowiak, A., Bocianowski, J., Kwiatek, M. and Kowalczewski, P. Ł. (2020). Dependence of the heterosis effect on genetic distance, determined using various molecular markers. Open Life Sciences, 15 (1): 1-11.
  • Tong, Z., Yang, Z., Chen, X., Jiao, F., Li, X., Wu, X., Gao, Y., Xiao, B. and Wu, W. (2012). Large-scale development of microsatellite markers in Nicotiana tabacum and construction of a genetic map of flue-cured tobacco. Plant Breeding, 131: 674-680.
  • Xiao, B. G., Zhu, J., Lu, X. P., Bai, Y. F. and Li, Y. P. (2007). Analysis on genetic contribution of agronomic traits to total sugar in flue-cured tobacco (Nicotiana tabacum L.). Field Crops Research, 102: 98-103.
  • Yeh, F. C., Yang, R. C., Boyle, T. B. J., Ye, Z. H. and Mao, J. X. (2000). PopGene32, Microsoft Windows-Based Freeware for Population Genetic Analysis, Version 1.32. Molecular Biology and Biotechnology Centre, University of Alberta Alberta, Canada.
  • Yongliang, D. I. N. G., Renxiao, C. H. E. N., Jumin, Y. U. A. N., Chengwei, G. U. A. N., Kuanxin, H. E., Xingwei, Z. H. A. N. G., and Qiming, Z. H. A. N. G. (2020). Genetic diversity of flue-cured tobacco germplasm resources based on SSR molecular markers. Chinese Tobacco Science, 41 (2): 8-14.
  • Wernsman, E. A. and Matzinger, D. F. (1980). Tobacco. In: Hybridization of Crop Plants, Eds: Fehr W. R. and Hadley H. H., American Society of Agronomy, USA.
There are 44 citations in total.

Details

Primary Language English
Subjects Industrial Crops, Crop and Pasture Breeding
Journal Section Articles
Authors

Ahmet Kınay 0000-0003-4554-2148

İbrahim Saygılı 0000-0003-0449-4872

Nejdet Kandemir 0000-0002-9658-2193

Early Pub Date September 12, 2024
Publication Date September 20, 2024
Submission Date April 7, 2023
Acceptance Date July 17, 2024
Published in Issue Year 2024

Cite

APA Kınay, A., Saygılı, İ., & Kandemir, N. (2024). Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco. Tekirdağ Ziraat Fakültesi Dergisi, 21(4), 865-879. https://doi.org/10.33462/jotaf.1278798
AMA Kınay A, Saygılı İ, Kandemir N. Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco. JOTAF. September 2024;21(4):865-879. doi:10.33462/jotaf.1278798
Chicago Kınay, Ahmet, İbrahim Saygılı, and Nejdet Kandemir. “Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco”. Tekirdağ Ziraat Fakültesi Dergisi 21, no. 4 (September 2024): 865-79. https://doi.org/10.33462/jotaf.1278798.
EndNote Kınay A, Saygılı İ, Kandemir N (September 1, 2024) Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco. Tekirdağ Ziraat Fakültesi Dergisi 21 4 865–879.
IEEE A. Kınay, İ. Saygılı, and N. Kandemir, “Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco”, JOTAF, vol. 21, no. 4, pp. 865–879, 2024, doi: 10.33462/jotaf.1278798.
ISNAD Kınay, Ahmet et al. “Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco”. Tekirdağ Ziraat Fakültesi Dergisi 21/4 (September 2024), 865-879. https://doi.org/10.33462/jotaf.1278798.
JAMA Kınay A, Saygılı İ, Kandemir N. Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco. JOTAF. 2024;21:865–879.
MLA Kınay, Ahmet et al. “Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco”. Tekirdağ Ziraat Fakültesi Dergisi, vol. 21, no. 4, 2024, pp. 865-79, doi:10.33462/jotaf.1278798.
Vancouver Kınay A, Saygılı İ, Kandemir N. Relationship Between Heterosis and Genetic Distance Determined by SSR Markers in Oriental Tobacco. JOTAF. 2024;21(4):865-79.