Email this article 
INTRODUCTION TO STERILE CULTURE IN VITRO OF HYBRID SEEDS FROM DISTANT CROSSES OF CITRUS RETICULATA BLAN.VAR UNCHIU
- Authors: Gvasaliya M.V1, Kulyan R.V1, Kuleshov A.S1
-
Affiliations:
- Federal Research Center "Subtropical Scientific Center of the Russian Academy of Sciences"
- Issue: No 6 (2025)
- Pages: 25-28
- Section: Crop Production and Selection
- URL: https://journals.rcsi.science/2500-2082/article/view/355287
- DOI: https://doi.org/10.7868/S3034519725060053
- ID: 355287
Cite item
Open Access
Access granted
Subscription Access
Abstract
Breeding of citrus crops in Russia has been carried out at the Federal Research Center "Subtropical Scientific Center of the Russian Academy of Sciences" since 1994. As a rule, seeds from distant crosses of Citrus reticulaia Blau. var unchlu (mandarin) contain nucellar embryos and, rarely, a weak zygotic one. Nucellar seedlings are of great importance in breeding aimed at developing early-ripening varieties with high-quality fruits. When multi-embryonic seeds germinate in situ, one or two embryos usually develop, while the rest die due to lack of nutrients. In such a case, it is possible to save the embryos in vitro culture. Hybrid mandarin seeds obtained from 7 crossing combinations (C. reticulata 01-04 × 3252; C. reticulata 'Solnecbury' × pollen mixture; C. reticulata 98-9 × pollen mixture; C. reticulata 202-5 × pollen mixture; C. reticulata 204-1 × C. medica; C. reticulata 2025 × C. limon 'New Zealand'; C. reticulata 99-04 × C. medica) were introduced into sterile culture. The aim of the study was to develop a sterilization protocol, introduce seeds from distant crossing combinations into in vitro culture, and induce the growth of nucellar seedlings. The sterilization option (Domestos gel (5 min), 96% ethyl alcohol and fruit burning) showed a result with a higher yield of sterile culture — 96%. Contamination in the options was relatively low and varied from 4,0 to 16,7%. The percentage of seed germination on the Murashige and Skoog medium + 6-BAP (1,0 mg/l) + mesoinositol 100 (mg/l) was 63,1—87,2%. The highest seed germination was noted in the combination 98-9 × pollen mixture (87,2%). On average, 3—4 full-fledged nucellar seedlings without noticeable anomalies were obtained from 1 seed.
About the authors
M. V Gvasaliya
Federal Research Center "Subtropical Scientific Center of the Russian Academy of Sciences"
Email: raisa.kulyan22@gmail.com
PhD in Biological Sciences, Senior Researcher Sochi, Russia
R. V Kulyan
Federal Research Center "Subtropical Scientific Center of the Russian Academy of Sciences"
Email: raisa.kulyan22@gmail.com
PhD in Agricultural Sciences, Leading Researcher
Sochi, RussiaA. S Kuleshov
Federal Research Center "Subtropical Scientific Center of the Russian Academy of Sciences"
Author for correspondence.
Email: raisa.kulyan22@gmail.com
PhD in Biological Sciences, Junior Researcher
Sochi, RussiaReferences
- Gvasaliya M.V. Modifikaciya pitatel'noj sredy dlya razmnozheniya mikropobegov chaya (Samellia sinensis (L.) O. Kunze) kul'ture in vitro // Subtropicheskoe i dekorativnoe sadovodstvo. 2025. № 92. S. 96–106. https://doi.org/10.31360/2225306820259296107
- Gvasaliya M.V. Klonal'noe mikrorazmnozhenie rastenij chaya v kul'ture in vitro // Vestnik rossijskoj sel'skohozyajstvennoj nauki. 2015. № 5. S. 36–37
- Kulyan R.V. Geneticheskoe raznoobrazie citrusovyh rastenij po selekcionnoznachimym priznakam // Vestnik rossijskoj sel'skohozyajstvennoj nauki. 2020. № 3. S. 47–51. https://doi.org/10.30850/vrsn/2020/3/4751
- Kulyan R.V. Hozyajstvennobiologicheskaya harakteristika novyh perspektivnyh form mandarina (Citrus reticulata Blan. var. unchiu Tan.) // Agrarnyj nauchnyj zhurnal. 2019. № 8. S. 24–28. https://doi.org/10.28983/asj.y2019i8pp2428
- Alka Jajoo In vitro propagation of citrus limonia osbeck through nucellar embryo culture // Current Research Journal of Biological Sciences. 2010. № 2. V. 1. P. 6–8.
- Grosser J.W., Gmitter F.G. Protoplast fusion for production of tetraploids and triploids: applications for scion and rootstock breeding in citrus // Plant Cell, Tissue and Organ Culture. 2011. № 104. V. 3. P. 343–357. https://doi.org/10.1007/s1124001098332
- Kepiro J.L., Roose M.L. Nucellar embryony. In: Citrus Genetics, Breeding and Biotechnology (ed. I.A. Khan). 20007. CABI. https://doi.org/10.1079/9781845931934.0000
- PérezTornero O. et al. In vitro conservation of citrus germplasm // Methods in Molecular Biology. 2020. № 2122. P. 145–160. https://doi.org/10.1007/9781071603420_11
- Şenay Kurt, Fatma Koyuncu Characterization of Citrus × Poncirus embryo rescued hybrids as rootstock candidate using morphological markers // Horticultural Studies. 2024. Vol. 41. № 3. P. 90–100. https://doi.org/10.16882/hortis.1528207
- Zhang X. et al. Advances in citrus breeding: from conventional techniques to biotechnological approaches // Horticulture Research. 2020. № 7. P. 115. https://doi.org/ 10.1038/s41438020003438
Supplementary files
