Callus induction with 6-BAP and IBA as a way to preserve Prunus ledebouriana (Rosaceae), and endemic plant of Altai and Tarbagatai, East Kazakhstan

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DOI https://doi.org/10.13057/biodiv/d230645
Issue
Vol. 23 No. 6 (2022)
Section
Articles
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This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

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AIDYN ORAZOV
Al-Farabi Kazakh National University. Almaty, 050040, Kazakhstan
ANAR MYRZAGALIYEVA
Astana International University. Nur-Sultan, 010000, Kazakhstan
NASHTAI MUKHITDINOV
Al-Farabi Kazakh National University. Almaty, 050040, Kazakhstan
SHYNAR TUSTUBAYEVA
Astana International University. Nur-Sultan, 010000, Kazakhstan

Abstract


Abstract. Orazov A, Myrzagaliyeva A, Mukhitdinov N, Tustubayeva S. 2022. Callus induction with 6-BAP and IBA as a way to preserve Prunus ledebouriana (Rosaceae), and endemic plant of Altai and Tarbagatai, East KazakhstanBiodiversitas 23: 3178-3184. This article presents the results of the study of in vitro conditions for the cultivation and induction of callus tissues of a rare plant species Prunus ledebouriana(Schlecht.) Y.Y.Yao (Ledebour's almond), endemic plant to East Kazakhstan. For the first time, protocol and optimal composition of Murashige & Skoog (MS) were developed for obtaining calendemiclus tissues. The main indicator of successful introduction was the frequency of callus tissue formation in vitro. Two types of explants were used: the whole embryos and embryos with a removed root part. The removal of the root part inhibited the organogenesis of the embryonic root and the first shoot, which allowed the accumulation of nutrients for the growth of the callus mass and increased the frequency by 7.79±0.46%. Various exogenous phytohormones such as Kinetin, 6-BAP, GA, IBA were added to the MS culture medium. A decrease in Kinetin concentrations of 0.04 mg/L resulted in a lower intensity, but a higher frequency of formation (72.00±5.66%) and mass gain. The average concentration up to 0.5 mg/L of exogenous phytoregulators, such as GA and 6-BAP, resulted in frequency from 65.38±5.44% to 72.00±5.66%, the concentration of IBA up to 1 mg/L increased the frequency from 46.00±2.83 to 72.00±5.66%. The protocol for obtaining callus from an embryonic explant and the composition of the optimal nutrient medium for the induction of callusogenesis made it possible to obtain P. ledebouriana meristem tissues for further use in the development of callus cryopreservation technology.


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References
Abdulina SA. 1999. Checklist of vascular plants in Kazakhstan]. Almaty. [Russian]
Akbas F, Isikalan Ç, Namli S, Ak BE. 2009. Effect of plant growth regulators on in vitro shoot multiplication of Amygdalus communis L. cv. Yaltsinki. African Journal of Biotechnology, 8(22): 6168-6174.
Baitulin IO. 2014. Volume I. The Red Book of Kazakhstan (plants). Astana. [Russian]
Browicz K. 1989. Conspect and chorology of the genera Amygdalus L. and Louiseania Carriere. Arbor Kornickie, 34: 31-54.
Chebotko NK, Stihareva TN, Kirillov VY. 2020. The contribution of KazNIILHA employees to the selection and preservation of the gene pool of woody plants (a brief historical overview). Siberian Forest Journal. 4: 55-67. [in Russian]
Fomenko TI, Berdichevec LG, Malyush MK, Chumakova IM. 2001. The effect of endogenous and exogenous action of hormones on the process of callus formation and morphogenesis in tobacco. Cell nuclei are the cell nuclei of plants. Plants. expression and reconstruction. [in Russian]
Gürel S, Gül?en Y. 1998. The effects of IBA and BAP on in vitro shoot production of almond (Amygdalus communis L.). Turkish Journal of Botany. 22(6): 375-380.
Iantcheva A, Vlahova M, Atanassov A. 2005. Investigation of the potential of two wild Medicago species-Medicago orbicularis and Medicago arabica for in vitro callusogenesis and direct organogenesis. Biotechnology & Biotechnological Equipment, 19(3): 27-31.
Isikalan C, Akbas FA, Namli S, Tilkat E, Basaran D. 2008. In vitro micropropagation of almond (Amygdalus communis L. cv. Nonpareil). African Journal of Biotechnology, 7(12): 1875-1880.
Isikalan C, Akbas F, Namli S, Basaran D. 2010. Adventitious Shoot Development from Leaf and Stem Explants of Amygdalus communis L. cv. Yaltinski. Plant Omics, 3(3): 92-96.
Istvud A, Lazkov G., Nyuton A. 2009. Red book of woody plants of central asia. Fauna and Flora International. [Russian]
Kalinin FL, Kushnir GP, Sarnackaya VV. 1992. Technology of microclonal reproduction of plants. Kiev: Naukova dumka. [Russian]
Kolomiec AA, Chapalda TL. 2020. Fruit weevil (Conotrachelus nenuphar HB.)-a dangerous pest of fruit crops. Achievements of agricultural science in production. [Russian]
Kolov SV, Korotyaev BA. 2017. On the acclimatization in Southeastern Kazakhstan of two species of weevils (Coleoptera, Curculionidae: Entiminae) that harm fruit and berry crops. Entomological Review. [Russian]
Khromov AV, Cherednichenko MY. 2022. In vitro culture of Zingeria biebersteiniana (Claus) P. Smirn as a method of conservation and expanding its biodiversity. In IOP Conference Series: Earth and Environmental Science, 981(4): p. 042070.
Mehra A, Mehra PN. 1974. Organogenesis and plantlet formation in vitro in almond. Botanical Gazette, 135(1): 61-73.
Murashige T, Skoog FA. 1962. Revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant, 15 (13): 473–497
Myrzagalieva AB, Akzambek AM, Orazov AE, Tuktasinova AA. 2017. Biotechnological techniques of micro-propagation of almonds Ledeburovsky. International Scientific and Practical Conference Actual problems of biotechnology, ecology and physico-chemical biology, Almaty, 6-7 April 2017.
Namli S, Isikalan C, Akbas F, Basaran D 2011. Improved in vitro rooting of almond (Amygdalus communis) cultivar Nonpareil. Plant Omics, 4(1): 14-18.
Orazov A, Tustubayeva Sh, Alemseytova J, Mukhitdinov N, Myrzagaliyeva A, Turuspekov Y, Sramko G. 2021. Flora accompanying Prunus ledebouriana (Schltdl.) YY Yao in the Tarbagatai State National Park in Kazakhstan. International Journal of Biology and Chemistry. 14(1): 21-34.
Orazov ?E, Mukhitdinov NM, Myrzagaliyeva ?B, Sramko G, Tustubayeva ShT, Karatayeva AC, Turuspekov YK. 2020. Distribution of two species of the Chamaeamygdalus section of the Rosaceae family in Eastern Kazakhstan. Bulletin of the KazNU. Biological series 82(1): 75-86. [Kazakh]
Orazov AE, Myrzagaliyeva AB, Zhangozhina GM, Tustubayeva Sh T, Karatayeva AS. 2020. Scientific and legal aspects of preservation of rare representatives of dwarf almond section of flora in East Kazakhstan. Bulletin of the Karaganda University, Biology. Medicine. Geography series: 2(98): 45-52. DOI: 10.31489 / 2020BMG2 / 45-52.
Patent for a utility model. 2020. Method for obtaining a modified Murasige-Skuga nutrient medium for the induction of callus formation from immature embryos of Ledebur almonds (Amygdalus ledebouriana Schlecht.) applicant and patent holder Astana International University. No. 5684; application. 26.05.2020; publ. 25.12.2020. [Russian]
Flora of Kazakhstan. 1961. Volume IV (team of authors). Alma-ata: Publishing house of the Academy of Sciences of the Kazakh SSR. [Russian]
Flora SSSR. 1941. Volume X. (team of authors). Moscow: Publishing house of the Academy of Sciences of the SSSR. [Russian]
Popov GD. 2016. The effect of phytohormones and sucrose on the growth of apple callus. Current biotechnology, 2: 20-24 [Russian]
Romadanova NV, Mishustina SA, Karasholakova LN, Aralbaeva ??, Kabulova FD, Abidkulova KT, Kushnarenko SV. 2015. Introduction to in vitro culture of wild species of Berberis flora of Kazakhstan and Uzbekistan. Bulletin of the KazNU. Biological series 65(3): 346-354. [Russian]
Svistulenko VV. 2018. Reproduction of low almonds (Amygdalus nana) in open and closed ground conditions. [Dissertation]. Russia. [Russian]
Stepanova EF. 1962. Flora and vegetation of the Tarbagatai ridge. Alma-Ata: Publishing house of the Academy of Sciences of the Kazakh SSR. [Russian]
Schlechtendal DFL. von. 1854. Abhandlungen der Naturforschenden Gesellschaft zu Halle 2.
Sokolov SYa, Svyazeva OA, Kubli VA. 1980. Habitats of trees and shrubs of the USSR: 2 [Russian]
Timofeeva OA, Rumyanceva NI. 2012. Culture of plant cells and tissues. Kazan university, Kazan: Kazanskij universitet. [Russian]
Vintereoller BA. 1976. Rare plants of Kazakhstan. Publishing house of sciences. [in Russian]
Vysotskiy VA., Upadyshev MT. 2015. Regenerative ability of Rubus L. genera explants of different origination. Horticulture and viticulture. 4: 24-2