Ex vitro rooting of micro-propagated intergeneric papaya through phloroglucinol
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https://doi.org/10.58993/ijh/2023.80.4.9Keywords:
Papaya, in vitro, ex vitro, acclimatization, phloroglucinol, micropropagationIssue
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Micropropagation techniques of papaya have been optimized worldwide. The standard rapid multiplicationAbstract
technique of papaya, which is economically viable still needs to be improved. Although establishing in vitro culture
is easy, at the same time, in vitro rooting of papaya is still very difficult. However, in vitro rooting is costly, and the
roots initiated in vitro do not have lateral branches and root hairs, making them difficult to acclimatize. Hence, the
experiments on ex vitro rooting induction of micro-propagated plantlets and acclimatization were conducted. In
vitro cultures were established using shoot tips from selected advanced intergeneric hybrid seedlings. They were
inoculated onto Murashige and Skoog (MS) medium + 3% sucrose + 1 μM BAP + 1 μM GA3 + 0.1 μM IAA + 0.25%
phytagel until plantlets were obtained. For ex-vitro rooting, plantlets were cultured with various concentrations of
phloroglucinol (PG) to investigate the appropriate rooting condition. Direct rooting of papaya micro-cutting into
potting medium (perlite + vermiculite + coco peat; in the ratio of 1:1:2) subsequent dipping into phloroglucinol
was more effective than in vitro rooting and led to 82% survival of micro-cutting during acclimatization. PG at
1000 μM was more effective than IBA in encouraging root development. The Sachet method was found to be the
most appropriate for ex vitro rooting and hardening of papaya with single-step acclimatization.
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Agnihotri, S., Singh, S. K., Jain, M., Sharma, M., Sharma, A. K. and Chaturvedi, H. C. 2004. In vitro cloning of female and male Carica papaya through tips of shoots and inflorescences. Indian J. Biotechnol. 3: 235-240. Bhattacharya, J. and Khuspe, S. S. 2001. In vitro and in vivo germination of papaya (Carica papaya L.) seeds. Sci. Hortic. 91: 39-49. Daud, N., Faizal, A. and Geelen, D. 2013. Adventitious rooting of Jatropha curcas L. is stimulated by phloroglucinol and by red LED light. In Vitro Cell. Dev. Biol. Plant. 49: 183-190. El-Banna, M. F., Farag, N. B., Massoud, H. Y. and Kasem, M. M. 2023. Exogenous IBA stimulated adventitious root formation of Zanthoxylum beecheyanum K. Koch stem cutting: Histo-physiological and phytohormonal investigation. Plant Physiol. Biochem. 197: 107639. FAO (2019). FAOSTAT database collections. http://faostat.fao.org Hammatt, N. 1994. Promotion by phloroglucinol of adventitious root formation in micro-propagated shoots of adult wild cherry (Prunus avium L.). Plant Growth Regul. 14: 127-132. Hunter, L. D. 1975. Phloridzin and apple scab. Phytochem. 14: 1519-152. James, D. J. 1979. The role of auxins and phloroglucinol in adventitious root formation in Rubus and Fragaria grown in vitro. J. Hort. Sci. 54: 273-277. Kim, J. H., Kwon, B. M., Ho, T. T. and Park, S. Y. 2020. Phloroglucinol improves direct rooting of in vitro cultured apple rootstocks M9 and M26. Agronomy 10: 1079. McCubbin, M. J. and Van Staden, J. 2003. A modified technique for in vitro propagation of papaya (Carica papaya L.). South Afric. J. botany. 69(3): 287-291. Ming, R., Hou, S., Feng, Y., Yu, Q., Dionne-Laporte, A., Saw, J. H., Senin, P., Wang, W., Ly, B. V., Lewis, K. L. and Salzberg, S. L. 2008. The draft genome of the transgenic tropical fruit tree papaya (Carica papaya L.). Nature. 452: 991-996. Modgil, M., Sharma, D. R. and Bhardwaj, S. V. 1999. Micropropagtion of apple cv. Tydeman's Early Worcester. Sci. Hort. 81: 179-188. Murashige, T. and Skoog, F. 1962. A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiol. Plant. 15: 473-497. Perez, L. P., Kosky, G. R. and Reyes, V. M. 2007. Somatic embryogenesis in Carica papaya L. var. Red Maradol. Biotecnología Vegetal J. 7: 131-138. Perez, L. P., Montesinos, Y. P., Olmedo, J. G., Rodriguez, R. B., Sanchez, R. R., Montenegro, O. N. and Gómez-Kosky, R. 2016. Effect of phloroglucinol on rooting and in-vitro acclimatization of papaya (Carica papaya L. var. Maradol Roja). In Vitro Cell. Dev. Biol. Plant. 52: 196-203. Ravindra, M. B. and Thomas, P. 1995. Sachet technique–an efficient method for the acclimatization of micropropagated grapes (Vitis vinifera L.). Curr. Sci. 68: 546-548. Sekeli, R., Abdullah, J. O., Namasivayam, P., Muda, P. and Abu Bakar, U. M. 2013. Better rooting procedure to enhance survival rate of field grown Malaysian Eksotika papaya transformed with 1- Aminocyclopropane-1-carboxylic acid oxidase gene. ISRN Biotechnol. 13: 1-10. Setargie, A., Mekbib, F. and Abraha, E. 2015. In-vitro propagation of Papaya (Carica papaya L.). World J. Agric. Sci. 11: 84-88. Suksa-ard, P., Kataoka, I., Fujime, Y., Beppu, K. and Subhadrabandhu, S. 1998. Development of rooting system for tissue cultured papaya shoots using rockwool blocks. Japanese J. Tropical Agric. 42: 119-121. Webster, C. A. and Jones, O. P. 1989. Micropropagation of the apple rootstock M.9: effect of sustained subculture on apparent rejuvenation in vitro. J. hort. Sci. 64: 421-428. Wu, K. L., Zeng, S. J., Chen, Z. L. and Duan, J. 2012. In-vitro mass propagation of hermaphroditic Carica papaya cv. Meizhonghong. Pakistan J. Botany. 44: 1669-1676.
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