Effect of activated charcoal on multiplication of African yam (Dioscorea cayenensis-rotundata) nodal segments using a temporary immersion bioreactor (RITA?)
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  • 作者:Frederik Polzin (1)
    Isabelle Sylvestre (1)
    Eveline Déchamp (2)
    Pascal Ilbert (3)
    Hervé Etienne (2)
    Florent Engelmann (1)
  • 关键词:Activated charcoal ; Benzylaminopurine ; Dioscorea cayenensis ; rotundata ; Nodal segments ; Temporary immersion ; RITA? bioreactors
  • 刊名:In Vitro Cellular & Developmental Biology - Plant
  • 出版年:2014
  • 出版时间:March 2014
  • 年:2014
  • 卷:50
  • 期:2
  • 页码:210-216
  • 全文大小:235 KB
  • 参考文献:1. Albarrán J.; Bertrand B.; Lartaud M.; Etienne H. Cycle characteristics in a temporary immersion bioreactor affect regeneration, morphology, water and mineral status of coffee ( / Coffea arabica) somatic embryos. / Plant Cell Tissue Organ Cult. 81: 27-6; 2005. CrossRef
    2. Asiedu R.; Sartie A. Crops that feed the world 1. Yams. / Food Secur. 2: 305-15; 2010. CrossRef
    3. Barry-Etienne D.; Bertrand B.; Schl?ngvoigt A.; Etienne H. The morphological variability within a population of coffee somatic embryos produced in a bioreactor affects the regeneration and the development of plants in the nursery. / Plant Cell Tissue Organ Cult. 68: 153-62; 2002a. CrossRef
    4. Barry-Etienne D.; Bertrand B.; Vasquez N.; Etienne H. Comparison of somatic embryogenesis-derived coffee ( / Coffea arabica L.) plantlets regenerated / in vitro or / ex vitro conditions: morphological, mineral and water characteristics. / Ann. Bot. 90: 77-5; 2002b. CrossRef
    5. Chu E. P.; Figueiredo-Ribeiro R. C. L. Native and exotic species of / Dioscorea used as food in Brazil. / Econ. Bot. 45: 467-79; 1991. CrossRef
    6. Degras L. The yam: a tropical root crop. Macmillan, London; 1993. 405 pp.
    7. Engelmann F. Use of biotechnologies for the conservation of plant biodiversity. / In Vitro Cell Dev. Biol. Plant 47: 5-6; 2011. CrossRef
    8. Etienne H.; Berthouly M. Temporary immersion systems in plant micropropagation. / Plant Cell Tissue Organ Cult. 69: 215-31; 2002. CrossRef
    9. George E. F. Plant propagation by tissue culture. Part 1: the technology. Exegetics, Edington; 1993a.
    10. George E. F. Plant propagation by tissue culture. Part 2: in practice. Exegetics, Edington; 1993b.
    11. Hussey G. Problems and prospects in the / in vitro propagation of herbaceous plants. In: Withers L. A.; Alderson P. G. (eds) Plant tissue culture and its agricultural applications. Butterworths, Boston, pp 69-4; 1986. CrossRef
    12. Jova M. C.; Kosky R. G.; Cabrera A. R.; De Feria M.; Pérez M. B.; Vega V. M.; Torres J. L. Performance of yam microtubers from temporary immersion system in field conditions. / Afr. J. Biotech. 10: 9268-271; 2011a.
    13. Jova M. C.; Kosky R. G.; Cuellar E. E. Effect of liquid media culture systems on yam plant growth ( / Dioscorea alata L. ‘Pacala Duclos-. / Biotechnol. Agron. Soc. Environ. 15: 515-21; 2011b.
    14. Jova M. C.; Kosky R. G.; Cuellar E. E.; Cuellar A. E. Efficiency of semi-automated culture systems on microtuber formation of yam ( / Dioscorea alata L.). / Biotechnol. Agron. Soc. Environ. 16: 45-7; 2012.
    15. Jova M. C.; Kosky R. G.; Morales S. R.; Torres J. L.; Cabrera A. R.; Pérez M. B.; Pino A. S.; Vega V. M.; Rodriguez G. R. Multiplicacion / in vitro de segmentos nodales del clon de name Blanco de Guinea ( / Dioscorea cayenensis-em class="a-plus-plus">D. rotundata) en sistemas de cultivo semiautomatizado. / Rev. Col. Biotech. 10: 97-03; 2008 (in Spanish).
    16. Jova M. C.; Kosky R. G.; Pérez M. B.; Pino A. S.; Vega V. M.; Torres J. L.; Cabrera A. R.; García M. G.; de Ventura J. C. Production of yam microtubers using a temporary immersion system. / Plant Cell Tissue Organ Cult. 83: 103-07; 2005. CrossRef
    17. Jova M. C.; Pérez M. B.; Nunez Y. T.; Jimenez A. R.; Pino A. S.; Vega V. M.; Cabrera A. R.; Torres J. L.; García M. G.; de Ventura J. C.; Valdes M. O. Empleo de sistemas de inmersion temporal para la multiplicacion de segmentos nodales de / Dioscorea alata L. En el clon ‘Pacala Duclos- / Biotec Veg 4: 3-; 2004 (in Spanish).
    18. Mallón R.; Covelo P.; Vieitez A. M. Improving secondary embryogenesis in / Quercus robur: application of temporary immersion for mass propagation. / Trees 26: 731-41; 2012. CrossRef
    19. Mantell S. H.; Hugo S. A. Effects of photoperiod, mineral medium strength, inorganic ammonium, sucrose and cytokinin on root, shoot and microtuber development in shoot cultures of / Dioscorea alata L. and / D. bulbifera L. yams. / Plant Cell Tissue Organ Cult. 16: 23-7; 1989. CrossRef
    20. Mantell S. H.; Haque S. Q.; Whitehall A. P. Clonal multiplication of / Dioscorea alata L. and / Dioscorea rotundata Poir. yams by tissue culture. / J. Hortic. Sci. 53: 95-8; 1978.
    21. Mantell S. H.; Haque S. Q.; Whitehall A. P. Apical meristem tip culture for eradication of flexous rod viruses in yam ( / Dioscorea alata). / Trop. Pest. Manag. 26: 170-79; 1980. CrossRef
    22. McAlister B.; Finnie J.; Watt M. P.; Blakeway F. Use of temporary immersion bioreactor system (RITA?) for production of commercial / Eucalyptus clones in Mondi Forests (SA). / Plant Cell Tissue Organ Cult. 81: 347-58; 2005. CrossRef
    23. Mordocco A. M.; Brumbley J. A.; Lakshmanan P. Development of a temporary immersion system (RITA?) for mass production of sugarcane ( / Saccharum spp. interspecific hybrids). / In Vitro Cell Dev. Biol. Plant 45: 450-57; 2009. CrossRef
    24. Murashige T.; Skoog F. A revised medium for rapid growth and bioassays with tobacco tissue cultures. / Physiol. Plant. 15: 473-97; 1962. CrossRef
    25. Ng H. Q.; Ng S.Y.C. Yam field genebank management at IITA. In: Engelmann F (ed). Management of field and / in vitro germplasm collections. Proceedings of a Consultation Meeting, 15-0 January 1996, CIAT, Cali, Colombia. International Plant Genetic Resources Institute, Rome, Italy, pp 16-8; 1999.
    26. Ng N. Q.; Ng S. Y. C. Approaches for yam germplasm conservation. In: Akoroda M. O. (ed) Root crops for food security in Africa. CTA/ Conseil Phytosanitaire Interafricain IITA, Wageningen, pp 135-40; 1994.
    27. Ng S. Y. C.; Ng N. Q. Germplasm conservation in food yams ( / Dioscorea spp.): constraints, application and future prospects. In: Razdan M. C.; Cocking E. C. (eds) Conservation of plant genetic resources / in vitro, vol. 1. General aspects. Science, New Hampshire, pp 257-86; 1997.
    28. Niemenak N.; Saare-Surminski K.; Rohsius C.; Ndoumou D. O.; Lieberei R. Regeneration of somatic embryos in / Theobroma cacao L. In temporary immersion bioreactor and analyses of free amino acids in different tissues. / Plant Cell Rep. 27: 667-76; 2008. CrossRef
    29. Pan M. J.; van Staden J. The use of charcoal in / in vitro culture—a review. / Plant Growth Regul. 26: 155-63; 1998. CrossRef
    30. Roels S.; Noceda C.; Escalona M.; Sandoval J.; Canal M. J.; Rodriguez R.; Debergh P. The effect of headspace renewal in a temporary immersion bioreactor on plantain ( / Musa AAB) shoot proliferation and quality. / Plant Cell Tissue Organ Cult. 84: 155-63; 2006. CrossRef
    31. Salazar Díaz R.; Hoyos Sánchez R. A. Multiplication and / in vitro tuberization of yam ( / Dioscorea alata L.) in temporary immersion system. / Rev. Fac. Nal. Agr. Medellín 60: 3907-921; 2007 (in Spanish with English abstract).
    32. Steinmacher D. A.; Guerra M. P.; Saare-Surminski K.; Lieberei R. A temporary immersion system improves / in vitro regeneration of peach palm through secondary somatic embryogenesis. / Ann. Bot. 108: 1463-475; 2011. CrossRef
    33. Teisson C.; Alvard D. A new concept of plant / in vitro cultivation liquid medium: temporary immersion. In: Terri M.; Cella R.; Falavigna A. (eds) Current issues in plant molecular and cellular Biology. Kluwer, Dordrecht, pp 105-10; 1995. CrossRef
    34. Thomas T. D. The role of activated charcoal in plant tissue culture. / Biotechnol. Adv. 26: 618-31; 2008. CrossRef
    35. Uchendu E. E.; Palyiath G.; Brown D. C. W.; Saxena P. K. / In vitro propagation of North American ginseng ( / Panax quinquefolius L.). / In Vitro Cell Dev. Biol. Plant 47: 710-18; 2011. CrossRef
    36. Watt M. P. The status of temporary immersion system (TIS) technology for plant micropropagation. / Afr. J. Biotech. 11: 14025-4035; 2012.
    37. Yan H.; Yang L.; Li Y. Improved growth and quality of / Dioscorea fordii Prain et Burk and / Dioscorea alata plantlets using a temporary immersion system. / Afr. J. Biotech. 10: 19444-9448; 2011. CrossRef
    38. Yoon Y. J.; Niranjana Murthi H.; Hahn E. J.; Paek K. Y. Biomass production of / Anoectochilus formosanus Hayata in a bioreactor system. / J. Plant Biol. 50: 573-76; 2007. CrossRef
    39. Ziv M.; Meir G.; Halevy A. H. Factors influencing the production of hardened glaucous carnation plantlets / in vitro. / Plant Cell Tissue Organ Cult. 2: 55-5; 1983. CrossRef
  • 作者单位:Frederik Polzin (1)
    Isabelle Sylvestre (1)
    Eveline Déchamp (2)
    Pascal Ilbert (3)
    Hervé Etienne (2)
    Florent Engelmann (1)

    1. IRD, UMR DIADE, 911 avenue Agropolis, BP 64501, 34394, Montpellier cedex 5, France
    2. CIRAD, UMR RPB, 911 avenue Agropolis, BP 64501, 34394, Montpellier cedex 5, France
    3. CIRAD, UMR DIADE, 911 avenue Agropolis, BP 64501, 34394, Montpellier cedex 5, France
  • ISSN:1475-2689
文摘
In this study, we compared the growth of Dioscorea cayenensis-rotundata (African yam) nodal segments, using semisolid medium in test tubes and liquid medium in 1-L Recipient for Automated Temporary Immersion (RITA?) temporary immersion bioreactors (TIB), and the application of various culture parameters. The addition of activated charcoal (AC) had a positive effect on the growth of nodal segments, both in semisolid medium and in liquid medium in RITA? bioreactors. After 2?mo culture in the presence of AC, plantlets were 6.4-.6?cm long compared to 3.2-.8?cm in absence of AC, with no significant difference observed between the culture systems. In the range of inoculation densities tested (5-0 nodal segments per RITA? bioreactor), there was no effect on the number of buds produced per nodal segment, the moisture content of plantlets (fresh weight basis), or on net fresh weight gain. By contrast, the individual leaf surface area of plantlets decreased in line with increasing inoculation density. Among the range of benzylaminopurine (BAP) concentrations tested (0-7.6?μM), 0.44?μM induced the highest number of buds (3.8 buds per nodal segment) in the TIB. However, comparable numbers of buds could be produced with media devoid of BAP, either by increasing the frequency of 1-min daily immersion cycles in RITA? bioreactors from one every 12?h to one every 4?h or by using semisolid medium containing AC.
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