Responses of Musa spp. cultivars to in vitro water stress induced with polyethylene glycol 6000

Bananas and plantains are crops very sensitive to water deficit. Increasingly prolonged drought condition suggests the need for tolerant plants to this factor. The early selection of these plants in in vitro conditions save time and allow working with large volumes of individuals. This requires havi...

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Veröffentlicht in:	Revista Colombiana de biotecnologia 2017-07, Vol.19 (2), p.75
Hauptverfasser:	Moreno-Bermúdez, Leonardo Julio, Reyes, Maritza, Rodríguez, Mayelín, Kosky, Rafael G, Roque, Berkis, Chong-Pérez, Borys
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Schlagworte:	Bananas Cultivars Drought Hydrogen peroxide Malondialdehyde Osmosis Plant growth Plantains Polyethylene glycol Proline Semisolids
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creator	Moreno-Bermúdez, Leonardo Julio Reyes, Maritza Rodríguez, Mayelín Kosky, Rafael G Roque, Berkis Chong-Pérez, Borys
description	Bananas and plantains are crops very sensitive to water deficit. Increasingly prolonged drought condition suggests the need for tolerant plants to this factor. The early selection of these plants in in vitro conditions save time and allow working with large volumes of individuals. This requires having genotypes with favorable response to in vitro water deficit. The aim of this work was to determine the response of Musa spp. cultivars, with different genotype contribution, to in vitro water stress induced by polyethylene glycol 6000 (PEG-6000). Cultivars ‘Pelipita’ (ABB), ‘Manzano’ (AAB) and ‘Grande naine’ (AAA) were cultured in semisolid multiplication medium supplemented with PEG-6000 30 g/L. Different stress indicator traits were evaluated after 30 days (morphological: height and number of shoots per explant; physiological: fresh and dry weight; and biochemical: proline, hydrogen peroxide and malondialdehyde content). As results, osmotic stress affected only plant height in ‘Pelipita’ cultivar. However, in the other cultivars all variables were affected, except dry weight in ‘Manzano’. Moreover cv. ‘Grande naine’ and ‘Manzano’ increased proline, hydrogen peroxide and malondialdehyde content. These results indicate that osmotic pressure could induce oxidative stress and cell membrane damages in these cultivars. The obtained results suggested that these genotypes could be used as a tolerant (‘Pelipita’) and sensitive (‘Grande naine’ and ‘Manzano’) controls in in vitro selection of drought-tolerant plants in future breeding programs.
doi_str_mv	10.15446/rev.colomb.biote.v19n2.60405
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Increasingly prolonged drought condition suggests the need for tolerant plants to this factor. The early selection of these plants in in vitro conditions save time and allow working with large volumes of individuals. This requires having genotypes with favorable response to in vitro water deficit. The aim of this work was to determine the response of Musa spp. cultivars, with different genotype contribution, to in vitro water stress induced by polyethylene glycol 6000 (PEG-6000). Cultivars ‘Pelipita’ (ABB), ‘Manzano’ (AAB) and ‘Grande naine’ (AAA) were cultured in semisolid multiplication medium supplemented with PEG-6000 30 g/L. Different stress indicator traits were evaluated after 30 days (morphological: height and number of shoots per explant; physiological: fresh and dry weight; and biochemical: proline, hydrogen peroxide and malondialdehyde content). As results, osmotic stress affected only plant height in ‘Pelipita’ cultivar. 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subjects	Bananas Cultivars Drought Hydrogen peroxide Malondialdehyde Osmosis Plant growth Plantains Polyethylene glycol Proline Semisolids
title	Responses of Musa spp. cultivars to in vitro water stress induced with polyethylene glycol 6000
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