2008
DOI: 10.1007/s11627-008-9165-7
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Involvement of polyamines in the adventitious rooting of micropropagated shoots of the apple rootstock MM106

Abstract: Apple rootstock MM106 shoots, raised in vitro, rooted at 96.7% after culture on a medium supplemented with an auxin for 5 d in darkness followed by culture on a second medium without growth regulators for 25 d in light. In control conditions (in absence of auxin in the first medium), these shoots did not root. Putrescine (PUT), spermidine (SPD), cyclohexylamine (CHA), and aminoguanidine (AG) enhanced rooting when applied during the first d of culture in the absence of IBA; on the contrary, α-difluoromethylorni… Show more

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Cited by 32 publications
(17 citation statements)
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“…Similar polyamine effect on root formation of apple rootstock microcuttings was reported by Naija et al [2009]. In turn, the high positive correlation between in vitro rooting and the increased level of endogenous free polyamines, particularly Put was reported by Neves et al [2002].…”
Section: Discussionsupporting
confidence: 78%
See 1 more Smart Citation
“…Similar polyamine effect on root formation of apple rootstock microcuttings was reported by Naija et al [2009]. In turn, the high positive correlation between in vitro rooting and the increased level of endogenous free polyamines, particularly Put was reported by Neves et al [2002].…”
Section: Discussionsupporting
confidence: 78%
“…Root formation of apple microcuttings is influenced considerably by several medium components and other factors. Rooting efficiency enhancement was obtained by reduction of mineral salt concentration by half or even more (mainly macro-elements, especially ammonium nitrate) [Sriskandarajah et al 1990, Druart 1997 as well as medium supplementation with polyamines [Naija et al 2009], activated charcoal [Magyar-Tábori et al 2001a] and phenolic compounds [De Klerk et al 2011]. Zimmerman and Fordham [1985] proved that increased temperature to even 30°C and darkness during the induction phase lasting 3-7 days significantly enhanced shoot rooting frequency.…”
Section: Introductionmentioning
confidence: 99%
“…Adventitious roots forming from Arabidopsis hypocotyls initiate from a cell layer proximate to the central cylinder and in this regard show similarity to the lateral roots that emerge from pericycle founder cells (Casimiro et al 2001). In many important crop species (including rice, maize and wheat), adventitious roots are formed via vascular cambial cell divisions whereby phloem initials start to divide to produce a primordium (Naija et al 2009) callus in which tracheids differentiate, elongate and eventually form the center of a complete root primordium (Bollmark et al 1988;Lorbiecke and Sauter 1999;Rasmussen and Hunt 2010).…”
Section: Strigolactones Inhibit Adventitious Root Formationmentioning
confidence: 96%
“…In many species, adventitious roots form from cambial cell divisions, which either develop directly into a new primordium or first divide into a callus tissue before tracheid differentiation and primordia establishment (Bollmark et al, 1988;Kevers et al, 1997;De Klerk et al, 1999;Naija et al, 2009;Rasmussen et al, 2009;Rasmussen and Hunt, 2010). As the root tissues form, hormone signaling changes with the restoration of higher strigolactone and cytokinin production, possibly preventing uncontrolled cell division and root initiation.…”
Section: Adventitious Root Initiationmentioning
confidence: 99%