Back to Search Start Over

Nitrogen remobilisation facilitates adventitious root formation on reversible dark-induced carbohydrate depletion in Petunia hybrida.

Authors :
Zerche S
Haensch KT
Druege U
Hajirezaei MR
Source :
BMC plant biology [BMC Plant Biol] 2016 Oct 10; Vol. 16 (1), pp. 219. Date of Electronic Publication: 2016 Oct 10.
Publication Year :
2016

Abstract

Background: Adventitious root (AR) formation in axillary shoot tip cuttings is a crucial physiological process for ornamental propagation that is utilised in global production chains for young plants. In this process, the nitrogen and carbohydrate metabolisms of a cutting are regulated by its total nitrogen content (N <subscript>t</subscript> ), dark exposure during transport and irradiance levels at distinct production sites and phases through a specific plasticity to readjust metabolite pools. Here, we examined how elevated N <subscript>t</subscript> contents with a combined dark exposure of cuttings influence their internal N-pools including free amino acids and considered early anatomic events of AR formation as well as further root development in Petunia hybrida cuttings.<br />Results: Enhanced N <subscript>t</subscript> contents of unrooted cuttings resulted in elevated total free amino acid levels and in particular glutamate (glu) and glutamine (gln) in leaf and basal stem. N-allocation to mobile N-pools increased whereas the allocation to insoluble protein-N declined. A dark exposure of cuttings conserved initial N <subscript>t</subscript> and nitrate-N, while it reduced insoluble protein-N and increased soluble protein, amino- and amide-N. The increase of amino acids mainly comprised asparagine (asn), aspartate (asp) and arginine (arg) in the leaves, with distinct tissue specific responses to an elevated N supply. Dark exposure induced an early transient rise of asp followed by a temporary increase of glu. A strong positive N effect of high N <subscript>t</subscript> contents of cuttings on AR formation after 384 h was observed. Root meristematic cells developed at 72 h with a negligible difference for two N <subscript>t</subscript> levels. After 168 h, an enhanced N <subscript>t</subscript> accelerated AR formation and gave rise to first obvious fully developed roots while only meristems were formed with a low N <subscript>t</subscript> . However, dark exposure for 168 h promoted AR formation particularly in cuttings with a low N <subscript>t</subscript> to such an extent so that the benefit of the enhanced N <subscript>t</subscript> was almost compensated. Combined dark exposure and low N <subscript>t</subscript> of cuttings strongly reduced shoot growth during AR formation.<br />Conclusions: The results indicate that both enhanced N <subscript>t</subscript> content and dark exposure of cuttings reinforced N signals and mobile N resources in the stem base facilitated by senescence-related proteolysis in leaves. Based on our results, a model of N mobilisation concomitant with carbohydrate depletion and its significance for AR formation is postulated.

Details

Language :
English
ISSN :
1471-2229
Volume :
16
Issue :
1
Database :
MEDLINE
Journal :
BMC plant biology
Publication Type :
Academic Journal
Accession number :
27724871
Full Text :
https://doi.org/10.1186/s12870-016-0901-6