Your search keyword '"Klerk, Geert-Jan"' showing total 2 results

1. Azacytidine and miR156 promote rooting in adult but not in juvenile Arabidopsis tissues.

Author

Massoumi M, Krens FA, Visser RG, and De Klerk GM

Subjects

Arabidopsis drug effects, Arabidopsis genetics, DNA Methylation, Gene Expression, Gene Expression Regulation, Plant, Plant Leaves drug effects, Plant Leaves genetics, Plant Leaves physiology, Plant Roots drug effects, Plant Roots genetics, Plant Roots physiology, Plants, Genetically Modified, Seedlings drug effects, Seedlings genetics, Seedlings physiology, Arabidopsis physiology, Azacitidine pharmacology, Enzyme Inhibitors pharmacology, MicroRNAs genetics

Abstract

Poor adventitious root (AR) formation is a major obstacle in micropropagation and conventional vegetative propagation of many crops. It is affected by many endogenous and exogenous factors. With respect to endogenous factors, the phase change from juvenile to adult has a major influence on AR formation and rooting is usually much reduced or even fully inhibited in adult tissues. It has been reported that the phase change is characterized by an increase in DNA-methylation and a decrease in the expression of microRNA156 (miR156). In this paper, we examined the effect of azacytidine (AzaC) and miR156 on AR formation in adult and juvenile Arabidopsis tissues. To identify the ontogenetic state researchers have used flowering or leaf morphology. We have used the rootability which allows - in contrast with both other characteristics- to examine the ontogenetic state at the cellular level. Overexpression of miR156 promoted only the rooting of adult tissues indicating that the phase change-associated loss in tissues' competence to develop ARs is also under the control of miR156. Azacytidine inhibits DNA methylation during DNA replication. Azacytidine treatment also promoted AR formation in nonjuvenile tissues but had no or little effect in juvenile tissues. Its addition during seedling growth (by which all tissues become hypomethylated) or during the rooting treatment (by which only those cells become hypomethylated that are generated after taking the explant) are both effective in the promotion of rooting. An AzaC treatment may be useful in tissue culture for crops that are recalcitrant to root., (Copyright © 2016 Elsevier GmbH. All rights reserved.)

Published

2017

2. Flooding of the apoplast is a key factor in the development of hyperhydricity.

Author

van den Dries N, Giannì S, Czerednik A, Krens FA, and de Klerk GJ

Subjects

Arabidopsis genetics, Arabidopsis growth & development, Ethylenes metabolism, Organelles genetics, Oxygen metabolism, Plant Leaves genetics, Plant Leaves growth & development, Plant Leaves metabolism, Seedlings genetics, Seedlings growth & development, Seedlings metabolism, Arabidopsis metabolism, Organelles metabolism, Water metabolism

Abstract

The physiological disorder hyperhydricity occurs frequently in tissue culture and causes several morphological abnormalities such as thick, brittle, curled, and translucent leaves. It is well known that hyperhydric shoots are characterized by a high water content, but how this is related to the abnormalities is not clear. It was observed that water accumulated extensively in the apoplast of leaves of hyperhydric Arabidopsis seedlings and flooded apoplastic air spaces almost completely. In hyperhydric Arabidopsis seedlings, the volume of apoplastic air was reduced from 85% of the apoplast to only 15%. Similar results were obtained with hyperhydric shoots of statice. The elevated expression of hypoxia-responsive genes in hyperhydric seedlings showed that the water saturation of the apoplast decreased oxygen supply. This demonstrates a reduced gas exchange between the symplast and its surroundings, which will consequently lead to the accumulation of gases in the symplast, for example ethylene and methyl jasmonate. The impairment of gas exchange probably brings about the symptoms of hyperhydricity. Interestingly, stomatal aperture was reduced in hyperhydric plants, a previously reported response to injection of water into the apoplast. Closure of the stomata and the accumulation of water in the apoplast may be the reasons why seedlings with a low level of hyperhydricity showed improved acclimatization after planting into soil.

Published

2013