8 research outputs found
Adsorption State and Morphology of Tetracyanoquinodimethane Deposited from Solution onto the Atomically Smooth Native Oxide Surface of Al(111) Films Studied by X-ray Photoelectron Spectroscopy and Atomic Force Microscopy
Separation and Detection of Hydrocarbons and Gasoline in Automotive Engine Oil Using a Teflon<sup>®</sup> AF2400-coated Gold-deposited Surface Plasmon Resonance-based Glass Rod Sensor
BRANCHED1 Interacts with FLOWERING LOCUS T to Repress the Floral Transition of the Axillary Meristems in Arabidopsis
BIOINFORMATICS ORIGINAL PAPER
Vol. 21 no. 9 2005, pages 1758–1763 doi:10.1093/bioinformatics/bti253 Computational analysis suggests that alternative first exons are involved in tissue-specific transcription in rice (Oryza sativa
Stress-responsive zinc finger gene ZPT2-3 plays a role in drought tolerance in petunia
12 páginas, 9 figuras, 1 tabla -- PAGS nros. 830-841The petunia gene, ZPT2-3, encodes a Cys2/His2-type zinc finger protein. Here, we describe the expression of ZPT2-3 in response to various stresses and the effects of ZPT2-3 overexpression in transgenic petunia. Mechanical wounding induced accumulation of ZPT2-3 transcript, and the activity of ZPT2-3::luciferase was conferred by the 1668-bp ZPT2-3 upstream sequence, both locally and systemically. This induction was mediated by a jasmonic acid (JA)-dependent and ethylene-independent pathway. ZPT2-3 expression was also induced by cold, drought, and heavy metal treatments. The same ZPT2-3 promoter sequence showed similar responsiveness to wounding, cold, drought, and JA treatments in Arabidopsis when investigated in a β-glucuronidase (GUS) reporter gene, indicating conservation of similar signaling pathways between the two plant species. ZPT2-3 functioned as an active repressor in a transient assay using Arabidopsis leaves. Constitutive overexpression of ZPT2-3 in transgenic petunia plants increased tolerance to dehydration. These results demonstrate the involvement of ZPT2-3 in plant response to various stresses, and suggest its potential utility to improve drought toleranceThis work was supported by a PROBRAIN grant from the Bio-oriented Technology Research Advancement Institution (BRAIN) of Japan and a COE-promotion fund from the Science and Technology Agency of JapanPeer reviewe