Your search keyword '"*VARIEGATED plants"' showing total 10 results

1. Fluorescence kinetic parameters and cyclic electron transport in guard cell chloroplasts of chlorophyll-deficient leaf tissues from variegated weeping fig ( Ficus benjamina L.).

Author

Lysenko, Vladimir

Subjects

ELECTRON transport, GUARD cells (Plant anatomy), VARIEGATED plants, WEEPING fig, ENERGY storage, VARIEGATION, PLANTS

Abstract

Residual chlorophyll in chlorophyll-deficient (albino) areas of variegated leaves of Ficus benjamina originates from guard cell chloroplasts. Photosynthetic features of green and albino sectors of F. benjamina were studied by imaging the distribution of the fluorescence decrease ratio Rfd within a leaf calculated from maximum (Fm) and steady-state leaf chlorophyll fluorescence (Fs) at 690 and 740 nm. Local areas of albino sectors demonstrated an abnormally high Rfd/Rfd ratio. Fluorescence transients excited in albino sectors at red (640 and 690 nm) wavelengths showed an abrupt decrease of the Rfd values (0.4 and 0.1, correspondingly) as compared with those excited at blue wavelengths (1.7-2.4). This 'Red Drop' was not observed for green sectors. Normal and chlorophyll-deficient leaf sectors of F. benjamina were also tested for linear and cyclic electron transport in thylakoids. The tests have been performed studying fluorescence at a steady-state phase with CO-excess impulse feeding, photoacoustic signal generated by pulse light source at wavelengths selectively exciting PSI, fluorescence kinetics under anaerobiosis and fluorescence changes observed by dual-wavelength excitation method. The data obtained for albino sectors strongly suggest the possibility of a cyclic electron transport simultaneously occurring in guard cell thylakoids around photosystems I and II under blue light, whereas linear electron transport is absent or insufficient. [ABSTRACT FROM AUTHOR]

Published

2012

2. SUPPRESSOR OF VARIEGATION4, a New var2 Suppressor Locus, Encodes a Pioneer Protein that Is Required for Chloroplast Biogenesis.

Author

Fei Yua, Sung-Soon Park, Xiayan Liu, Foudree, Andrew, Aigen Fu, Powikrowska, Marta, Khrouchtchova, Anastassia, Jensen, Poul Erik, Kriger, Jillian N., Gray, Gordon R., and Rodermel, Steven R.

Subjects

*CHLOROPLAST formation, *ORGANELLES, *ARABIDOPSIS, *METALLOPROTEINASES, *VARIEGATED plants

Abstract

VAR2 is an integral thylakoid membrane protein and a member of the versatile FtsH class of metalloproteases in prokaryotes and eukaryotes. Recessive mutations in the VAR2 locus give rise to variegated plants (var2) that contain white sectors with abnormal plastids and green sectors with normal-appearing chloroplasts. In a continuing effort to isolate second-site suppressors of var2 variegation, we characterize in this report ems2505, a suppressor strain that has a virescent phenotype due to a missense mutation in At4g28590, the gene for a pioneer protein. We designated this gene SVR4 (for SUPPRESSOR OF VARIEGATION4) and the mutant allele in ems2505 as svr4-1. We demonstrate that SVR4 is located in chloroplasts and that svr4-1 single mutants are normal with respect to chloroplast anatomy and thylakoid membrane protein accumulation. However, they are modestly impaired in several aspects of photochemistry and have enhanced non-photochemical quenching (NPQ) capacity. A T-DNA insertion allele of SVR4, svr4-2, is seedling-lethal due to an early blockage of chloroplast development. We conclude that SVR4 is essential for chloroplast biogenesis, and hypothesize that SVR4 mediates some aspect of thylakoid structure or function that controls NPQ. We propose that in the suppressor strain, photoinhibitory pressure caused by a lack of VAR2 is ameliorated early in chloroplast development by enhanced NPQ capacity caused by reduced SVR4 activity. This would result in an increase in the number of chloroplasts that are able to surmount a threshold necessary to avoid photo-damage and thereby develop into functional chloroplasts. [ABSTRACT FROM PUBLISHER]

Published

2011

3. A Simple and Effective Method for Quantifying Leaf Variegation.

Author

Qiansheng Li, Jianjun Chen, McConnell, Dennis B., and Henny, Richard J.

Subjects

VARIEGATION, VARIEGATED plants, PIXELS, FOLIAGE plants, ORNAMENTAL plants, DIGITAL cameras, SCANNING systems, COLOR

Abstract

A simple and effective method for quantification of leaf variegation was developed. Using a digital camera or a scanner, the image of a variegated leaf was imported into a computer and saved to a file. Total pixels of the entire leaf area and total pixels of each color within the leaf were determined using an Adobe Photoshop graphics editor. Thus, the percentage of each color's total pixel count in relation to the total pixel count of the entire leaf was obtained. Total leaf area was measured through a leaf area meter; the exact area of this color was calculated in reference to the pixel percentage obtained from Photoshop. Using this method, variegated leaves of 'Mary Ann' aglaonema (Aglaonema x), 'Ornate' calathea (Calathea ornate), 'Yellow Petra' codiaeum (C0diaeum variegatum), 'Florida Beauty' dracaena (Dracaena surculosa), 'Camille' dieffenbachia (Dieffenbachia maculata), and 'Triostar' stromanthe (Stromanthe sanguinea) were quantified. After a brief training period, this method was used by five randomly selected individuals to quantify the variegation of the same set of leaves. The results were highly reproducible no matter who performed the quantification. This method, which the authors have chosen to call the quantification of leaf variegation (QLV) method, can be used for monitoring changes in colors and variegation patterns incited by abiotic and biotic stresses as well as quantifying differences in variegation patterns of plants developed in breeding programs. [ABSTRACT FROM AUTHOR]

Published

2007

4. Variegation.

Author

Heeger, Susan

Subjects

LEAVES, VARIEGATED plants, CHLOROPHYLL, VARIEGATION, LANDSCAPE design, GARDEN design

Abstract

Discusses variegated leaves as decorative elements. Use of the term "variegated" to describe foliage that combines two or more colors; Origin of the term variegated; Difference in chlorophyll content in yellow-, white- and red-toned leaves; Creation of decorative element by combining shapes and colors; Planning landscapes and gardens with variegated leaves.

Published

2005

5. STRIPES, SPOTS, and BLOTCHES.

Author

Anderton, Stephen

Subjects

*VARIEGATION, *LANDSCAPE design, *VARIEGATED plants

Abstract

Focuses on the use of variegation in landscape designs. Significance of variegation; Use of variegation as highlight; Use of variegation to highlight formal structures.

Published

2001

6. Growing Tips.

Author

Beaver, Ina

Subjects

*AFRICAN violets, *VARIEGATED plants, *PLANT growth, *VARIEGATION, *EFFECT of heat on plants

Published

2015

7. Variegation - Too Much? Too Little? - A Very Fine Line.

Author

Hancock, Pat

Subjects

*VARIEGATED plants, *PLANT pigments, *VARIEGATION, *FOLIAGE plants, *CHLOROPLASTS

Published

2015

8. Light Requirements and Variegation.

Author

Stork, Joyce

Subjects

*VARIEGATED plants, *AFRICAN violets, *VARIEGATION, *CHLOROPHYLL, *PLANT variation

Abstract

The article discusses how to get variegates to bloom freely by controlling the amount of variegation so that the plant can live. Variegated violets have less chlorophyll and have less ability to produce energy than violets with green foliages. Since blooming requires energy, the variegated violet has too little chlorophyll and cannot process light. A balance is needed so that the violet looks attractive without being so variegated that it can no longer thrive. The process by which plants produce chlorophyll is explained in the article.

Published

2008

9. The Case of the Fading Variegation.

Author

Reilly, Bob

Subjects

*VARIEGATION, *COLOR of plants, *VARIEGATED plants, *COLOR variation (Biology), *LIQUID fertilizers, *LIGHT

Abstract

Describes a case of fading variegation in Vriesea saundersii plant. Cause of the variegation in the plant; Results of putting liquid fertilizer and providing plenty of light for the variegated plant.

Published

2005

10. High Ground.

Subjects

*VARIEGATED plants, *DOGWOODS, *POKEWEED, *GARDENS, *VARIEGATION, *HORTICULTURE

Abstract

Presents an article on variegated plants. Characteristics of Cornus kousa and Phytolacca americana as variegated plants; Discussion on variegated plants providing aesthetics in the garden; Importance of variegation on plants in the garden.

Published

2004