A new chromosome fluorescence banding technique combining DAPI staining with image analysis in plants

Liu, Jingyu; She, Chao Wen; Hu, Zhong Li; Xiong, Zhiyong; Liu, Li Hua; Song, Yun

doi:10.1007/s00412-004-0289-1

Cited by 13 publications

(17 citation statements)

References 32 publications

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“…The total number of the DAPI bands per haploid pea genome is 344. For comparison: 185 DAPI bands per haploid genome are observed on metaphase barley chromosomes after deconvolution, though the genome size in barley is larger than in pea [23]. Thus, the use of intercalator 9-aminoachridine significantly increases resolution of differential banding of pea chromosomes, as was earlier shown for other organisms [21,[24][25][26].…”

Section: Resultsmentioning

confidence: 72%

Investigation of Chromosomes in Varieties and Translocation Lines of Pea Pisum sativum L. by FISH, Ag-NOR, and Differential DAPI Staining

et al. 2005

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Section: Resultsmentioning

confidence: 72%

Investigation of Chromosomes in Varieties and Translocation Lines of Pea Pisum sativum L. by FISH, Ag-NOR, and Differential DAPI Staining

et al. 2005

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“…However, it is difficult to produce identifiable bands in plant chromosomes stained by various dyes due to the coarseness in the pattern of the bands. The development of computer image processing and analysis techniques, especially the technique of 3D reconstruction and deconvolution, could improve banding resolution and offer opportunities to obtain clear bands [33]. In maize meiotic pachytene chromosomes, 3D imaging data provided a complete view of various histone methylation distributions [12].…”

Section: Discussionmentioning

confidence: 99%

Comparative Analysis of Genome-Wide Chromosomal Histone Modification Patterns in Maize Cultivars and Their Wild Relatives

Yan

Wang

et al. 2014

PLoS ONE

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Recent advances demonstrate that epigenome changes can also cause phenotypic diversity and can be heritable across generations, indicating that they may play an important role in evolutionary processes. In this study, we analyzed the chromosomal distribution of several histone modifications in five elite maize cultivars (B73, Mo17, Chang7-2, Zheng58, ZD958) and their two wild relatives (Zea mays L. ssp. parviglumis and Zea nicaraguensis) using a three-dimensional (3D) epigenome karyotyping approach by combining immunostaining and 3D reconstruction with deconvolution techniques. The distribution of these histone modifications along chromosomes demonstrated that the histone modification patterns are conserved at the chromosomal level and have not changed significantly following domestication. The comparison of histone modification patterns between metaphase chromosomes and interphase nuclei showed that some of the histone modifications were retained as the cell progressed from interphase into metaphase, although remodelling existed. This study will increase comprehension of the function of epigenetic modifications in the structure and evolution of the maize genome.

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“…A ladder of polynucleosomes is observed after 30 s on the lhp1 nuclei (1: mononucleosome, 2: dinucleosomes...). Ld: 100 bp DNA Ladder, a: 600-bp fragment known from several studies (Moscone et al 1996;Ali et al 2000;Liu et al 2004). However, such large AT-rich segments are not present in the A. thaliana genome.…”

Section: Influence Of the Size Of The Genome On The Lhp1 Localizationmentioning

confidence: 97%

The Arabidopsis LHP1 protein is a component of euchromatin

Libault¹,

Tessadori

Germann³

et al. 2005

Planta

105

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The HP1 family proteins are involved in several aspects of chromatin function and regulation in Drosophila, mammals and the fission yeast. Here we investigate the localization of LHP1, the unique Arabidopsis thaliana HP1 homolog known at present time, to approach its function. A functional LHP1-GFP fusion protein, able to restore the wild-type phenotype in the lhp1 mutant, was used to analyze the subnuclear distribution of LHP1 in both A. thaliana and Nicotiana tabacum. In A. thaliana interphase nuclei, LHP1 was predominantly located outside the heterochromatic chromocenters. No major aberrations were observed in heterochromatin content or chromocenter organization in lhp1 plants. These data indicate that LHP1 is mainly involved in euchromatin organization in A. thaliana. In tobacco BY-2 cells, the LHP1 distribution, although in foci, slightly differed suggesting that LHP1 localization is determined by the underlying genome organization of plant species. Truncated LHP1 proteins expressed in vivo allowed us to determine the function of the different segments in the localization. The in foci distribution is dependent on the presence of the two chromo domains, whereas the hinge region has some nucleolus-targeting properties. Furthermore, like the animal HP1beta and HP1gamma subtypes, LHP1 dissociates from chromosomes during mitosis. In transgenic plants expressing the LHP1-GFP fusion protein, two major localization patterns were observed according to cell types suggesting that localization evolves with age or differentiation states. Our results show conversed characteristics of the A. thaliana HP1 homolog with the mammal HP1gamma isoform, besides specific plant properties.

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A new chromosome fluorescence banding technique combining DAPI staining with image analysis in plants

Cited by 13 publications

References 32 publications

Investigation of Chromosomes in Varieties and Translocation Lines of Pea Pisum sativum L. by FISH, Ag-NOR, and Differential DAPI Staining

Investigation of Chromosomes in Varieties and Translocation Lines of Pea Pisum sativum L. by FISH, Ag-NOR, and Differential DAPI Staining

Comparative Analysis of Genome-Wide Chromosomal Histone Modification Patterns in Maize Cultivars and Their Wild Relatives

The Arabidopsis LHP1 protein is a component of euchromatin

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