Characterization of a peg-like terminal NOR structure with light microscopy and high-resolution scanning electron microscopy

Schroeder-Reiter, Elizabeth; Houben, Andreas; Grau, Jürke; Wanner, Gerhard

doi:10.1007/s00412-005-0030-8

Cited by 14 publications

(6 citation statements)

References 33 publications

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“…Rather, a 45S rDNA-containing chromatin protrusion might mimic the morphological end of the chromosome. However, no distinct structure associated with terminal NORs was observed [Schroeder-Reiter et al, 2006]. A centromere-free distal end of holocentric chromosomes was also demonstrated for C. elegans , L. nivea [Nagaki et al, 2005], and the insect Oncopeltus fasciatus [Comings and Okada, 1972].…”

Section: Does Holocentricity Dictate a Terminal Position Of Nor Sites?mentioning

confidence: 88%

Holocentric Chromosomes of <i>Luzula elegans</i> Are Characterized by a Longitudinal Centromere Groove, Chromosome Bending, and a Terminal Nucleolus Organizer Region

Heckmann

Schroeder-Reiter

Kumke

et al. 2011

Cytogenet Genome Res

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The structure of holocentric chromosomes was analyzed in mitotic cells of Luzula elegans. Light and scanning electron microscopy observations provided evidence for the existence of a longitudinal groove along each sister chromatid. The centromere-specific histone H3 variant, CENH3, colocalized with this groove and with microtubule attachment sites. The terminal chromosomal regions were CENH3-negative. During metaphase to anaphase transition, L. elegans chromosomes typically curved to a sickle-like shape, a process that is likely to be influenced by the pulling forces of microtubules along the holocentric axis towards the corresponding microtubule organizing regions. A single pair of 45S rDNA sites, situated distal to Arabidopsis-telomere repeats, was observed at the terminal region of one chromosome pair. We suggest that the 45S rDNA position in distal centromere-free regions could be required to ensure chromosome stability.

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Section: Does Holocentricity Dictate a Terminal Position Of Nor Sites?mentioning

confidence: 88%

Holocentric Chromosomes of <i>Luzula elegans</i> Are Characterized by a Longitudinal Centromere Groove, Chromosome Bending, and a Terminal Nucleolus Organizer Region

Heckmann

Schroeder-Reiter

Kumke

et al. 2011

Cytogenet Genome Res

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“…As shown by SUMNER (2003), the 45S unit includes the 18S sequence, since the NORs correspond to the sequences of repeated DNA encoding for 18S, 5.8S and 26S rRNAs (BESEN-DORFER et al 2002;SCHROEDER-REITER et al 2006) and, cytologically, these regions are localized in SC in metaphasic chromosomes (BRASILEIRO-VI- DAL et al 2003).…”

Section: Discussionmentioning

confidence: 99%

Morphological aspects ofPassiflora edulisf.flavicarpachromosomes using acridine orange banding and rDNA-FISH tools

et al. 2008

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“…For three‐dimensional structural investigations, field emission scanning electron microscopy (FESEM) has been successfully applied to visualize chromatin (sub)structures from the elementary fibril, chromomeres and chromosomes in all stages of the cell cycle in mitosis and meiosis (Martin et al , 1994; Wanner & Formanek, 2000; Zoller et al , 2004; Wanner et al , 2005). Analytical SEM techniques, such as energy dispersive X‐ray analysis, artificial decondensation, metal contrasting and immunogold labelling enable high‐resolution investigation of the distribution of DNA, specific DNA sequences and specific proteins in a structural context (Wanner & Formanek, 1995; Wanner & Formanek, 2000; Schroeder‐Reiter et al , 2003; Schroeder‐Reiter et al , 2006). However, until recently, high‐resolution SEM investigations on chromosomes were performed by applying voltages between 5 kV and 30 kV, requiring conductive coating of specimens to prevent interfering charging effects.…”

Section: Introductionmentioning

confidence: 99%

Current SEM techniques for de‐ and re‐construction of centromeres to determine 3D CENH3 distribution in barley mitotic chromosomes

Schroeder-Reiter¹,

Sanei

Houben

et al. 2012

Journal of Microscopy

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SummaryCombined light microscopic (LM) and field emission scanning electron microscopic (FESEM) techniques with FluoroNanogold labelling allowed quantification and high resolution analysis of 3D distribution of the centromere-specific histone H3 variant CENH3 in barley mitotic chromosomes. Chromosomes were investigated with fluorescence LM, conventional FESEM, low-voltage FESEM and combined FIB/FESEM techniques for unprecedented comprehensive analysis to determine chromatin distribution patterns in the centromere. Using data from FIB/FESEM sectioning of centromeric regions of chromosomes, it was possible to render 3D reconstruction of the CENH3 distribution with highest resolution achieved to date. Complementary data derived from each approach show that CENH3 localizes not only to the primary constriction, but also in the pericentric regions and is distributed exclusively in the interior, rather than on the surface, of the centromere. This is relevant for understanding kinetochore assembly and digresses from current models of centromere structure. We emphasize here this broad microscopic approach, focusing on technical aspects of combined FESEM techniques, for which advantages and limitations are discussed, providing a relevant examplein the field of centromeric research-for application to investigations of other subcellular biological structures.

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Characterization of a peg-like terminal NOR structure with light microscopy and high-resolution scanning electron microscopy

Cited by 14 publications

References 33 publications

Holocentric Chromosomes of <i>Luzula elegans</i> Are Characterized by a Longitudinal Centromere Groove, Chromosome Bending, and a Terminal Nucleolus Organizer Region

Holocentric Chromosomes of <i>Luzula elegans</i> Are Characterized by a Longitudinal Centromere Groove, Chromosome Bending, and a Terminal Nucleolus Organizer Region

Morphological aspects ofPassiflora edulisf.flavicarpachromosomes using acridine orange banding and rDNA-FISH tools

Current SEM techniques for de‐ and re‐construction of centromeres to determine 3D CENH3 distribution in barley mitotic chromosomes

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