0000000000338085

AUTHOR

Jekabs Krigerts

showing 5 related works from this author

Differential staining of peripheral nuclear chromatin with Acridine orange implies an A-form epichromatin conformation of the DNA

2018

ABSTRACT The chromatin observed by conventional electron microscopy under the nuclear envelope constitutes a single layer of dense 30–35 nm granules, while ∼30 nm fibrils laterally attached to them, form large patches of lamin-associated domains (LADs). This particular surface “epichromatin” can be discerned by specific (H2A+H2B+DNA) conformational antibody at the inner nuclear envelope and around mitotic chromosomes. In order to differentiate the DNA conformation of the peripheral chromatin we applied an Acridine orange (AO) DNA structural test involving RNAse treatment and the addition of AO after acid pre-treatment. MCF-7 cells treated in this way revealed yellow/red patches of LADs atta…

0301 basic medicineDNA A-formRNase P03 medical and health scienceschemistry.chemical_compoundHumansLADsNADsMitosisOriginal ResearchStaining and LabelingDifferential stainingMetachromasiaAcridine orangeDNACell BiologyepichromatinAcridine OrangeChromatinnucleosome superbeadsChromatinStainingDNA structural test030104 developmental biologychemistryMCF-7 CellsBiophysicsNucleic Acid ConformationDNANucleus
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Heterochromatin Networks: Topology, Dynamics, and Function (a Working Hypothesis)

2021

Open systems can only exist by self-organization as pulsing structures exchanging matter and energy with the outer world. This review is an attempt to reveal the organizational principles of the heterochromatin supra-intra-chromosomal network in terms of nonlinear thermodynamics. The accessibility of the linear information of the genetic code is regulated by constitutive heterochromatin (CHR) creating the positional information in a system of coordinates. These features include scale-free splitting-fusing of CHR with the boundary constraints of the nucleolus and nuclear envelope. The analysis of both the literature and our own data suggests a radial-concentric network as the main structural…

DNA Replication TimingQH301-705.5HeterochromatinEmbryonic DevelopmentReviewtranscriptional pulsingTopologyModels Biologicalpositional informationphysics of lifeCell Line TumorAnimalsHumansConstitutive heterochromatinNucleosomeEpigeneticsBiology (General)PhysicsReplication timingheterochromatincytoskeletonActomyosinGeneral MedicineGenetic codenucleolar boundaryRatsChromatinGene Expression RegulationOrgan SpecificitynetworksRNA splicingscale-free oscillationsChickensCell Nucleoluschromatin organizationCells
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The nuclear envelope-associated epichromatin and its sheets are composed of DNA A-form packed as nucleosomal superbeads which construct vehicles for …

2019

PhysicsConstruct (python library)TopologyGear wheelGeneral Biochemistry Genetics and Molecular BiologyEnvelope (motion)Biopolymers and Cell
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Differentiating cancer cells reveal early large-scale genome regulation by pericentric domains.

2021

Abstract Finding out how cells prepare for fate change during differentiation commitment was our task. To address whether the constitutive pericentromere-associated domains (PADs) may be involved, we used a model system with known transcriptome data, MCF-7 breast cancer cells treated with the ErbB3 ligand heregulin (HRG), which induces differentiation and is used in the therapy of cancer. PAD-repressive heterochromatin (H3K9me3), centromere-associated-protein-specific, and active euchromatin (H3K4me3) antibodies, real-time PCR, acridine orange DNA structural test (AOT), and microscopic image analysis were applied. We found a two-step DNA unfolding after 15–20 and 60 min of HRG treatment, re…

0303 health sciencesEuchromatinNucleolusCentromere clusteringHeterochromatinNeuregulin-1CentromereBiophysicsBreast NeoplasmsBiologyChromatinCell biologyTranscriptome03 medical and health sciences0302 clinical medicineTranscription (biology)HeterochromatinConstitutive heterochromatinHumans030217 neurology & neurosurgery030304 developmental biologyBiophysical journal
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Differential staining of peripheral nuclear chromatin with Acridine orange implies an A-form epichromatin conformation of the DNA

2018

The chromatin observed by conventional electron microscopy under the nuclear envelope constitutes a single layer of dense 30–35 nm granules, while ∼30 nm fibrils laterally attached to them, form large patches of lamin-associated domains (LADs). This particular surface “epichromatin” can be discerned by specific (H2A+H2B+DNA) conformational antibody at the inner nuclear envelope and around mitotic chromosomes. In order to differentiate the DNA conformation of the peripheral chromatin we applied an Acridine orange (AO) DNA structural test involving RNAse treatment and the addition of AO after acid pre-treatment. MCF-7 cells treated in this way revealed yellow/red patches of LADs attached to a…

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