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Sister chromatid exchange (SCE) is the process of exchanging regions between two sister chromatids during DNA replication. Exchanges between replicated chromatids and their sisters can be visualized in cells when DNA synthesis in one chromatid is labelled by 5-bromo-2'-deoxyuridine (BrdU). Homologous recombination (HR) is considered as the principal mechanism responsible for the sister chromatid exchange (SCE) upon replication fork collapse, and therefore SCE frequency upon genotoxic conditions reflects the capacity of HR repair to respond to replication stress. During tumorigenesis, inactivating mutations or altered transcriptome can affect a plethora of epigenetic factors that participate in DNA repair processes, and there are an increasing number of reports which demonstrate a link between epigenetic deregulation in cancer and homologous recombination deficiency (HRD). Therefore, the SCE assay can provide valuable information regarding the HR functionality in tumors with epigenetic deficiencies. In this chapter, we provide a method to visualize SCEs. The technique outlined below is characterized by high sensitivity and specificity and has been successfully applied to human bladder cancer cell lines. In this context, this technique could be used to characterize the dynamics of HR repair in tumors with deregulated epigenome.

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Silver nitrate staining to evidence the location of nucleolar organizer regions (Ag-NORs) in chromosomes is widely used as a classical method in plant cytogenetics. Here, we present the most used procedures and highlight some aspects in terms of their replicability by plant cytogeneticists. Some technical features described are materials and methods used, procedures, protocol modifications, and precautions in order to obtain positive signals. The methods to obtain Ag-NOR signals have different degrees of replicability, but do not require any sophisticated technology or equipment for their application.

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Cytogenetic approach based on metaphase chromosomes established from dividing cells enables direct microscopic visualization of individual chromosomes, a powerful technique to investigate aneuploidy, chromosome aberrations, and genomic instability. In this study, we describe a simple method based on direct blocking of metaphases in individual zebrafish embryo and dropping slides with temperature changes, water vapor, and acetic acid treatment to increase the metaphase diameters. We demonstrate that well-separated metaphases could be established from single zebrafish embryos using this method. Our method could be further adapted for the analyses of DNA damage, chromosome aberrations, and genomic instability using zebrafish and other teleost models.

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The human lifespan is strongly influenced by telomere length (TL) which is defined in a zygote-when two highly specialised haploid cells form a new diploid organism. Although TL is a variable parameter, it fluctuates in a limited range. We aimed to establish the determining factors of TL in chromosomes of maternal and paternal origin in human triploid zygotes. Using Q-FISH, we examined TL in the metaphase chromosomes of 28 human triploid zygotes obtained from 22 couples. The chromosomes' parental origin was identified immunocytochemically through weak DNA methylation and strong hydroxymethylation in the sperm-derived (paternal) chromosomes versus strong DNA methylation and weak hydroxymethylation in the oocyte-derived (maternal) ones. In 24 zygotes, one maternal and two paternal chromosome sets were identified, while the four remaining zygotes contained one paternal and two maternal sets. For each zygote, we compared mean relative TLs between parental chromosomes, identifying a significant difference in favour of the paternal chromosomes, which attests to a certain "imprinting" of these regions. Mean relative TLs in paternal or maternal chromosomes did not correlate with the respective parent's age. Similarly, no correlation was observed between the mean relative TL and sperm quality parameters: concentration, progressive motility and normal morphology. Based on the comparison of TLs in chromosomes inherited from a single individual's gametes with those in chromosomes inherited from different individuals' gametes, we compared intraindividual (intercellular) and interindividual variability, obtaining significance in favour of the latter and thus validating the role of heredity in determining TL in zygotes. A comparison of the interchromatid TL differences across the chromosomes from sets of different parental origin with those from PHA-stimulated lymphocytes showed an absence of a significant difference between the maternal and paternal sets but a significant excess over the lymphocytes. Therefore, interchromatid TL differences are more pronounced in zygotes than in lymphocytes. To summarise, TL in human zygotes is determined both by heredity and parental origin; the input of other factors is possible within the individual's reaction norm.

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Flow cytometric analysis and sorting of plant mitotic chromosomes has been mastered by only a few laboratories worldwide. Yet, it has been contributing significantly to progress in plant genetics, including the production of genome assemblies and the cloning of important genes. The dissection of complex genomes by flow sorting into the individual chromosomes that represent small parts of the genome reduces DNA sample complexity and streamlines projects relying on molecular and genomic techniques. Whereas flow cytometric analysis, that is, chromosome classification according to fluorescence and light scatter properties, is an integral part of any chromosome sorting project, it has rarely been used on its own due to lower resolution and sensitivity as compared to other cytogenetic methods. To perform chromosome analysis and sorting, commercially available electrostatic droplet sorters are suitable. However, in order to resolve and purify chromosomes of interest the instrument must offer high resolution of optical signals as well as stability during long runs. The challenge is thus not the instrumentation, but the adequate sample preparation. The sample must be a suspension of intact mitotic metaphase chromosomes and the protocol, which includes the induction of cell cycle synchrony, accumulation of dividing cells at metaphase, and release of undamaged chromosomes, is time consuming and laborious and needs to be performed very carefully. Moreover, in addition to fluorescent staining chromosomal DNA, the protocol may include specific labelling of DNA repeats to facilitate discrimination of particular chromosomes. This review introduces the applications of chromosome sorting in plants, and discusses in detail sample preparation, chromosome analysis and sorting to achieve the highest purity in flow-sorted fractions, and their suitability for downstream applications.

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Amniotic fluid obtained via amniocentesis provides a source of fetal material used in prenatal diagnosis. The fluid may be used directly for biochemical analyses, fluorescence in situ hybridization (FISH), and isolation of DNA for molecular studies, including chromosomal microarray analysis (CMA). The fluid is typically cultured as a source of metaphase cells for chromosome analysis and to provide additional material for biochemical and DNA-based testing. This unit describes an in situ method for the preparation, culture, and harvest of amniotic fluid samples for metaphase chromosome analysis. Cells are grown, harvested for metaphase spreads, and analyzed on glass coverslips. The unit also describes methods to obtain cells for additional studies (such as molecular genetic analyses) by growing cells in flasks either following passaging of cells from a glass coverslip culture or by directly establishing a flask culture from the amniotic fluid specimen. When cells are grown in flasks, they must be removed from the flask with trypsin before they can be used in studies. Lastly, this unit describes a method for isolating DNA for CMA from uncultured amniotic fluid and cultured cells. © 2018 by John Wiley & Sons, Inc.

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OBJECTIVE: To establish and compare the frequency and spectrum of chromosome aberrations under X radiation exposure in vitro in dose 0.25 Gy peripheral blood lymphocytes of the elderly and centenarians. MATERIAL AND METHODS: Material of cytogenetic research were peripheral blood lymphocytes from 11 elderly and 10 centenarians, which were irradiated in vitro in dose 0.25 Gy and cultured by generally accepted semi micromethod; slides of metaphase chromosomes were GTG stained and analyzed under the microscope with magnification x 1000. RESULTS: Under irradiation of blood in vitro the mean group frequencies of chromosome aberrations exceeded such without irradiation (р < 0.001) and were 11.60 ± 0.95 аnd 6.82 ± 0.63 per 100 cells in the elderly and the centenar ians, accordingly. Radiation induced increase in the frequency of chromosomal injuries occurred due to chromo some type aberrations which are markers of radiation exposure. In the elderly the elevated frequency of chromatid type aberrations also was registered what is considered a sign of chromosome instability. CONCLUSIONS: The results indicate increased sensitivity the blood lymphocytes from the elderly to radiation expo sure in low doses and allow to assume the advantage of persons with hereditary determined chromosomal stability in achieving longevity.

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Earlier we showed that asymmetric methylation of sister chromatids (AMSC) was a specific characteristic of differentiation potency, and supposed that AMSC could be a useful marker of environmental impact connected with differentiation and/or dedifferentiation. Here we investigated the level of AMSC in chromosomes and the nuclei methylation in mouse preimplantation and postimplantation embryos, in comparison with the undifferentiated cells of mouse embryonal carcinoma cell line F9, and human differentiated HEK293 cells upon BPA influence. We found that exposure of mouse preimplantation embryos to BPA caused a significant decrease in the level of AMSC in chromosomes and the nuclei methylation. The BPA exposure of potentially differentiating F9 cells had no any influence on DNA methylation in nuclei but significantly decreased the number of AMSC. The level of DNA methylation and AMSC in HEK293 cells were not also changed. These data indicate that BPA exerts significant influence on differentiating and potentially differentiable cells. The most sensitive BPA targets are preimplantation embryos and stem cells.

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Fluorescence in situ hybridization (FISH) with DNA probes allows the visualization of gene copy number and localization of specific DNA targets with fluorescence microscopy. Cells in culture, metaphase chromosomes, and tissue sections are fixed and prepared on glass slides. Both the DNA in the cells and fluorescently labeled probe are denatured, and the labeled probe is allowed to hybridize to the cellular DNA. The slides are washed, counterstained, and viewed via fluorescence microscopy. We describe the basic method for preparing slides and probes for studies involving DNA copy number changes and structural chromosome rearrangements in formalin-fixed paraffin-embedded (FFPE) tissue sections and cell culture preparations.

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This article presents protocols for fluorescence in situ hybridization (FISH) in the cultivated soybean, Glycine max. The protocols represent soybean-optimized versions developed for maize. We describe the use of two different probes types: genomic-repeat-based fluorescently-tagged oligonucleotides and bacterial artificial chromosomes (BACs). The two probe types can be used either individually or together, depending on the experimental questions. The article also includes starting points for executing FISH in additional legume species. © 2017 by John Wiley & Sons, Inc.

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This unit presents a highly reliable protocol to produce and screen metaphase chromosome spreads from root tip cell suspensions of soybean (Glycine max), or other legumes. The procedures represent soybean-optimized versions of protocols developed for maize. The use of pressurized nitrous oxide to reliably generate metaphase-arrested chromosomes is crucial to overcoming one of the challenges of working with tiny and numerous soybean chromosomes. © 2017 by John Wiley & Sons, Inc.

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During mitosis chromosomes are condensed into dense X-shaped structures that allow for microscopic determination of karyotype as well as inspection of chromosome morphology. This protocol describes a method to perform immunostaining of formaldehyde-fixed metaphase chromosomes from the avian cell line DT40. It was developed to characterize the localization of YFP-tagged TopBP1 on mitotic chromosomes and specifically determine the percentage of TopBP1 foci that formed on breaks/gaps as well as ends of individual metaphase macrochromosomes ( Pedersen et al., 2015 ). For this purpose immunostaining of YFP was applied. However, the protocol may be optimized for other cell lines or epitopes.

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Tyramide signal amplification (TSA) fluorescence in situ hybridization (FISH) has been shown as a valuable molecular tool for visualizing specific amplified DNA sequences in chromosome preparations. This chapter describes how to perform TSA-FISH, paying special interest to its two critical steps: probe generation and metaphase plate generation. The potential of physically mapping 12S-globulin sequences by TSA-FISH as a means of identifying homeology among chromosome regions of Avena species was tested and is discussed.

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Fluorescence in situ hybridization (FISH) is a widely used method to localize DNA sequences on mitotic and meiotic chromosomes and interphase nuclei. It was developed in early 1980s and since then it has contributed to numerous studies and important discoveries. Over the decades, the protocol was modified for ease of use, allowing for localizing multiple probes simultaneously and increasing its sensitivity and specificity. Despite the continuous improvements, the ability to detect short single-copy sequences of only a few kilobases or less, such as genes, remains limited. Here, we provide a detailed protocol for detection of short, single- or low-copy sequences on plant mitotic metaphase chromosomes.

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Current techniques for chromosome analysis need to be improved for rapid, economical identification of complex chromosomal defects by sensitive and selective visualisation. In this paper, we present a straightforward method for characterising unstained human metaphase chromosomes. Backscatter imaging in a dark-field setup combined with visible and short near-infrared spectroscopy is used to monitor morphological differences in the distribution of the chromosomal fine structure in human metaphase chromosomes. The reasons for the scattering centres in the fine structure are explained. Changes in the scattering centres during preparation of the metaphases are discussed. FDTD simulations are presented to substantiate the experimental findings. We show that local scattering features consisting of underlying spectral modulations of higher frequencies associated with a high variety of densely packed chromatin can be represented by their scatter profiles even on a sub-microscopic level. The result is independent of the chromosome preparation and structure size. This analytical method constitutes a rapid, cost-effective and label-free cytogenetic technique which can be used in a standard light microscope. Graphical abstract Hyperspectral backscatter imaging for label-free characterization.

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Next generation sequencing (NGS) is revolutionizing genomics and is providing novel insights into genome organization, evolution and function. The number of plant genomes targeted for sequencing is rising. For the moment, however, the acquisition of full genome sequences in large genome species remains difficult, largely because the short reads produced by NGS platforms are inadequate to cope with repeat-rich DNA, which forms a large part of these genomes. The problem of sequence redundancy is compounded in polyploids, which dominate the plant kingdom. An approach to overcoming some of these difficulties is to reduce the full nuclear genome to its individual chromosomes using flow-sorting. The DNA acquired in this way has proven to be suitable for many applications, including PCR-based physical mapping, in situ hybridization, forming DNA arrays, the development of DNA markers, the construction of BAC libraries and positional cloning. Coupling chromosome sorting with NGS offers opportunities for the study of genome organization at the single chromosomal level, for comparative analyses between related species and for the validation of whole genome assemblies. Apart from the primary aim of reducing the complexity of the template, taking a chromosome-based approach enables independent teams to work in parallel, each tasked with the analysis of a different chromosome(s). Given that the number of plant species tractable for chromosome sorting is increasing, the likelihood is that chromosome genomics - the marriage of cytology and genomics - will make a significant contribution to the field of plant genetics.

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The karyotype and other chromosomal characteristics the crucian carp (Carassius carassius (Linnaeus, 1758)) were revealed by means of conventional banding protocols (C, CMA3, AgNOR). The diploid chromosome number (2n) in this species was 100. Its karyotype was composed of 10 pairs of metacentric, 18 pairs of submetacentric and 22 pairs of subtelo- to acrocentric chromosomes without any microchromosomes. C-banding identified blocks of telomeric heterochromatin on seven chromosome pairs. The NORs were situated on the p arms of the 14(th) pair of submetacentric chromosomes and on the p arms of the 32(nd) pair of subtelo-acrocentric chromosomes; AgNOR-positive signals corresponded to the CMA3-positive signals. These chromosome characteristics may suggest a paleo-allotetraploid origin of Carassius carassius genome.

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OBJECTIVES: The development of an useful method for obtaining metaphase chromosomes from a biopsied blastomere would allow differentiation between embryos with balanced and normal chromosome complements in the preimplantation genetic diagnosis for chromosomal translocations. This study was performed to evaluate the effects of microtubule depolymerizing agents (MTDAs) on the blastomeres of mouse and human preimplantation embryos, and to establish an effective method for obtaining metaphase chromosomes of biopsied blastomeres in human early embryos. MATERIALS AND MEHTODS: Early embryos (2-4 cell stage) from superovulated mice (ICR strain) were collected and treated with single or mixture MTDAs, such as vinblastine, nocodazole and colcemid. After the treatment of MTDAs for 16 hours, the metaphase aquisition (MA) rates were evaluated by the observation of chromosome status with bis-benzimide or DAPI staining. The optimal condition from the above experiment was applied to human embryos, which were developed from abnormal fertilization (3-pronuclei). Fluorescence in-situ hybridization (FISH) with whole chromosome probes was conducted on the human metaphase chromosomes by the MTDAs. RESULTS: In mouse embryos, the effective concentrations of each MTDAs for obtaining metaphase chromosomes were 1.0 micrometer of vinblastine (20.3%), 5.0 micrometer of nocodazole (28.1%) and 1.0 micrometer colcemid (55.6%), respectively. The highest MA rate (91.2%) in the mouse embryos was obtained by a mixture of vinblastine (1.0 micrometer) and nocodazole (1.0 micrometer). In the human embryos, the metaphase chromosomes of blastomeres were obtained in 44 of 113 blastomeres (38.9%) by treatment of the mixture of vinblastine and nocodazole. FISH signals of the metaphase chromosomes were successfully observed in human individual blastomeres. CONCLUSIONS: The treatment of a mixture MTDAs for obtaining metaphase chromosomes was an efficient method, and the MA rate was above 90% in the mouse embryos. However, only a relatively small proportions of the blastomeres yielded metaphase chromosomes by the MTDAs in the human embryos. The inconsistent effects of MTDAs may be related to the variation of different species and the poor developmental potency of abnormally fertilized human embryos. We should develop more reliable and efficient methods for obtaining the metaphase chromosomes in the biopsied blastomeres of human preimplantation embryos.

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OBJECTIVES: The development of an useful method for obtaining metaphase chromosomes from a biopsied blastomere would allow differentiation between embryos with balanced and normal chromosome complements in the preimplantation genetic diagnosis for chromosomal translocations. This study was performed to evaluate the effects of microtubule depolymerizing agents (MTDAs) on the blastomeres of mouse and human preimplantation embryos, and to establish an effective method for obtaining metaphase chromosomes of biopsied blastomeres in human early embryos. MATERIALS AND MEHTODS: Early embryos (2-4 cell stage) from superovulated mice (ICR strain) were collected and treated with single or mixture MTDAs, such as vinblastine, nocodazole and colcemid. After the treatment of MTDAs for 16 hours, the metaphase aquisition (MA) rates were evaluated by the observation of chromosome status with bis-benzimide or DAPI staining. The optimal condition from the above experiment was applied to human embryos, which were developed from abnormal fertilization (3-pronuclei). Fluorescence in-situ hybridization (FISH) with whole chromosome probes was conducted on the human metaphase chromosomes by the MTDAs. RESULTS: In mouse embryos, the effective concentrations of each MTDAs for obtaining metaphase chromosomes were 1.0 micrometer of vinblastine (20.3%), 5.0 micrometer of nocodazole (28.1%) and 1.0 micrometer colcemid (55.6%), respectively. The highest MA rate (91.2%) in the mouse embryos was obtained by a mixture of vinblastine (1.0 micrometer) and nocodazole (1.0 micrometer). In the human embryos, the metaphase chromosomes of blastomeres were obtained in 44 of 113 blastomeres (38.9%) by treatment of the mixture of vinblastine and nocodazole. FISH signals of the metaphase chromosomes were successfully observed in human individual blastomeres. CONCLUSIONS: The treatment of a mixture MTDAs for obtaining metaphase chromosomes was an efficient method, and the MA rate was above 90% in the mouse embryos. However, only a relatively small proportions of the blastomeres yielded metaphase chromosomes by the MTDAs in the human embryos. The inconsistent effects of MTDAs may be related to the variation of different species and the poor developmental potency of abnormally fertilized human embryos. We should develop more reliable and efficient methods for obtaining the metaphase chromosomes in the biopsied blastomeres of human preimplantation embryos.

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