Fluorescence in situ hybridization and spectral imaging analysis of human oocytes and first polar bodies.

We investigated the frequencies of abnormalities involving either chromosome 1, 16, 18, or 21 in failed-fertilized human oocytes. Although abnormalities involving chromosome 16 showed an age-dependent increase, results for the other chromosomes did not show statistically significant differences among the three age groups, <35 years, 35-39 years, and >39 years. The scoring of four chromosomes is likely to underestimate the true rate of aneuploid cells. Therefore, for a pilot study investigating a more-comprehensive analysis of oocytes and their corresponding first polar bodies, we developed a novel eight-probe chromosome enumeration scheme using fluorescence in situ hybridization and spectral imaging analysis.     

Impacts of nursery-based propagation and out-planting on coral-associated bacterial communities

Coral Reefs - Efforts to manage coral reef declines are increasingly turning towards in situ propagation of corals to aid reef recovery. Understanding the factors that influence...     

Fluorescence in situ hybridization and Y ring chromosome

Summary Investigations by fluorescence in situ hybridization and a Y-specific probe (Y190) of a male patient with a Y ring chromosome, 46,X,r(Y) showed four bright fluorescent spots within the ring. Thus, using this technique, it is possible to suggest that the ring originates from the duplication of the short arms of the Y chromosome.     

Investigation of chicken intestinal bacterial communities by 16S rRNA targeted fluorescence in situ hybridization

The aim of the investigation was to quantify selected dominant bacterial groups in the chicken intestinal tract. Conventional production was used as model and the effect of the supplement with Salinomycin was evaluated. Hybridization conditions were optimized for published probes with respect to a panel of reference bacteria. In chicken intestinal samples bacteria were quantified by fluorescence in situ hybridization with 16S rRNA oligonucleotides directed towards bacteria related to Lactobacillus, Bacillus, Enterococcus-Streptococcus-Lactococcus, Enterobacteriaceae, Bacteroides, Clostridium and the domain Bacteria in lumen of ileum and cecum as well as on the intestinal wall including mucus of four individuals. Salinomycin in feed reduced counts of the Lactobacillus-, Enterobacteriaceae- and Clostridium-like bacteria in lumen of ileum compared to the conventional control. Increased or decreased bacterial counts were registered by Salinomycin in the ceca compared to the control. Relatively higher counts of Bacteroides- and Clostridium-like bacteria were found on the intestinal wall including mucus compared to lumen. The increase in numbers of some bacterial groups as well as the expected reduction by Salinomycin and the observed difference in the relative distribution of bacteria between lumen and intestinal wall are new observations that will need further investigation.     

In situ analysis of the bacterial communities associated to farmed eel by whole-cell hybridization

Bacterial communities in water samples and eel slime were investigated by fluorescence in situ hybridization of whole bacterial cells in an eel intensive culture system over 1 year. A newly developed probe, matching 27 Vibrio spp., and a specific probe for Vibrio vulnificus were used. Phylogenetic probes complementary to selected regions of the 16S and 23S ribosomal RNA revealed that Proteobacteria of the alpha and beta subclass were predominant in water and eel slime. Members of the gamma subclass (e.g. vibrios and aeromonads) were more abundant in eel slime, although no V. vulnificus was detected.     

Fluorescence in situ hybridization in studying the human genome

Physical chromosome mapping by fluorescence in situ hybridization (FISH) is among the major lines of research on the human genome (as well as genomes of numerous other organisms). To localize particular genes or anonymous DNA sequences on individual chromosomes or chromosome regions, FISH was developed in the late 1980s and early 1990s, when the International Human Genome Project and the Russian program Human Genome were launched. Now FISH continues to play a prominent part in studies of the human genome. The review considers the major steps of FISH development in Russia with special emphasis on the key roles of the Institute of Cytology and Genetics (Novosibirsk) and Engelhardt Institute of Molecular Biology (Moscow). Physical mapping of human chromosomes 3 and 13 by FISH is described in detail. The promotion of FISH in Russia contributed to the progress in the related fields such as comparative animal genomics (ZOO-FISH) and studies of plant chromosomes.     

Fluorescence ratio measurements of double-labeled probes for multiple in situ hybridization by digital imaging microscopy.

To expand the multiplicity of the in situ hybridization (ISH) procedure, which is presently limited by the number of fluorochromes spectrally separable in the microscope, a digital fluorescence ratio method is proposed. For this purpose, chromosome-specific repetitive probes were double-labeled with two haptens and hybridized to interphase nuclei of human peripheral blood lymphocytes. The haptens were immunocytochemically detected with specific antibodies conjugated with the fluorochromes FITC or TRITC. The FITC and TRITC fluorescence intensities of spots obtained with different double-haptenized probes were measured, and the fluorescence ratio was calculated for each ISH spot. Combinations of different haptens, such as biotin, digoxigenin, fluorescein, sulfonate, acetyl amino fluorene (AAF), and mercury (Hg) were used. The fluorescence intensity ratio (FITC/TRITC) of the ISH spots was fairly constant for all combinations used, with coefficients of variation between 10 and 30%. To study the feasibility of a probe identification procedure on the basis of probe hapten ratios, one probe was double-labeled with different ratios, by varying the relative concentrations of the modified nucleotides (biotin-11-dUTP and digoxigenin-11-dUTP) in the nick-translation reaction. Measurement of the FITC and TRITC intensities of the ISH spots showed that the concentration of modified nucleotides used in the labeling procedures was reflected in the mean fluorescence intensity of the ISH spots. Furthermore, the ratio distributions showed little overlap due to the relatively small coefficients of variation. The results indicate that a multiple ISH procedure based on fluorescence ratio imaging of double-labeled probes is feasible.     

Fluorescence in situ hybridization method for co-localization of mRNA and GEP

Co-localization studies using green fluorescent protein (GFP) and fluorescence immunohistochemistry have become commonplace. However, co-localization studies using GFP and mRNA in situ hybridization are rare, in large part because typical in situ hybridization reaction conditions often lead to the loss of GFP fluorescence. Here, we describe a new fluorescence mRNA in situ hybridization protocol using cRNA riboprobes that leaves GFP fluorescence intact. This protocol is based on a urea-based hybridization buffer and the Tyramide Signal Amplification system. This protocol should provide researchers engaged in the use of GFP with a solid starting point for adapting their own in situ hybridization protocols.     

Fluorescence in situ hybridization on vibratome sections of plant tissues

This protocol describes the application of fluorescence in situ hybridization (FISH) to three-dimensionally (3D) preserved tissue sections derived from intact plant structures such as roots or florets. The method is based on the combination of vibratome sectioning with confocal microscopy. The protocol provides an excellent tool to investigate chromosome organization in plant nuclei in all cell types and has been used on tissues of both monocot and dicot plant species. The visualization of 3D well-preserved tissues means that cell types can be confidently identified. For example, meiocytes can be clearly identified at all stages of meiosis and can be imaged in the context of their surrounding maternal tissue. FISH can be used to localize centromeres, telomeres, repetitive regions as well as unique regions, and total genomic DNAs can be used as probes to visualize chromosomes or chromosome segments. The method can be adapted to RNA FISH and can be combined with immunofluorescence labeling. Once the desired plant material is sectioned, which depends on the number of samples, the protocol that we present here can be carried out within 3 d.     

Fluorescence in situ hybridization: applications in cytogenetics and gene mapping

Unique sequences, chromosomal subregions, or entire genomes can be specifically highlighted in metaphase or interphase cells by fluorescence in situ hybridization (FISH). This technique can be used to identify chromosomes, detect chromosomal abnormalities or determine the chromosomal location of specific sequences. FISH plays an increasingly important role in a variety of research areas, including cytogenetics, prenatal diagnosis, tumor biology, gene amplification and gene mapping.     

Fluorescence in situ hybridization of single copy transgenes in rice chromosomes

Summary Fluorescence in situ hybridization (FISH) is a powerful tool for visualizing the chromosomal location of targeted sequences and has been applied in many areas, including karyotyping, breeding and characterization of genes introduced into the plant genome. A simple, routine and sensitive FISH procedure was developed for localizing single copy genes in rice (Oryza sativa L.) metaphase chromosomes. We used digoxygenin-labeled endogenous or T-DNA sequences as small as 5.6 kb to probe corresponding endogenous sequences or the T-DNA insert in denatured rice metaphase chromosomes prepared from root meristem tissue. The hybridized probe sequence was labeled with cy3-conjugated anti-mouse IgG and visualized using fluorescence microscopy. Single copy and multiple copy introduced T-DNA sequences, as well as endogenous sequences, were localized on the chromosomes. The FISH protocol was effectively used to sereen the chromosomal location of introduced T-DNA and number of integration loci in rice.     

Characterisation of coral-associated bacterial communities in an urbanised marine environment shows strong divergence over small geographic scales

Coral Reefs - The coral holobiont contains a diverse community of bacteria that have been widely acknowledged as a major contributor in the maintenance of host health and in promoting reef...     

Fluorescence in situ hybridization determination of aneusomy: criteria and technical considerations

OBJECTIVE: To investigate a series of tissues to determine if proliferation rate can affect chromosome counts by fluorescence in situ hybridization (FISH). STUDY DESIGN: We studied 9 non-neoplastic tissues and a trisomy 7 and tetrasomy 13 cell line by FISH. For each sample, 100 cells were analyzed for chromosome 7 and 13 number and MIB-1 expression. Centrometric enumeration probe (CEP) 7 counts were correlated with proliferation index. RESULTS: Average CEP 7 number showed a relationship to proliferation index, with higher CEP 7 averages associated with higher proliferation indices. Specimens of brain tissue demonstrated average CEP 7 counts between 1.64 and 1.75. Tissues with high proliferation indices (23-66%) demonstrated CEP 7 counts between 2.14 and 2.31. The average CEP 7 count for the trisomy 7 cell line was 2.61. The average LSI 13 count for the tetrasomy 13 cell line was 3.65. CONCLUSION: Chromosome 7 FISH counts demonstrated overlap between diploid tissues with high proliferation and triploid chromosome 7 tissues. This overlap was seen when 95% CI limits were used. The trisomic 7 and tetrasomic 13 cell lines demonstrated average CEP 7 and CEP 13 levels below 3 and 4, respectively. Definitions used for determination of polysomy should take into account tissue proliferation and section thicknesses.     

Fluorescence in situ hybridization (FISH)--application in research and diagnostics

The methods of molecular cytogenetics, in particular fluorescence in situ hybridization (FISH), are widely applied in cytogenetics for identification of numerical and structural chromosomal abnormalities, which are difficult to detect by routine cytogenetic techniques. Due to many advantages, FISH is used in research (gene mapping, gene expression studies, interspecies chromosome homology), and clinical diagnostics (chromosomal aberrations analysis in pre- and postnatal diagnostics, oncology). The techniques of in situ hybridization (ISH) are often employed in addition to classical banding techniques, in case where banding pattern is not reliable. This paper focuses on particular clinical examples, where FISH was successfully used to identify structural and numerical chromosomal aberrations.     

A molecular cytogenetic map of sorghum chromosome 1. Fluorescence in situ hybridization analysis with mapped bacterial artificial chromosomes

We used structural genomic resources for Sorghum bicolor (L.) Moench to target and develop multiple molecular cytogenetic probes that would provide extensive coverage for a specific chromosome of sorghum. Bacterial artificial chromosome (BAC) clones containing molecular markers mapped across sorghum linkage group A were labeled as probes for fluorescence in situ hybridization (FISH). Signals from single-, dual-, and multiprobe BAC-FISH to spreads of mitotic chromosomes and pachytene bivalents were associated with the largest sorghum chromosome, which bears the nucleolus organizing region (NOR). The order of individual BAC-FISH loci along the chromosome was fully concordant to that of marker loci along the linkage map. In addition, the order of several tightly linked molecular markers was clarified by FISH analysis. The FISH results indicate that markers from the linkage map positions 0.0-81.8 cM reside in the short arm of chromosome 1 whereas markers from 81.8-242.9 cM are located in the long arm of chromosome 1. The centromere and NOR were located in a large heterochromatic region that spans approximately 60% of chromosome 1. In contrast, this region represents only 0.7% of the total genetic map distance of this chromosome. Variation in recombination frequency among euchromatic chromosomal regions also was apparent. The integrated data underscore the value of cytological data, because minor errors and uncertainties in linkage maps can involve huge physical regions. The successful development of multiprobe FISH cocktails suggests that it is feasible to develop chromosome-specific "paints" from genomic resources rather than flow sorting or microdissection and that when applied to pachytene chromatin, such cocktails provide an especially powerful framework for mapping. Such a molecular cytogenetic infrastructure would be inherently cross-linked with other genomic tools and thereby establish a cytogenomics system with extensive utility in development and application of genomic resources, cloning, transgene localization, development of plant "chromonomics," germplasm introgression, and marker-assisted breeding. In combination with previously reported work, the results indicate that a sorghum cytogenomics system would be partially applicable to other gramineous genera.     

Fluorescence in situ hybridization of YAC clones after Alu-PCR amplification.

Alu-PCR protocols were optimized for the generation of human DNA probes from yeast strains containing yeast artificial chromosomes (YACs) with human inserts between 100 and 800 kb in size. The resulting DNA probes were used in chromosome in situ suppression (CISS) hybridization experiments. Strong fluorescent signals on both chromatids indicated the localization of specific YAC clones, while two clearly distinguishable signals were observed in greater than or equal to 90% of diploid nuclei. Signal intensities were generally comparable to those observed using chromosome-specific alphoid DNA probes. This approach will facilitate the rapid mapping of YAC clones and their use in chromosome analysis at all stages of the cell cycle.     

Variation in coral-associated cryptofaunal communities across spatial scales and environmental gradients

Coral Reefs - Most of the diversity on coral reefs is in the cryptofauna, the hidden organisms that inhabit the interstitial spaces of corals and other habitat-forming benthos. However, little is...     

Fluorescence in situ hybridization in paraffin tissue sections: pretreatment protocol

Fluorescence in situ hybridization has found wide application in the enumeration of gene and chromosome copy number both in isolated cells and in tissue sections. However, the technique has been less widely used than would be expected in formalin-fixed paraffin processed (archival) tissue. This article describes a method for assessing archival tissue sections, following pretreatment, before applying DNA probes, that gives consistent, reliable results.