G. Frelat scite author profile

A continuous array of overlapping clones covering the entire human chromosome 21q was constructed from human yeast artificial chromosome libraries using sequence-tagged sites as landmarks specifically detected by polymerase chain reaction. The yeast artificial chromosome contiguous unit starts with pericentromeric and ends with subtelomeric loci of 21q. The resulting order of sequence-tagged sites is consistent with other physical and genetic mapping data. This set of overlapping clones will promote our knowledge of the structure of this chromosome and the function of its genes.

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Clinical and Histopathological Characterization of Cutaneous Melanomas in the Melanoblastoma‐Bearing Libechov Minipig Model

Vincent‐Naulleau

Chalony

Leplat

et al. 2004

Pigment Cell Research

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Spontaneous animal tumors appear to be highly suitable models to study human oncology and cancer therapy. The aim of this study was to characterize the clinical and histological features of hereditary melanocytic lesions found in the French herd of melanoblastoma-bearing Libechov minipigs (MeLiM) and their Duroc crossbreeds. Clinically, we discriminated between three types of melanocytic skin lesions, which offer a lesion continuum from lentigo to metastatic melanomas. More than 70% of these lesions appear on piglets before they are 3 months old and preferentially on homogeneous black coat piglets. The incidence of melanoma reaches 50% in MeLiM. Most of the highly invasive melanomas regressed spontaneously in the first year of the piglet's life and the regression was followed by hair, skin and iris depigmentation. A histopathological study was conducted according to the human melanoma classification. Except for lentigo maligna, we observed the three main types of human melanoma in swine [superficial spreading melanoma (SSM), nodular or unclassified melanoma] with an excess of SSM (59-67%). The histological events leading to total spontaneous regression are chronologically described. The genetic predisposition, the high incidence of melanoma, the clinical and histopathological features similar to the human disease and the high rate of spontaneous regression offer an opportunity to use this model for studying genetic events controlling melanoma development and regression and the biological mechanisms involved in oncogenesis and anti-cancerous self-defense.

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Recent advances of flow cytometry in fundamental and applied microbiology

Fouchet

Jayat

Héchard³

et al. 1993

Biology of the Cell

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This review focuses on the recent applications of flow cytometry (FCM) in microbiological research (1987-mid 1992). It tries to give a scope of the important breakthroughs which occurred in this field during this period. The technical difficulties of microorganism analysis by flow cytometry is briefly appraised. The significance and the limits of the different microbial cell parameters attainable by flow analyses are systematically evaluated: light scatter for cell size and structure, fluorescence measurements for quantification of cellular components, microbial antigen detection and cell physiological activity estimation. Emphasis is given on the new technological advances which appeared in the last two years. The second part of the review is devoted to the analysis of the usefulness of flow cytometric approach in the different fields of microbiology: fundamental studies in microbial physiology, differentiation, microbial ecology and aquatic sciences, medical microbiology, parasitology, microbial pharmacology and biotechnology.

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Simultaneous monitoring of P53 protein and dna content of colorectal adenocarcinomas by flow cytometry

Remvikos

Laurent‐Puig

Salmon

et al. 1990

Intl Journal of Cancer

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The p53 transformation-related gene is located on 17p, a chromosomal segment frequently under-represented in colorectal adenocarcinoma karyotypes. We have developed a flow cytometric method for detection of its gene product on isolated nuclei by indirect immunofluorescence. Criteria for defining the presence of p53 were established, using parameters related to the difference of fluorescence obtained by incubating nuclei with a specific monoclonal antibody (MAB) versus isotypic control. This method allowed simultaneous quantitation of p53 and DNA in tumor nuclei to be made. Twenty-two of the 41 tumors analyzed (54%) were found to overexpress p53 when compared to 13 normal mucosa specimens. Repeated preparations from different fragments of the same tumor gave reproducible results for the 21 cases tested. p53 was detected in a higher proportion of disseminated tumors (64%) compared to localized disease (39%), but the difference did not reach statistical significance (chi 2 = 2.4, p greater than 0.10). Tumors containing aneuploid cell subpopulations were also more frequently positive (65%) than diploid ones (20%), the difference being significant (Fisher's exact test, p less than 0.03). This dual parameter flow cytometric method, evaluating both DNA ploidy and p53 expression, may prove useful in identifying different biological subgroups of colorectal cancer.

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G. Frelat

Human and Porcine Correspondence of Chromosome Segments Using Bidirectional Chromosome Painting

Continuum of overlapping clones spanning the entire human chromosome 21q

Clinical and Histopathological Characterization of Cutaneous Melanomas in the Melanoblastoma‐Bearing Libechov Minipig Model

Recent advances of flow cytometry in fundamental and applied microbiology

Simultaneous monitoring of P53 protein and dna content of colorectal adenocarcinomas by flow cytometry

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