15 research outputs found
Genetic and epigenetic changes of NKIRAS1 gene in human renal cell carcinomas
Renal cell carcinoma (RCC) is the most common malignant tumor of kidney associated with the worst clinical outcome. No molecular markers for RCC diagnostics and prognosis that could be applied in clinics were described yet. Large-scale screening of 3p human chromosome genes/loci in RCC and histologically normal tissues surrounding the tumors using NotI-microarray approach demonstrated that NKIRAS1 gene contained the largest percent of genetic/epigenetic changes in RCC tumor cells. Aim: To validate the results of NotI microarray analysis and study genetic, epigenetic changes, and the expression level of NKIRAS1 gene in human RCC samples. Methods: DNA and RNA were isolated from freshly-frozen renal tumors’ samples (n = 12) and from normal tissues surrounding the tumors. Epigenetic changes (methylation status) of NKIRAS1 were detected by bisulfite sequencing. Genetic changes and expression level were analyzed by Quantitative real-time PCR (qPCR) with SYBR Green. For relative quantification 2-ΔΔCP method was used. Nonparametric tests (Wilcoxon, Kruskal — Wallis and Mann — Whitney) were applied for statistical data analysis using the BioStat software. Results: NKIRAS1 expression was downregulated in 75% of RCC samples (9 of 12) compared with surrounding normal tissue. High grade tumors (3 and 4) showed lower expression of NKIRAS1 at the mRNA level than tumors of low grade (1 and 2). No significant association was found between gene expression level and gender or age. Analysis of NKIRAS1 gene copy number was performed in 19 tumor samples. Changes in the copy number of NKIRAS1 gene were observed in 64% (9 of 14) of cRCC samples. 9 samples displayed ratio ( 0.85) and were considered as normal copy number. Changes in NKIRAS1 gene copy number were detected in all 3 benign oncocytomas, 1 papillary cancer and 1 sarcoma, where hemizygous deletion was observed. No changes in methylation status of NKIRAS1 were found in RCC. Conclusions: We have validated the results of NotI microarray analysis of NKIRAS1 gene in RCC. It was shown the decreased expression level of NKIRAS1 in this type of tumor
A novel MECA3 region in human 3p21.3 harboring putative tumor suppressor genes and oncogenes
Aim of this article is to perform the detailed analysis of 3p (especially 3p21 region) to discover novel potential oncogenes and/or tumor suppressors
A novel MECA3 region in human 3p21.3 harboring putative tumor suppressor genes and oncogenes
Aim of this article is to perform the detailed analysis of 3p (especially 3p21 region) to discover novel potential oncogenes and/or tumor suppressors
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Cloning of Deleted Sequences (CODE): A Genomic Subtraction Method for Enriching and Cloning Deleted Sequences
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Assignment 1 of the GPR14 gene coding for the G-protein-coupled receptor 14 to human chromosome 17q25.3 by fluorescent in situ hybridization
NotI linking/jumping clones of human chromosome 3: mapping of the TFRC, RAB7 and HAUSP genes to regions rearranged in leukemia and deleted in solid tumors
AbstractBy applying the `recognition mask' strategy to 300 mammalian sequences containing NotI sites we demonstrated that 5′ ends of genes are highly enriched in NotI sites. A NotI linking clone NL2-252 (D3S1678) containing transferrin receptor (TFRC) gene was used as an initial point for chromosomal jumping. One of the jumping clones, J21-045 traverses 210 kbp and links NL2-252 to NL26 (D3S1632), a NotI linking clone containing highly polymorphic sequences. The TFRC gene was mapped to 3q29, close to the telomeric marker D3S2344, by linkage analysis, a panel of hybrid cell lines, GeneBridge 4 panel and FISH. Clone NLM-007 (D3S4302) was found to contain ras-homologous gene RAB7. By FISH and a panel of hybrid cell lines this gene was mapped to 3q21. This region is of particular interest due to frequent rearrangements in different types of leukemia. Clone L2-081 (D3S4283) containing new member of ubiquitin-specific proteases (HAUSP gene) was localized in 3p21 inspiring further investigation of involvement of this gene in development of lung and renal carcinomas
Analysis of NotI linking clones isolated from human chromosome 3 specific libraries
We have partially sequenced more than 1000
NotI linking clones isolated from human chromosome 3-specific libraries. Of these clones, 152 were unique chromosome 3-specific clones. The clones were precisely mapped using a combination of fluorescence in situ hybridization (FISH) and hybridization to somatic cell or radiation hybrids. Two- and three-color FISH was used to order the clones that mapped to the same chromosomal region, and in some cases, chromosome jumping was used to resolve ambiguous mapping. When this
NotI restriction map was compared with the yeast artificial chromosome (YAC) based chromosome 3 map, significant differences in several chromosome 3 regions were observed. A search of the EMBL nucleotide database with these sequences revealed homologies (90–100%) to more than 100 different genes or expressed sequence tags (ESTs). Many of these homologies were used to map new genes to chromosome 3. These results suggest that sequencing
NotI linking clones, and sequencing CpG islands in general, may complement the EST project and aid in the discovery of all human genes by sequencing random cDNAs. This method may also yield information that cannot be obtained by the EST project alone; namely, the identification of the 5′ ends of genes, including potential promoter/enhancer regions and other regulatory sequence