Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0033036 (APC)
 10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cytoplasmic beta-catenin protein is implicated in signal transduction and associates with both the cell-cell adhesion protein E-cadherin and the tumor suppressor gene product APC. We determined the primary structure of the human beta-catenin gene (CTNNB1) by analysis of cDNA and genomic clones. The size of the complete gene was determined to be 23.2 kb. Restriction mapping and partial sequence analysis revealed 16 exons. All splice donor and acceptor sites were conformable to the GT/AG rule. The exon size ranged from 61 to 790 bp. Half of the introns were smaller than 550 bp, with the smallest being 84 bp and the longest being 6700 bp. The intron-exon boundaries did not coincide either with conserved sites in the 12 armadillo repeat sequences of beta-catenin or with intron-exon boundaries in the armadillo gene of Drosophila. A major site for transcription initiation was identified as an A residue 214 nucleotides upstream of the ATG initiation codon. The resulting transcript is 3362 nucleotides long. Compared to the previously published mRNA sequence, additional residues were identified, 16 at the 5' end and 766 at the 3' end of the mRNA. An alternative splice acceptor site within exon 16 reduced the 3' UTR sequence by 159 bp. Polymerase chain reaction on cDNA from 14 human cell lines demonstrated the general occurrence of both splice variants. The 5'-flanking region is highly GC-rich and lacks a CCAAT box, but contains a TATA box and potential binding sites for several transcription factors, such as NF kappa B, SP1, AP2, and EGR1. Both a 437-bp fragment and a 6-kb fragment, containing about 4.7 kb of the 5'-flanking region in addition to the noncoding exon 1 and 1 kb of intron 1, showed clear promoter activity when these fragments were linked to a secreted alkaline phosphatase reporter gene and transfected into a mouse epithelial cell line.
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PMID:Genomic organization of the human beta-catenin gene (CTNNB1). 883 5

The analysis of tissue-specific genetic alterations depends on the selective procurement of homogeneous cell populations. Microbeam microdissection of membrane-mounted native tissue (MOMeNT) permits the rapid, selective, and low-contamination procurement of tumor or other cells from histological sections by non-thermic non-contact laser microdissection. Tissue sections are mounted on a specifically designed ultrathin transparent supporter membrane. Tissue together with the membrane are then dissected with an ultraviolet (337-nm) pulsed laser microbeam coupled into a robot-stage microscope. The ultraviolet laser causes dissection by cold photolysis due to the high photon density of the microbeam rather than by local heating. The track of the laser microbeam can be preselected freely on a video screen, and the size and form of the dissectates can thus be adapted to the histological features of the section with a delineation accuracy in the micron range. Polymerase chain reaction amplification of DNA from the dissectates is not impaired, and tumor-specific loss of heterozygosity of the APC gene as well as homozygous deletion of the MTS1 gene are demonstrated in bladder carcinomas. Taken together, microbeam MOMeNT is a novel technique that utilizes membrane-based microdissection by an ultraviolet laser microbeam, thus providing a flexible, easy-to-use high-performance tool for the molecular pathologist.
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PMID:Microbeam MOMeNT: non-contact laser microdissection of membrane-mounted native tissue. 921 32

The giant 358-kDa protein Ran binding protein 2 (RanBP2/Nup358) is localized at the cytoplasmic side of the nuclear pore complex and likely constitutes the Ran-GTP binding site at the cytoplasmic face of the complex. RanBP2/Nup358 furthermore acts as a chaperone for red/green opsin molecules. Here, we report on the physical mapping of human RanBP2 between markers D2S340 and D2S1893. A duplication of the 5'-end sequence of RanBP2 occurs within 3 Mb distal to RanBP2. Detailed sequence analysis resulted in primers specific for this distal duplication. Polymerase chain reaction-based screening of cDNA libraries indicates that this transcript, called RanBP2alpha (HGMW-approved symbol RANBP2L1), is expressed in several tissues. Screening of a fetal brain cDNA library yielded a 4057-bp partial cDNA clone for RanBP2alpha. Its 5'-end is almost identical to RanBP2, whereas its 3'-part is distinct from RanBP2. Northern blot analysis using a probe of the 3'-untranslated sequence of RanBP2alpha detected in several tissues an 8-kb transcript representing the full length of the transcript. In pancreas and placenta, an additional transcript of 14 kb was detected. PAC clones containing the bona fide RanBP2 sequences were localized to 2q11-q12 by FISH analysis, and a region of high similarity was detected on 2p11-p12. In summary, we have identified a RanBP2 gene cluster on 2q11-q12 together with a novel gene termed RanBP2alpha, with high sequence similarity to RanBP2.
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PMID:Identification of a novel Ran binding protein 2 related gene (RANBP2L1) and detection of a gene cluster on human chromosome 2q11-q12. 948 Jul 52

Carcinoma is an important complication of ulcerative colitis (UC) and develops from dysplastic precursor lesions. Genetic changes involved in the malignant transformation have not been fully characterized. We studied 19 cases of UC with high-grade dysplasia (HGD) and eight samples of associated carcinoma (CA). Microdissection of normal epithelium, epithelium at the site of chronic inflammation, HGD, and CA was performed. Polymerase chain reaction (PCR) amplification for loss of heterozygosity (LOH) of the following polymorphic microsatellites of putative tumor suppressor gene loci was done: APC (5q), DCC (18q), p16 (9p), p53 (17p), and 8p12. To compare genetic alterations, 22 typical adenomas of the colon were studied with the markers for APC and pl6 gene loci. The results indicated that LOH of p16 and p53 were present in nondysplastic epithelium, HGD, and CA. However, the LOH in nondysplastic epithelium was detected in some associated HGD, but not all. Whereas LOH of p16 was present in 7 of 14 cases of HGD (50%), it was noted in only 1 of 22 adenomas (5.0%). LOH in the APC and DCC gene loci in UC was noted in HGD with associated CA, but LOH of APC was not present either in cases of nondysplastic epithelium or in HGD alone. Conversely, LOH in APC was present in 4 of 19 colonic adenomas. We conclude that LOH of p53 and p16 in nondysplastic epithelium may be associated with chronic reparative processes. These changes may lead to susceptibility to further genetic damage involving the APC and DCC gene loci in the development of dysplasia and progression of CA in UC. The low frequency of LOH in the p16 gene (9p) in adenomas compared with dysplasia in UC combined with infrequent LOH in APC gene loci in cases of pure dysplasia in UC may support this combination of markers as a clinical test for the differentiation of polypoid dysplasia from adenomas in UC.
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PMID:Comparison of genetic alterations in colonic adenoma and ulcerative colitis-associated dysplasia and carcinoma. 949 Feb 71

APC gene mutations play a role in the initiation step of colorectal carcinogenesis in both familial adenomatous polyposis (FAP) and non-FAP patients. Almost all of the APC mutations are nonsense or frameshift mutations, which truncate the APC protein and are thought to inactivate normal APC function. We show a novel method for detecting nonsense and frameshift APC gene mutations by using Saccharomyces cerevisiae. Polymerase chain reaction (PCR)-amplified APC fragments are cloned directly into yeast expression vectors in vivo, and the yeast expresses a hemagglutinin epitope (HA)-tagged APC peptide. When an APC fragment contains a nonsense or frameshift mutation, HA-tagged truncating APC peptide can be detected by Western blotting using an anti-HA antibody. We identified both germ-line and somatic APC mutations in patients with FAP and non-FAP colorectal tumors, respectively. This method, called the yeast-based protein truncation test (YPTT), is simple and fairly cheap, and it can be applied to any genes that are inactivated by protein truncating mutations.
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PMID:Detection of APC mutations by a yeast-based protein truncation test (YPTT). 955 40

Tumor suppressor genes APC, RB1, and DCC, as well as genes localized to 3p and 11q, have been implicated in the development of a number of human tumors. To determine whether allelic deletions occur at these loci in squamous cell carcinomas (SSCs) of the head and neck, 25 primary, 1 metastatic, and 3 recurrent tumors, along with the corresponding constitutional tissues, were analyzed by using a battery of polymorphic DNA markers. For two primary tumors, we also analyzed subsequent metastatic tumors of the lung. Polymerase chain reaction-based restriction fragment length polymorphism studies demonstrated loss of heterozygosity for the APC gene in 2 of 12 (17%), the RB1 gene in 5 of 22 (23%), and the DCC gene in 5 of 13 (38%) informative cases. Alleles on chromosomes 3p, 11q13, and 18q21.1 were lost in 7 of 20 (35%), 9 of 23 (39%), and 4 of 17 (24%) informative cases, respectively. A breakpoint was identified within the chromosomal region 3p13-21.2 in a SCC of the tongue. Breakpoints within 11q13 were identified in 2 additional tumors. Thus, allelic deletions of DCC, 3p, and 11q13 appear to be common in head and neck cancers, suggesting that these genes play a critical and complex role in the development of these tumors. Furthermore, the present study provides definitive evidence for a tumor suppressor gene at chromosome band 11q13 and localizes this gene to the INT2-D11S533 interval for future cloning and sequencing.
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PMID:Loss of heterozygosity in squamous cell carcinomas of the head and neck defines a tumor suppressor gene region on 11q13. 966 6

Critical steps in the methodology of mutation analysis on routinely fixed, paraffin-embedded samples have been evaluated, including extraction and purification of DNA, amplification of gene fragments in various sizes, and screening for mutations. The DNA was extracted from tissue sections with proteinase K, using various procedures, and purified. The mutation cluster region of the APC gene was amplified with polymerase chain reaction to generate either two large or four small overlapping DNA fragments. The GC-clamped fragments were screened for mutations with temperature gradient gel electrophoresis, and mutations were identified with sequencing. The DNA was easily amplified as large fragments from fresh or unfixed-frozen samples. However, DNA amplification of large fragments from archival samples was successful in only 40 of the 114 tumor specimens analyzed (35%). Prolonged extraction, either at 55 degrees C or at 37 degrees C, gave no better results. Polymerase chain reaction of smaller fragments, with sizes between 200 and 270 base pairs (bp), was successful for 97% of the amplification reactions when using DNA that was purified with silica. Screening with temperature gradient gel electrophoresis was reproducible and sensitive with a detection limit of 5% mutated DNA in the presence of an excess of wild-type DNA.
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PMID:Optimizing the APC gene mutation analysis in archival colorectal tumor tissue. 1040 88

Twenty-three cases of basaloid squamous cell carcinoma (BSCC) and 23 stage-matched pairs of typical squamous cell carcinoma (SCC) of the oesophagus were investigated for molecular aberrations. Polymerase chain reaction (PCR) was used to detect loss of heterozygosity at the APC, RB, and MCC gene loci, while differential PCR was carried out to detect amplification of the CDK4 gene. In addition, the level of expression of the p53 and RB proteins in the tumour tissue was assessed by immunohistochemistry. Loss of heterozygosity (LOH) at the APC and MCC loci was about twice as common in BSCC as in SCC (40% vs. 21% and 33% vs. 12%, respectively), with co-existence of LOH at both loci occurring only in BSCC. LOH frequency at the RB gene locus was not remarkably different in either BSCC or SCC (20% vs. 24%, respectively). On immunohistochemistry, accumulation of p53 protein was slightly more frequent in BSCC than in SCC (61% vs. 52%), whereas the rate of loss of RB protein expression was about equal in both types of carcinoma (9% vs. 13% BSCC and SCC, respectively). There was no detectable amplification of the CDK4 gene in either type of tumour. Although the observed differences did not achieve statistical significance, this work has further highlighted possible differences between the molecular pathogenesis of BSCC and SCC.
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PMID:Comparative analysis of basaloid and typical squamous cell carcinoma of the oesophagus: a molecular biological and immunohistochemical study. 1118 Jan 60

Deletions involving the SIL-TAL-1 locus are seen in 15% of T-acute lymphoblastic leukaemias (T-ALL). To date, seven deletions have been described, spreading over 90 kb of chromosome 1, fusing SIL to the TAL-1 gene and resulting in over expression of TAL-1. During the diagnostic screening of the TAL-1 deletion in 176 T-ALL patients, we identified one case showing a new SIL rearrangement. A novel fusion transcript was identified between the SIL exon 1a and an unknown sequence (633-cDNA). Polymerase chain reaction (PCR) screening of a human cDNA library confirmed the existence of this transcript. Using long-distance PCR on patient DNA, we obtained a genomic fragment containing SIL exon 1b, a portion of intron 1b, an unknown sequence and the 633 sequence. Using DNA from healthy donors, a partial genomic map of 633-DNA was found to be identical to the restriction map of the PCR fragment amplified from patient DNA. To define the chromosomal origin of 633-DNA, a YAC human genomic library was screened. Two clones containing 633-DNA were found, mapping to chromosomal region 1p32 and both contained SIL and TAL-1 sequences. By searching GenBank, we identified PAC RP1-18D14 which contains SIL, TAL-1 and 633-DNA, confirming this novel rearrangement as a new deletion of the SIL/TAL-1 locus.
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PMID:Molecular characterization of a new recombination of the SIL/TAL-1 locus in a child with T-cell acute lymphoblastic leukaemia. 1219 79

We investigated the potential of an improved Agrobacterium tumefaciens-mediated transformation procedure of japonica rice ( Oryza sativa L.) for generating large numbers of T-DNA plants that are required for functional analysis of this model genome. Using a T-DNA construct bearing the hygromycin resistance ( hpt), green fluorescent protein ( gfp) and beta-glucuronidase ( gusA) genes, each individually driven by a CaMV 35S promoter, we established a highly efficient seed-embryo callus transformation procedure that results both in a high frequency (75-95%) of co-cultured calli yielding resistant cell lines and the generation of multiple (10 to more than 20) resistant cell lines per co-cultured callus. Efficiencies ranged from four to ten independent transformants per co-cultivated callus in various japonica cultivars. We further analysed the T-DNA integration patterns within a population of more than 200 transgenic plants. In the three cultivars studied, 30-40% of the T(0) plants were found to have integrated a single T-DNA copy. Analyses of segregation for hygromycin resistance in T(1) progenies showed that 30-50% of the lines harbouring multiple T-DNA insertions exhibited hpt gene silencing, whereas only 10% of lines harbouring a single T-DNA insertion was prone to silencing. Most of the lines silenced for hpt also exhibited apparent silencing of the gus and gfp genes borne by the T-DNA. The genomic regions flanking the left border of T-DNA insertion points were recovered in 477 plants and sequenced. Adapter-ligation Polymerase chain reaction analysis proved to be an efficient and reliable method to identify these sequences. By homology search, 77 T-DNA insertion sites were localized on BAC/PAC rice Nipponbare sequences. The influence of the organization of T-DNA integration on subsequent identification of T-DNA insertion sites and gene expression detection systems is discussed.
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PMID:Highly efficient production and characterization of T-DNA plants for rice ( Oryza sativa L.) functional genomics. 1267 1


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