Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A VH gene segment that could not be assigned to any of the six known VH gene families of the channel catfish was identified in a genomic clone containing VH gene segments. This gene segment (designated VH7.1) exhibited the structural features characteristic of vertebrate VH genes, specifically potential upstream regulatory sequences, a leader sequence split by an intron, a reading frame that could be readily divided into framework and complementarity determining regions, and a 3' recombination signal sequence. Two regions of nucleotide deletions coupled with degeneracy in the nonamer sequence indicate that this VH gene segment is a pseudogene. Genomic DNA restricted with different enzymes and hybridized under stringent conditions with probes derived from VH7.1 showed that 8-10 bands were present in Southern blots. Reverse transcriptase PCR approaches were used to determine if any of these related sequences were expressed. Sequence analysis of cloned PCR products indicates that different VH gene segments exhibiting > 80% similarity to germline VH7.1 are expressed. Multiple sequence alignments showed that the expressed cVH7a cDNA sequence shared less than 60% nucleotide similarity with representative cDNA sequences from the other known catfish VH gene families. These combined results thus fulfil the criteria for the definition of a new family of catfish VH gene segments. This newly defined, small VH family is designated VH7.
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PMID:Characterization of a seventh family of immunoglobulin heavy chain VH gene segments in the channel catfish, Ictalurus punctatus. 883 18

A two-step reverse-transcriptase-based polymerase chain reaction (PCR) with nested primer pairs was developed to amplify sensitive and specific cytokeratin-19 (CK-19) mRNA sequences from human breast cancer cells. No CK-19 pseudogene interference was seen. The larger DNA-derived amplification products could be clearly discriminated from mRNA-derived products. The CK-19 message was not amplified from bone marrow or blood of healthy volunteers and patients with haematological malignancies nor from myeloid and lymphoid cell lines. Breast cancer cells were diluted in buffy coat cells up to 10(-6) and CK-19 mRNA sought by PCR. The CK-19 message was detected in 14 of 26 blood samples and 14 of 24 marrow samples but in neither of two peripheral blood stem cell samples taken from 35 breast cancer patients. By sequence-analysis control of two of these samples and two cell lines, the amplified DNA fragments were confirmed to be homologous with the CK-19 sequence. The CK-19 message was further sought in matched blood/marrow samples taken from 13 untreated women in the same cohort at the time of diagnosis. In 3 of these, CK-19 RNA was detected in blood and marrow and, in 3 others, only in blood, but never in marrow alone. The results show that CK-19 assay by reverse transcriptase/PCR is a sensitive and specific technique for the detection of cancer cells in bone marrow and blood. It could be helpful in diagnosis and monitoring of metastatic breast cancer and detection of micrometastases. This should be evaluated on larger numbers of patients, with different clinical samples and epithelial malignancies.
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PMID:Reverse transcriptase/polymerase chain reaction detection of cytokeratin-19 mRNA in bone marrow and blood of breast cancer patients. 889 79

A 1.3Mb chromosome 11-specific yeast artificial chromosome (YAC) that spans a t(1;11) translocation breakpoint associated with major psychosis has been used to enrich cDNAs that are encoded within it and expressed in the human foetal brain. Database analysis of the selected fragments led to the identification of 54 clones matching alpha-tubulin, 4 fragments matching two anonymous human expressed sequence tags (ESTs) and 8 fragments giving no database matches. The clones matching alpha-tubulin led to the identification of a novel alpha-tubulin locus located approximately 250 kb proximal to the translocation breakpoint. Extensive sequence and expression analysis of this locus suggests that this is a processed pseudogene, although a long open reading frame is maintained and the possibility that an abnormally acting protein may be expressed in a highly tissue or developmental specific manner cannot be discounted. The novel cDNA fragments map up to 700 kb proximal to the translocation breakpoint and are associated with potential CpG islands. Reverse transcriptase polymerase chain reaction (RT-PCR) expression analysis and high resolution genomic mapping suggest that they may comprise up to three novel genes. No major disruption of the identified fragments could be detected in the genomic DNA of translocation carriers. The psychosis associated with this translocation may therefore be due to position effects on the transcription of these genes or an involvement of translocated chromosome 1 sequences.
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PMID:Novel transcribed sequences neighbouring a translocation breakpoint associated with schizophrenia. 903 12

Transaldolase (TAL) is a key enzyme of the pentose phosphate pathway, which is responsible for generation of reducing equivalents to protect cellular integrity from reactive oxygen intermediates. While exons 2 and 3 are highly repetitive, the complete TAL-H gene is mapped to a single genomic locus (TALDO1(2)) by several independent approaches. Southern blot hybridization of a 827-bp 3' EcoRI fragment of the TAL-H cDNA to human-mouse somatic cell hybrid DNA localized TALDO1 to the p13-->pter region of chromosome 11. Fluorescence in situ hybridization with a 15-kb genomic fragment harboring exons 1 and 2 mapped TALDO1 to 11p15.4-p15.5. A truncated and mutated segment of TAL-H exon 5 terminating with a poly(A) tail was identified in a pseudogene locus (TALDOP1) on chromosome 1. Reverse transcriptase-PCR studies of human-mouse somatic cell hybrids revealed the presence of the functional TAL-H gene on chromosome 11 and its absence on human chromosome 1. Mapping of radiation hybrids placed TALDO1 between markers WI-1421 and D11S922 on 11p15.
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PMID:The human transaldolase gene (TALDO1) is located on chromosome 11 at p15.4-p15.5. 933 83

A critical step in the synthesis of unsaturated fatty acids is catalysed by stearoyl-CoA desaturase (Scd). To determine the regulation of human Scd, we characterized the gene and its transcripts. Screening a human keratinocyte cDNA library and analysis of 3'-RACE (rapid amplification of cDNA ends) products from various tissues yielded a 5.2 kb cDNA encoding a 359 amino acid protein with a calculated molecular mass of 41.5 kDa. Analysis of 3'-RACE products suggested that alternative usage of polyadenylation sites generates two transcripts of 3.9 and 5.2 kb, a result consistent with Northern analysis. Southern analysis demonstrated the existance of two SCD loci in the human genome. Chromosomal mapping localized one locus to chromosome 10, and the second locus to chromosome 17. Characterization of genomic clones isolated from chromosome-specific libraries revealed that only the locus on chromosome 10 contained introns. Sequence analysis of the intron-less locus displayed multiple nucleotide insertions and deletions, as well as in-frame stop codons. Reverse transcriptase-PCR analysis performed with primers specific to the intron-less locus failed to produce a PCR product from brain, liver and skin RNA, indicating that the locus on chromosome 17 is most likely a transcriptionally inactive, fully processed pseudogene. These results suggest strongly that there is one structural SCD gene in the human genome, and that it generates two transcripts by use of alternative polyadenyation sites. Although the primary sequence and intron-exon structure of SCD is phylogenetically conserved, divergence between rodent and human is seen in the number of SCD genes and in the generation of alternative transcripts, suggesting a species-specific component of SCD regulation and function.
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PMID:Human stearoyl-CoA desaturase: alternative transcripts generated from a single gene by usage of tandem polyadenylation sites. 1022 81

During differentiation of mouse 3T3-L1 fibroblasts to an adipocyte phenotype, the mitochondrial isoform of aspartate aminotransferase accumulates on the plasma membrane. The determination of whether this reflects translation of an alternatively spliced message lacking the mitochondrial leader sequence required cloning of the enzyme's uncommon a allele, for which these cells are homozygous. The 1.4-kb cDNA sequence of the a allele was obtained from oligo-dT-primed reverse-transcriptase PCR products amplified from FVB mouse RNA. It differed from the b allele at only 2 bp and one amino acid. By contrast, gene-specific primers generated an additional 1.4-kb fragment that differed from the b allele by approximately 1% of nucleotides, encoding four amino acid substitutions. This sequence proved to represent a recently diverged processed pseudogene. The presence of such pseudogenes can complicate interpretation of expressed-sequence-tag data and single-nucleotide-polymorphism genotyping studies. Using probes derived from the a allele, RNase protection analyses indicated that only a single message for the enzyme was present in 3T3-L1 fibroblasts and adipocytes, despite differences in subcellular protein distribution.
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PMID:Mitochondrial aspartate aminotransferase: direction of a single protein with two distinct functions to two subcellular sites does not require alternative splicing of the mRNA. 1064 97

The presence of axillary lymph node metastasis in patients with breast cancer is a major prognostic factor and also determines the use of adjuvant chemotherapy. Micrometastasis has been arbitrary defined as deposits of < 2 mm dimension. Earlier studies of micrometastases failed to demonstrate prognostic relevance. However, when larger numbers of patients were followed up for longer periods, micrometastasis was shown to be a significantly poor prognostic parameter with patients having a survival rate similar to those with macrometastasis or nodal disease. There are no compelling reasons to retain the term "micrometastasis" in the light of these findings and our understanding of tumor biology. Routine histological examination of axillary lymph nodes is a notoriously inaccurate method for the detection of metastases. When serial or multilevel sectioning and/or immunohistochemical staining for cytokeratin were employed, detection rates increased by as much as 33%. Reverse transcriptase-polymerase chain reaction and Southern blotting for CK19 may be a more accurate method of examination. However, there are inherent technical problems associated with this method, and the recent finding of a pseudogene with great homology to CK19 in normal peripheral blood nucleated cells further emphasises the need for caution in this approach. It is not cost-effective to employ serial sectioning and immunohistochemistry when examining the axillary contents. However, the introduction of sentinel-node biopsy may allow detailed examination of the single node most likely to harbour a metastatic tumor.
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PMID:The prognostic dilemma of nodal micrometastases in breast carcinoma. 1089 73

The human ov-serpin monocyte neutrophil elastase inhibitor (MNEI) is encoded by a single gene SERPINB1. It is a highly efficient inhibitor of neutrophil granule proteases. Four murine genes with high sequence identity with MNEI were identified and fully sequenced, and these were named EIA, EIB, EIC, and EID. EIA, EIB and EIC showed the same seven-exon gene structure as SERPINB1. However, EIC included an additional, alternatively spliced, exon due to the insertion of an endogenous retrovirus-like sequence. EID lacked several exons and is a pseudogene. Reverse transcriptase-PCR showed that EIA, like MNEI, is expressed at high levels in many tissues. EIB is mainly expressed in brain, and EIC was only expressed as splicing variants unlikely to encode a functional serpin. Upon incubation with serine proteases, EIA formed inhibitory covalent complexes with pancreatic and neutrophil elastases, cathepsin G, proteinase-3, and chymotrypsin, as previously shown for MNEI, whereas EIB was only able to do so with cathepsin G. According to the new serpin nomenclature, the genes encoding EIA, EIB, EIC, and EID will be called Serpinb1, Serpinb1b, Serpinb1c, and Serpinb1-ps1. These data demonstrate that the four murine homologs of MNEI have met different evolutionary fates, and that EIA is the mouse ortholog of MNEI.
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PMID:Characterization of four murine homologs of the human ov-serpin monocyte neutrophil elastase inhibitor MNEI (SERPINB1). 1218 54

The underlying molecular mechanisms leading to microsatellite alteration and mutations in human lung cancer remain unknown. Since Flap endonuclease1 (Fen1), which functions in the base excision repair system, has been shown to be involved in tumor progression of mouse models with microsatellite instability in a haplo-insufficient manner, we performed expression and mutation analyses for FEN1 in human lung cancer cell lines. Reverse transcriptase PCR analysis revealed that all 49 lung cancer cell lines (20 small cell lung cancers (SCLCs) and 29 non-small cell lung cancers (NSCLCs)) expressed FEN1. In addition, microarray analysis showed that FEN1 expression was elevated significantly by 1.65-fold (P=0.001) in SCLC cell lines compared to normal lung controls (normal human lung cultures and immortalized normal human bronchial epithelial cell lines). FEN1 protein was abundantly expressed in all 23 lung cancer cell lines (10 SCLCs and 13 NSCLCs) and was expressed at lower levels in three of four normal lung epithelial culture controls. Direct sequencing of genomic DNAs revealed no FEN1 mutation in seven SCLCs and nine NSCLCs. As part of this analysis we discovered and sequenced a FEN1 pseudogene (GenBank accession #AY249897) located at 1p22.2. This pseudogene is amplified from cDNA preparations contaminated with genomic DNA and must be taken into account in any FEN1 mutation analysis studies. Our results suggest that alterations of FEN1 are not likely to contribute to development of lung cancer.
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PMID:Increased expression and no mutation of the Flap endonuclease (FEN1) gene in human lung cancer. 1456 54

Pseudogenes are significant components of eukaryotic genomes, and some have acquired novel regulatory roles. To date, no study has characterized rice pseudogenes systematically or addressed their impact on the structure and function of the rice genome. In this genome-wide study, we have identified 11,956 non-transposon-related rice pseudogenes, most of which are from gene duplications. About 12% of the rice protein-coding genes, half of which are in singleton families, have a pseudogene paralog. Interestingly, we found that 145 of these pseudogenes potentially gave rise to antisense small RNAs after examining approximately 1.5 million small RNAs from developing rice grains. The majority (>50%) of these antisense RNAs are 24-nucleotides long, a feature often seen in plant repeat-associated small interfering RNAs (siRNAs) produced by RNA-dependent RNA polymerase (RDR2) and Dicer-like protein 3 (DCL3), suggesting that some pseudogene-derived siRNAs may be implicated in repressing pseudogene transcription (i.e., cis-acting). Multiple lines of evidence, however, indicate that small RNAs from rice pseudogenes might also function as natural antisense siRNAs either by interacting with the complementary sense RNAs from functional parental genes (38 cases) or by forming double-strand RNAs with transcripts of adjacent paralogous pseudogenes (2 cases) (i.e., trans-acting). Further examinations of five additional small RNA libraries revealed that pseudogene-derived antisense siRNAs could be produced in specific rice developmental stages or physiological growth conditions, suggesting their potentially important roles in normal rice development. In summary, our results show that pseudogenes derived from protein-coding genes are prevalent in the rice genome, and a subset of them are strong candidates for producing small RNAs with novel regulatory roles. Our findings suggest that pseudogenes of exapted functions may be a phenomenon ubiquitous in eukaryotic organisms.
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PMID:Small RNAs originated from pseudogenes: cis- or trans-acting? 1964 60


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