DrugBank:EXPT01586 - FACTA Search

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Query: DrugBank:EXPT01586 (G418)
2,237 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The parasitic protozoan Trypanosoma brucei has some hundred mini-chromosomes of 50-150 kb, which mainly consist of telomeric repeats, sub-telomeric repeats and internal 177-bp repeats. Their primary function seems to be to expand the repertoire of non-transcribed sub-telomeric variant surface glycoprotein (VSG) genes. Here we report that two of the smaller mini-chromosomes (55 and 60 kb) contain sequences homologous to the ribosomal RNA gene promoter region. We have targeted by homologous recombination the neomycin phosphotransferase (neo(r)) gene behind the promoter on the 55 kb chromosome and show that this promoter mediates the efficient synthesis of properly trans-spliced and polyadenylated neo mRNA. The resulting high resistance to G418 (a neo analogue) is stable in the absence of drug showing that mitotic segregation of this mini-chromosome is precise. Downstream of the transcription start the wild-type version of the ribosomal promoter is flanked by telomeric repeats. The absence of the sub-telomeric repeats found in other T.brucei chromosome ends suggests that the rDNA-telomeric junction has been formed by de novo addition of telomeric repeats to a broken chromosome end (healing). Our results provide a plausible explanation for the alpha-amanitin-resistant transcription of telomeric repeats in T.brucei reported by Rudenko and Van der Ploeg and they show that trypanosomes can efficiently use RNA polymerase I for the expression of sub-telomeric genes, supporting the notion that the alpha-amanitin-resistant transcription of sub-telomeric VSG genes may also be catalyzed by this enzyme.
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PMID:A ribosomal RNA gene promoter at the telomere of a mini-chromosome in Trypanosoma brucei. 131 72

For several human tumour types, allelic loss data suggest that one or more tumour suppressor genes reside telomeric to the p53 gene at chromosome 17p13.1. In the present study we have used a new strategy, involving molecular analysis of a DNA site hypermethylated in tumour DNA, to identify a candidate gene in this region (17p13.3). Our approach has led to identification of HIC-1 (hypermethylated in cancer), a new zinc-finger transcription factor gene which is ubiquitously expressed in normal tissues, but underexpressed in different tumour cells where it is hypermethylated. Multiple characteristics of this gene, including the presence of a p53 binding site in the 5' flanking region, activation of the gene by expression of a wild-type p53 gene and suppression of G418 selectability of cultured brain, breast and colon cancer cells following insertion of the gene, make HIC-1 gene a strong candidate for a tumour suppressor gene in region 17p13.3.
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PMID:p53 activates expression of HIC-1, a new candidate tumour suppressor gene on 17p13.3. 758 25

A panel of 63 radiation-reduced hybrids has been derived from a mouse cell line containing a neo-marked human Chromosome (Chr) 6, primarily to provide a resource for higher resolution localization of new markers. Hybrids were generated with radiation doses of 40-400 Gy, selected in G418, and were shown by PCR to contain the neo gene. PCR was also used to score the retention of 15 loci that map from 6q13 to q25.2 of the current consensus map, plus six other loci assigned to 6q26-q27. An average retention frequency of 27.8% was observed, with the highest frequencies at D6S313 and D6S280 (63.5%) located near the centromere at 6q13, and at D6S283 (68.5%) at 6q16.3-q21, presumably close to the neo integration site. Lowest frequencies (4.8%) were observed for telomeric markers. All markers segregated independently except D6S297 and D6S193. Agreement and some improvement to the current consensus map of 6q was made by mapping 12 loci by the non-parametric statistical method of Falk. In addition, deletion mapping with informative hybrids allowed the ordering of six loci from 6q26 to q27 and permitted some integration of maps of this region.
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PMID:A radiation hybrid panel for human chromosome 6q. 761 36

A pectate lyase (PL)-encoding gene (pelE) from Erwinia chrysanthemi and a polygalacturonase (PG)-encoding gene (peh1) from E. carotovora were each inserted between a novel yeast expression-secretion cassette and a yeast gene terminator, and cloned separately into a yeast-centromeric shuttle vector (YCp50), generating recombinant plasmids pAMS12 and pAMS13. Transcription initiation signals present in the expression-secretion cassette were derived from the yeast alcohol dehydrogenase gene promoter (ADC1P), whereas the transcription termination signals were derived from the yeast tryptophan synthase gene terminator (TRP5T). Secretion of PL and PG was directed by the signal sequence of the yeast mating pheromone alpha-factor (MF alpha 1s). A pectinase cassette comprising ADC1P-MF alpha 1s-pelE-TRP5T and ADC1P-MF alpha 1s-peh1-TRP5T was subcloned into YCp50, generating plasmid pAMS14. Subsequently, the dominant selectable Geneticin G418-resistance (GtR) marker, APH1, inserted between the yeast uridine diphosphoglucose 4-epimerase gene promoter (GAL10P) and yeast orotidine-5'-phosphate carboxylase gene terminator (URA3T), was cloned into pAMS14, resulting in plasmid pAMS15. Plasmids pAMS12, pAMS13 and pAMS14 were transformed into a laboratory strain of Saccharomyces cerevisiae, whereas pAMS15 was stably introduced into two commercial wine yeast strains. DNA-DNA and DNA-RNA hybridization analyses revealed the presence of these plasmids, and the pelE and peh1 transcripts in the yeast transformants, respectively. A polypectate agarose assay indicated the extracellular production of biologically active PL and PG by the S. cerevisiae transformants and confirmed that co-expression of the pelE and peh1 genes synergistically enhanced pectate degradation.
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PMID:Co-expression of an Erwinia chrysanthemi pectate lyase-encoding gene (pelE) and an E. carotovora polygalacturonase-encoding gene (peh1) in Saccharomyces cerevisiae. 776 27

In order to map the gene that is responsible for the DNA-repair defect in severe combined immune deficient (SCID) mice, a mixture of microcells independently isolated from mouse A9 cells containing pSV2neo-tagged human chromosomes 5, 7, 8, 9, 11, 15, 18 or 20 were fused with SCID fibroblast cell lines SCVA2 and SCVA4, which were originally established from lung tissue of the C.B.17-scid/scid mouse by SV40 virus transfection. After irradiation with 60Co gamma-rays and selection with antibiotic G418, 12 independent clones were obtained, of which 4 contained an intact chromosome 8, 3 clones contained a deleted chromosome 8 [del(8)q22-->qter or del(8)q23--> qter] and remaining 5 had no detectable or specific human chromosome. We further independently transferred a single human chromosome 8 or 11 into the SCVA cells via microcell fusion, and examined the radiation sensitivity of the microcell hybrids. Complementation of the radiation sensitivity was correlated with the presence of human chromosome 8 in microcell hybrids, whereas no correlation was observed in clones following the transfer of human chromosome 11. Thus, the results indicate that human chromosome 8 restored high sensitivity to ionizing radiation. A number of subclones that were radiation resistant or sensitive were isolated from the microcell hybrids. The concordance of the radiation sensitivity with the presence or absence of specific DNA fragments on chromosome 8 indicates that the human gene is located on the centromeric region of chromosome 8, i.e., 8p11.1--> q11.1.
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PMID:A human gene that restores the DNA-repair defect in SCID mice is located on 8p11.1-->q11.1. 827 Feb 50

We have developed two shuttle cosmid vectors for the trypanosomatid protozoan parasite Leishmania. Cosmids cLHYG and cLNEO contain hyg and neo markers, conferring resistance to hygromycin B and G418, respectively, replicate extrachromosomally after transfection into promastigotes, and bear a unique BamHI cloning site. To ensure the representation of telomeric sequences, which represent about 5% of the Leishmania genome, random insert DNAs were prepared by shearing followed by blunt-end ligation with BamHI adapters. Representative genomic libraries from Leishmania species representing the four major pathogenic complexes were prepared using cosmid cLHYG. The cosmid libraries were efficiently transfected into Leishmania, and individual cosmids were readily recovered by transformation back into Escherichia coli. The relatively small size of the Leishmania genome (50 Mb) combined with the capacity and transfection efficiency of these cosmid libraries (> 1000 Leishmania transfectants/plate) suggests the feasibility of functional genetic complementation in this parasite.
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PMID:Shuttle cosmid vectors for the trypanosomatid parasite Leishmania. 837 May 35

The ability of the (T2G4)n telomeric repeats to maintain a linear structure in an extrachromosomal replicating plasmid in mouse C127 cells was tested in a vector based on Bovine papillomavirus type-1, ARS, HIS3 and the neo genes. Digestion with BamHI releases a BPV-1 containing fragment with a (T2G4)n repeats at each end which was introduced to yeast and microinjected into mouse C127 cells. While the linear construct was maintained as extrachromosomal structure in yeast cells, none of the resulting G418-resistant mouse cells transformants were found to have extrachromosomally replicating linear plasmids. Analysis of transformed mouse C127 DNA suggested that in some, the linear fragment had integrated into mouse chromosomes, whereas in other cell lines the fragment may have circularised and possibly been replicating extrachromosomally as a high molecular weight structure. In some of the mouse transformants the (T2G4)n repeats had been deleted from retained plasmid sequences.
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PMID:T2G4 telomere repeats does not provide telomere function to a BPV-1 containing DNA fragment in mouse C127 cells. 838 49

Four sets of plasmid vectors for the budding yeast Kluyveromyces lactis (Kl) have been constructed. All plasmids are pUC19-based shuttle vectors having multiple unique sites in their multiple cloning site (MCS) within the bacterial lacZ gene. The first set of vectors contains Klori, the origin of replication for Kl isolated from Kluyveromyces plasmid pKD1, and one of the selectable nutritional markers, URA3, TRP1 or LEU2. These markers from the yeast, Saccharomyces cerevisiae (Sc), can complement the uraA1, trp1 and leu2 mutations of Kl. The second set of vectors, in addition to Klori, contains the ARS (autonomously replicating sequence) and centromeric sequences of Sc, and are able to replicate in both Sc and Kl. The third group of plasmids is centromeric vectors that are maintained in Kl at low copy number. The last family of vectors was designed for gene overexpression. As they contain the bacterial kanamycin-resistance-encoding gene (kan), plasmid copy number can be amplified to over 100 copies per cell in Kl by growing cells in the presence of the antibiotic G418 (Geneticin). This type of vector has been used to study the high-copy-lethality phenotype of a truncated version of the Kl MGI2 gene encoding the alpha-subunit of the mitochondrial F1F0-ATP synthase.
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PMID:Low- and high-copy-number shuttle vectors for replication in the budding yeast Kluyveromyces lactis. 865 73

Changes in variant surface glycoprotein (Vsg) expression allow Trypanosoma brucei to elude the immune response. The expressed vsg is always located at the telomeric end of a polycistronic transcription unit known as an expression site (ES). Although there are many ESs, only one is active at any particular time. The mechanisms regulating ES transcription and switching are unknown. Chromosome rearrangements within or upstream of the ES have been described to occur in occasional switch events, but no changes have been consistently associated with switching. We inserted the drug resistance genes neo and ble, conferring resistance to G418 and phleomycin, respectively, 1 kb downstream of "silent" ES promoters. This demonstrated that short-range transcription could be achieved from a silent ES promoter. From one initial transformant clone, panels of independent consecutive on-off-on switch clones were generated and analyzed. The first activation of the neo-targeted ES was always associated with deletion of the upstream tandem promoter in this ES, but no further rearrangements were detected in consecutive off-on switches of this ES. On the other hand, direct analysis of ES promoters showed that deletions and duplications occurred elsewhere. Activation of a ble-tagged 300-kb chromosome could not be achieved, but phleomycin-resistant clones could be obtained. One such clone arose from recombination between three ESs. Taken together, our experiments suggest that ES switching may occur after a period of chromosomal interactivity that may or may not leave tangible evidence in the form of detectable sequence changes.
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PMID:DNA rearrangements associated with multiple consecutive directed antigenic switches in Trypanosoma brucei. 866 78

The molecular structure of the telomeric region at the left arm of the second chromosome of the mosquito Anopheles gambiae has been determined in the transformed strain G418 that contains a pUChsneo transgene attached at the 2L chromosome end, and in the Pink eye laboratory strain (PE). Both strains contain the same complex satellite positioned distal to a unique region. FIGE mapping of the telomeric region of the PE strain revealed distinct DNA fragment lengths that segregated with individual chromosomes. Genomic DNA fragments were cloned from the 2L telomeric region, which accounted for about half of 2L chromosomes in the PE population. In all three cases studied, long fragments of different middle repetitive sequences were found attached to the distal ends of the 2L satellite. We propose that random fragments of DNA may be occasionally added during recombination between complex satellite repeats at the chromosome ends.
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PMID:DNA organization and length polymorphism at the 2L telomeric region of Anopheles gambiae. 945 32

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