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Query: DrugBank:EXPT01586 (
G418
)
2,237
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A hamster DNA repair gene has been isolated by cosmid rescue after two rounds of transfection of an immortalized xeroderma pigmentosum (XP) complementation group D cell line with neomycin-resistance gene (neo)-tagged normal hamster DNA and selection with
G418
and ultraviolet irradiation. The functional length of the sequence has been defined as 11.5 kilobase pairs by measurement of the region of overlap between two hamster DNA-containing cosmids, cloned by selection for the integrated neo gene, that are able to confer an increase in resistance to ultraviolet irradiation on two
XP-D
cell line but not on an XP-A line. Detailed molecular characterization of the hamster repair gene has revealed no obvious similarities to two human excision repair genes (ERCC1 and ERCC2) that correct repair-defective hamster cells but have no effect on XP cells. Hybridization analyses of normal human and XP cell genomic DNAs and mRNAs, using a cosmid-clone probe from which repeated sequences have been removed, show that homologues are present and expressed in all cases.
...
PMID:Molecular cloning and characterization of a mammalian excision repair gene that partially restores UV resistance to xeroderma pigmentosum complementation group D cells. 278 May 57
Due to their limited life time in culture and their relative resistance to DNA transfection, primary fibroblasts derived from UV-hypersensitive patients could not be used for cloning DNA repair gene and studying stable complementation with wild-type DNA repair genes. Primary cells were only used for complementation analysis after transient expression through cell fusion. DNA microinjection and transfection. We report the retroviral-mediated highly efficient transfer and stable expression of
XPD
/ERCC2 gene in fibroblast strains from eight different patients using the LXPDSN retroviral vector. Cells derived from skin biopsies of xeroderma pigmentosum and trichothiodystrophy patients were incubated with vector-containing suspension and selected with the neomycin-analog
G418
. LXPDSN vector specifically complemented cells belonging to the
XP-D
group. Long-term reversion of repair-deficient phenotype, monitored by UV survival and UDS analysis, has been achieved in these diploid fibroblasts. We demonstrate this methodology is a powerful tool to study phenotypic reversion of nucleotide excision repair-deficient cells such as cellular DNA repair properties and we suggest that it may be used to study other cellular parameters (cell cycle regulation, p53 stability or immunosurveillance-controlling factors) involved in UV-induced skin cancers and which reliability requires the use of untransformed cells.
...
PMID:Long-term complementation of DNA repair deficient human primary fibroblasts by retroviral transduction of the XPD gene. 896 Jan 28
Xeroderma pigmentosum group E (XP-E) fibroblasts (XP95TO) were transformed with pSV3neo. Selection in medium containing
G418
yielded 14 clones with extended life span. Following crisis, one clone was recovered that behaved in culture as an immortal cell line and was named XPET6/1. Expression of the SV40 large T antigen gene (Tag) and increased level of p53 were demonstrated by western analyses. Fingerprinting with 14 polymorphic microsatellite genetic markers confirmed that XPET6/1 originated from the parental strain XP95TO. XPET6/1 retained the sensitivity to killing by UV observed with the parental strain. Cell-free extracts from the immortal or the parental XP-E cells were deficient in excision, compared to extracts from HeLa or extracts from Tag-transformed XP variant fibroblasts. Complementation of XP-E extracts with XP-A,
XP-D
or XP-G extracts restored nucleotide excision activity to normal levels. XPET6/1 could prove a useful cell line for cloning of the XPE gene by functional complementation.
...
PMID:Generation and characterization of an immortal cell line of xeroderma pigmentosum group E. 953 81
