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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We report here evidence for the mechanism of nuclear localization of
XPG
nuclease in human cells. Several candidate nuclear localization signal (NLS) peptides have been proposed for
XPG
protein. We have identified
XPG
peptides containing functional NLS and a potential nuclear retention signal (NRS) using in situ immunofluorescene localization of transiently expressed
beta-galactosidase
fusion proteins. Two
XPG
regions with putative NLS [amino acid (AA) coordinates: NLS-B (AA 1057-1074) and NLS-C (AA 1171-1185)] were each shown to independently localize the beta-gal extensively (> 80%) to the nucleus of HeLa cells. The C-terminus peptide containing NLS-C, an NLS conserved evolutionarily between yeasts and humans, also directed sub-localization of
beta-galactosidase
to intranuclear foci reminiscent of native
XPG
protein, as well as to peri-nucleolar regions. Peptides in the putative
XPG
'NLS domain' (AA approximately 1051-1185) apparently function in concert for nuclear localization and also for retention of
XPG
in nuclear matrix-associated foci. Evidence presented elsewhere (Park et al., 1995) indicates that the peptide containing NLS-C (AA 1146-1185) also regulates the dynamic localization of
XPG
in the nucleus following UV-irradiation.
...
PMID:Multiple nuclear localization signals in XPG nuclease. 863 79
A recombinant nonreplicating human adenovirus type 5, Ad5HCMVsp1lacZ, expressing the lacZ gene under control of the human cytomegalovirus immediate early promoter, was used to assess the effect of heat-shock (HS) on DNA repair of a UV-damaged reporter gene. Host cell reactivation (HCR) of
beta-galactosidase
(beta-gal) activity for UV-irradiated Ad5HCMVsp1lacZ was used as an indicator of DNA repair in the transcribed strand of an active gene. Repair was examined in heat-shock (HS) pretreated and mock-treated normal fibroblasts, normal lung epithelial cells, xeroderma pigmentosum group A, C, D and G fibroblasts (XP-A, XP-C, XP-D and
XP-G
), Cockayne's syndrome group A fibroblasts (CS-A), SV40-transformed normal fibroblasts (GM637f) and 5 tumour cell lines (SKOV-3, HeLa, HT29, SCC-25 and U20S). HS enhanced reactivation (HSER) of the reporter gene was detected in normal cells, HT29 tumour cells and XP-C fibroblasts. HSER was reduced or absent in all other XP, CS and tumour cell lines tested. HSER in normal and XP-C cell lines, but not CS-A, XP-A, XP-D or
XP-G
cells, suggests that HS treatment can enhance the repair of UV-damaged DNA through an enhancement of transcription coupled repair (TCR) or a mechanism which involves the TCR pathway. Since this response was absent in the SV40-transformed fibroblast cell line and 4 of 5 tumour cell lines examined, HSER of beta-gal activity for UV-irradiated Ad5HCMVsp1lacZ also requires some cellular function(s) affected by transformation.
...
PMID:Heat-shock enhanced reactivation of a UV-damaged reporter gene in human cells involves the transcription coupled DNA repair pathway. 867 26
Xeroderma pigmentosum (XP) and Cockayne syndrome (CS) are human hereditary disorders characterized at the cellular level by an inability to repair certain types of DNA damage. Usually, XP and CS are clinically and genetically distinct. However, in rare cases, CS patients have been shown to have mutations in genes that were previously linked to the development of XP. The linkage between XP and CS has been difficult to study because few permanent cell lines have been established from XP/CS patients. To generate permanent cell lines, primary fibroblast cultures from two patients, displaying characteristics associated with CS and belonging to XP complementation group G, were transformed with anorigin-of-replication-deficient simian virus 40 (SV40). The new cell lines, summation operatorXPCS1LVo- and summation operatorXPCS1ROo-,were characterized phenotypically and genotypically to verify that properties of the primary cells are preserved after transformation. The cell lines exhibited rapid growth in culture and were shown, by immunostaining, to express the SV40 T antigen. The summation operatorXPCS1LVo- and summation operatorXPCS1ROo- cell lines were hypersensitive to UV light and had an impaired ability to reactivate a UV-irradiated reporter gene. Using polymerase chain reaction (PCR) amplification and restriction enzyme cleavage, the summation operatorXPCS1ROo- cells were shown to retain the homozygous T deletion at
XPG
position 2972. This mutation also characterizes the parental primary cells and was evident in the
XPG
RNA. Finally, to characterize the
XPG
DNA repair deficiency in these cell lines, an episomal expression vector containing wild-type
XPG
cDNA was used to correct UV-induced damage in a
beta-galactosidase
reporter gene.
...
PMID:Complementation of transformed fibroblasts from patients with combined xeroderma pigmentosum-Cockayne syndrome. 971 45
The genetic disorders xeroderma pigmentosum (XP) and Cockayne syndrome (CS) exhibit deficiencies in the repair of UV-induced DNA damage. CS fibroblasts retain proficient nucleotide excision repair (NER) of inactive (or bulk) DNA, but are deficient in the transcription-coupled repair (TCR) of active genes. In contrast, XP complementation group C (XP-C) fibroblasts retain proficient TCR, but are deficient in bulk DNA repair. The remaining NER-deficient XP groups exhibit deficiencies in both repair pathways. Ad5HCMVsp1lacZ is a recombinant adenovirus vector that is unable to replicate in human fibroblasts, but can efficiently infect and express the
beta-galactosidase
reporter gene in these cells. We have examined the host cell reactivation (HCR) of
beta-galactosidase
activity for UV-irradiated Ad5HCMVsp1lacZ in non-irradiated and UV-irradiated normal, XP-B, XP-C, XP-D, XP-F,
XP-G
, CS-A and CS-B fibroblasts. HCR of
beta-galactosidase
activity for UV-irradiated Ad5HCMVsp1lacZ was reduced in non-irradiated cells from each of the repair-deficient groups examined (including XP-C) relative to that in non-irradiated normal cells. Prior irradiation of cells with low UV fluences resulted in an enhancement of HCR for normal and XP-C strains, but not for the remaining XP and CS strains. HCR of the UV-damaged reporter gene in UV-irradiated XP and CS strains was similar to measurements of TCR reported previously for these cells. These results suggest that UV treatment results in an induced repair of UV-damaged DNA in the transcribed strand of an active gene in XP-C and normal cells through an enhancement of TCR or a mechanism which involves the TCR pathway.
...
PMID:UV-enhanced reactivation of a UV-damaged reporter gene suggests transcription-coupled repair is UV-inducible in human cells. 993 45
