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Target Concepts:
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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)
In 1992, we described the cloning and sequencing of the dnaK locus of Bacillus subtilis which, together with transcriptional studies, implied a tetracistronic structure of the operon consisting of the genes hrcA, grpE, dnaK, and dnaJ. We have repeated the Northern blot analysis, this time using riboprobes instead of oligonucleotides, and have detected a heat-inducible 8-kb transcript, suggesting the existence of additional heat shock genes downstream of dnaJ. Cloning and sequencing of that region revealed the existence of three novel heat shock genes named orf35, orf28, and orf50, extending the tetra- into a heptacistronic operon. This is now the largest dnaK operon to be described to date. The three new genes are transcribed as a part of the entire dnaK operon (8.0-kb heptacistronic heat-inducible transcript) and as part of a suboperon starting at an internal vegetative promoter immediately upstream of dnaJ (4.3-kb tetracistronic non-heat-inducible transcript). In addition, the Northern blot analysis detected several processing products of these two primary transcripts. To demonstrate the existence of the internal promoter, a DNA fragment containing this putative promoter structure was inserted upstream of a promoterless bgaB gene, resulting in the synthesis of
beta-galactosidase
. Challenging this transcriptional fusion with various stress factors did not result in the activation of this promoter. To assign a biological function to the three novel genes, they have each been inactivated by the insertion of a cat cassette. All of the mutants were viable, and furthermore, these genes are (i) not essential for growth at high temperatures, (ii) not involved in the regulation of the heat shock response, and (iii) sporulation proficient.
Blocking
transcription of the suboperon from the upstream heat-inducible promoter did not impair growth and viability at high temperatures.
...
PMID:The dnaK operon of Bacillus subtilis is heptacistronic. 902 97
DNA viruses from several families including herpes simplex virus type 1, adenovirus type 5, and simian virus 40 (SV40), start their transcription and replication adjacent to a specific nuclear domain, ND10. We asked whether a specific viral DNA sequence determines the location of these synthetic activities at such restricted nuclear sites. Partial and overlapping SV40 sequences were introduced into a
beta-galactosidase
expression vector, and the
beta-galactosidase
transcripts were localized by in situ hybridization. Transcripts derived from control plasmids were found throughout the nucleus and at highly concentrated sites but not at ND10. SV40 genomic segments supported ND10-associated transcription only when the origin and the coding sequence for the large T antigen were present. When the large T-antigen coding sequence was eliminated but the T antigen was constitutively expressed in COS-7 cells, the viral origin was sufficient to localize transcription and replication to ND10. Deletion analysis showed that only the large T-antigen binding site II (the core origin) was required but the T antigen was needed for detectable transcription at ND10. Large T antigen expressed from plasmids without the viral core origin did not bind or localize to ND10.
Blocking
of DNA replication prevented the accumulation of transcripts at ND10, indicating that only sites with replicating templates accumulated transcripts. Transcription at ND10 did not enhance total protein synthesis of plasmid transcripts. These findings suggest that viral transcription at ND10 may only be a consequence of viral genomes directed to ND10 for replication. Although plasmid transcription can take place anywhere in the nucleus, T-antigen-directed replication is apparently restricted to ND10.
...
PMID:Replication but not transcription of simian virus 40 DNA is dependent on nuclear domain 10. 1100 Feb 41
Caulobacter crescentus chromosome replication is precisely coupled to a developmental cell cycle. Like most eubacteria, C. crescentus has a DnaA homologue that is presumed to initiate chromosome replication. However, the C. crescentus replication origin (Cori) lacks perfect consensus Escherichia coli DnaA boxes. Instead, the Cori strong transcription promoter (Ps) may regulate chromosome replication through the CtrA cell cycle response regulator. We therefore created a conditional dnaA C. crescentus strain.
Blocking
dnaA expression immediately decreased DNA synthesis, which stopped after approximately one doubling period. Fluorescent flow cytometry confirmed that DNA synthesis is blocked at the initiation stage. Cell division also stopped, but not swarmer to stalked cell differentiation. All cells became stalked cells that grew as long filaments. Therefore, general transcription and protein synthesis continued, whereas DNA synthesis stopped. However, transcription was selectively blocked from the flagellar fliQ and fliL and methyltransferase ccrM promoters, which require CtrA and are blocked by different DNA synthesis inhibitors. Interestingly, transcription from Cori Ps continued unaltered. Therefore, Ps transcription is not sufficient for chromosome replication. Approximately 6-8 h after blocked dnaA expression, cells lost viability exponentially. Coincidentally,
beta-galactosidase
was induced from one transcription reporter, suggesting an altered physiology. We conclude that C. crescentus DnaA is essential for chromosome replication initiation, and perhaps also has a wider role in cell homeostasis.
...
PMID:Physiological consequences of blocked Caulobacter crescentus dnaA expression, an essential DNA replication gene. 1130 30
Adenovirus (Ad) gene transfer vectors traffic to regional lymph nodes (RLNs) after footpad injections in mice, resulting in localized production of interferon gamma (IFN-gamma). With this background, we evaluated the hypothesis that Ad vector administration may inhibit RLN tumor metastasis independent of the transgene in the expression cassette. Tumors of MM48, a cell line with a propensity toward lymphogenous metastasis, were established in the footpads of syngeneic C3H mice, and E1(-)E3(-) Ad vectors encoding no transgene (AdNull) or encoding an irrelevant transgene (AdCD; Escherichia coli cytosine deaminase with no 5-fluorocytosine administration) were administered (10(10) particles) in a peritumoral location. Both vectors suppressed the growth of tumor in the regional (popliteal) lymph node. This effect was localized to the regional, but not distant, lymph nodes (p < 0.05). Heat inactivation of the vector or decreasing the dose of the vector to 10(9) particles did not suppress RLN growth of the tumor when compared with 10(10) particles of active AdNull (p < 0.05 and p < 0.01, respectively). The ability of an E1(-)E4(-) vector expressing
beta-galactosidase
(AdRSVbetagal.11) to suppress RLN tumor growth showed that the E4 region of the Ad vector was not responsible for the effect.
Blocking
either IFN-gamma or natural killer (NK) cells with systemic antibody treatment in immunocompetent mice allowed rapid growth of RLN metastases despite Ad vector administration, and Ad vector injection into the footpads of tumor-free mice induced the accumulation of NK cells in the RLN. These data demonstrate that, in a metastatic murine tumor model, a low dose (10(10) particles) of replication-deficient Ad vectors inhibits RLN metastases independent of a therapeutic transgene, an effect that is mediated, at least in part, by IFN-gamma and NK cells.
...
PMID:Adenovirus gene transfer vectors inhibit growth of lymphatic tumor metastases independent of a therapeutic transgene. 1153 67
