Gene/Protein
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Active protein synthesis during early oogenesis requires accelerated transcription of ribosomal RNA genes (rDNAs). In response to this demand, rDNAs are amplified more than 1000-fold early in Xenopus oogenesis. Here, we report evidence that rDNA is not amplified in mouse oocytes, but these cells may instead employ the zinc-finger protein
basonuclin
, a putative rDNA transcription factor, to enhance rRNA synthesis. This conclusion is based on observations that
basonuclin
is localized in the nucleolus in the mouse oocyte early in its growth phase, when rRNA transcription is highly active; and that the binding sites of
basonuclin
zinc fingers on the human and mouse rDNA promoters are homologous. In a co-transfection assay,
basonuclin
can elevate transcription from an rDNA promoter, and its zinc-finger domain can inhibit
RNA polymerase I
transcription, as detected by a run-on assay, in growing mouse oocytes.
...
PMID:Function of basonuclin in increasing transcription of the ribosomal RNA genes during mouse oogenesis. 1115 39
Basonuclin is a zinc-finger protein found in abundance in oocytes. It qualifies as a maternal-effect gene because the source of pre-implantation embryonic
basonuclin
is maternal. Using a transgenic-RNAi approach, we knocked down
basonuclin
specifically in mouse oocytes, which led to female sub-fertility. Basonuclin deficiency in oocytes perturbed both
RNA polymerase I
- and II-mediated transcription, and oocyte morphology was affected (as evidenced by cytoplasmic and cell surface abnormalities). Some of the affected oocytes, however, could still mature to and arrest at metaphase II, and be ovulated. Nevertheless, fertilized
basonuclin
-deficient eggs failed to develop beyond the two-cell stage, and this pre-implantation failure accounted for the sub-fertility phenotype. These results suggest that
basonuclin
is a new member of the mammalian maternal-effect genes and, interestingly, differs from the previously reported mammalian maternal-effect genes in that it also apparently perturbs oogenesis.
...
PMID:Basonuclin: a novel mammalian maternal-effect gene. 1662 57
Basonuclin (Bnc 1) is a transcription factor that has an unusual ability to interact with promoters of both RNA polymerases I and II. The action of
basonuclin
is mediated through three pairs of evolutionarily conserved zinc fingers, which produce three DNase I footprints on the promoters of rDNA and the
basonuclin
gene. Using these DNase footprints, we built a computational model for the
basonuclin
DNA-binding module, which was used to identify in silico potential
RNA polymerase II
target genes in the human and mouse promoter databases. The target genes of
basonuclin
show that it regulates the expression of proteins involved in chromatin structure, transcription/DNA-binding, ion-channels, adhesion/cell-cell junction, signal transduction, and intracellular transport. Our results suggest that
basonuclin
, like MYC, may coordinate transcriptional activities among the three RNA polymerases. But
basonuclin
regulates a distinctive set of pathways, which differ from that regulated by MYC.
...
PMID:Search for basonuclin target genes. 1691 36
Basonuclin (Bnc1), a cell-type-specific ribosomal RNA (rRNA) gene regulator, is expressed mainly in keratinocytes of stratified epithelium and gametogenic cells of testis and ovary. Previously,
basonuclin
was shown in vitro to interact with rRNA gene (rDNA) promoter at three highly conserved sites. Basonuclin's high affinity binding site overlaps with the binding site of a dedicated and ubiquitous Pol I transcription regulator, UBF, suggesting that their binding might interfere with each other if they bind to the same promoter. Knocking-down
basonuclin
in mouse oocytes eliminated approximately one quarter of
RNA polymerase I
(Pol I) transcription foci, without affecting the BrU incorporation of the remaining ones, suggesting that
basonuclin
might regulate a subset of rDNA. Here we show, via chromatin immunoprecipitation (ChIP), that
basonuclin
is associated with rDNA promoters in HaCaT cells, a spontaneously established human keratinocyte line. Immunoprecipitation data suggest that
basonuclin
is in a complex that also contains the subunits of Pol I (RPA194, RPA116), but not UBF. Knocking-down
basonuclin
in HaCaT cells partially impairs the association of RPA194 to rDNA promoter, but not that of UBF. Basonuclin-deficiency also reduces the amount of 47S pre-rRNA, but this effect can be seen only after cell-proliferation related rRNA synthesis has subsided at a higher cell density. DNA sequence of
basonuclin
-bound rDNA promoters shows single nucleotide polymorphisms (SNPs) that differ from those associated with UBF-bound promoters, suggesting that
basonuclin
and UBF interact with different subsets of promoters. In conclusion, our results demonstrate
basonuclin
's functional association with rDNA promoters and its interaction with Pol I in vivo. Our data also suggest that
basonuclin
-Pol I complex transcribes a subset of rDNA.
...
PMID:Basonuclin regulates a subset of ribosomal RNA genes in HaCaT cells. 1787 37
At least two cellular processes are required for corneal epithelium homeostasis and wound repair: cell proliferation and cell-cell adhesion. These processes are delicately balanced to ensure the maintenance of normal epithelial function. During wound healing, these processes must be reprogrammed in coordination to achieve a rapid re-epithelialization. Basonuclin (Bnc1) is a cell-type-specific transcription factor expressed mainly in the proliferative keratinocytes of stratified epithelium (e.g., corneal epithelium, epidermis and esophageal epithelium) and the gametogenic cells in testis and ovary. Our previous work suggested that
basonuclin
could regulate transcription of ribosomal RNA genes (rDNA) and genes involved in chromatin structure, transcription regulation, cell-cell junction/communication, ion-channels and intracelllular transportation. However,
basonuclin
's role in keratinocytes has not been demonstrated in vivo. Here we show that
basonuclin
-null mutation disrupts corneal epithelium homeostasis and delays wound healing by impairing cell proliferation. In
basonuclin
-null cornea epithelium,
RNA polymerase I
(Pol I) transcription is perturbed. This perturbation is unique because it affects transcripts from a subset of rDNA. Basonuclin-null mutation also perturbs
RNA polymerase II
(Pol II) transcripts from genes encoding chromatin structure proteins histone 3 and HMG2, transcription factor Gli2, gap-junction protein connexin 43 and adheren E-cadherin. In most cases, a concerted change in mRNA and protein level is observed. However, for E-cadherin, despite a notable increase in its mRNA level, its protein level was reduced. In conclusion, our study establishes
basonuclin
as a regulator of corneal epithelium homeostasis and maintenance. Basonuclin likely coordinates functions of a subset of ribosomal RNA genes (rDNA) and a group of protein coding genes in cellular processes critical for the regulation of cell proliferation.
...
PMID:Basonuclin-null mutation impairs homeostasis and wound repair in mouse corneal epithelium. 1797 52
