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Target Concepts:
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Query: EC:3.1.26.9 (
ribonuclease
)
6,589
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It is generally assumed that the machinery that transcribes genes is composed entirely of polypeptides. However, in vitro transcription by silkworm RNA polymerase III requires a transcription factor that is not a polypeptide. This component, TFIIIR, is distinct from the previously identified transcription components: RNA polymerase III, and the accessory factors
TFIIIA
, TFIIIB, TFIIIC, and TFIIID. The newly discovered TFIIIR is a macromolecule that appears to be composed of RNA. It is resistant to heat, detergent, phenol, protease, and deoxyribonuclease, but it is sensitive to alkali and
ribonuclease
.
...
PMID:A class III transcription factor composed of RNA. 170 25
In small oocytes of Xenopus species, two sets of 5S RNA genes, oocyte-type and somatic-type, are fully activated. The 5S RNA transcripts are temporarily stored, half in association with
TFIIIA
to form a 7S particle, the other half in association with tRNA and two proteins (p48 and p43) to form a 42S particle. It has been established previously that
TFIIIA
binds to the internal control region of 5S RNA genes and promotes their transcription. Here we show that protein can be translocated from the 42S particles to 5S RNA genes, but only after treatment of the particles with
ribonuclease
. Nevertheless, once transferred, stable protein-DNA complexes are formed and DNase-protection experiments show that binding is specific to the gene promoter, covering exactly the same sequence as
TFIIIA
. The DNA-binding protein is identified as p48 which, after isolation by ion-exchange chromatography, will bind to 5S RNA genes in the absence of
ribonuclease
.
...
PMID:An alternative protein factor which binds the internal promoter of Xenopus 5S ribosomal RNA genes. 368 70
The 5S RNA complexed in the 7S particle of immature Xenopus laevis oocytes was 32P labeled at its 3' end and then subjected in situ to partial digestion using ribonucleases T1, T2, A, and V1 in order to study the conformation of the complexed RNA and its interaction with the transcription factor A (
TFIIIA
). Digested samples were gel purified to retrieve 5S RNA that was still complexed with the transcription factor protein, and the cleavages in these RNAs were analyzed on sequencing gels. The RNA associated with the 7S particle is very susceptible to
ribonuclease
activity despite the presence of the protein. Also, the 5S RNA in the 7S particle is in a different conformation from renatured Xenopus laevis (Xlo) 5S RNA and appears to have less secondary structure predominantly in the stem that includes helices IV and V. A species of native Xlo 5S RNA which was isolated from 7S particle preparations under nondenaturing conditions revealed a conformation that was more similar to the 5S RNA in the 7S particle than to renatured 5S RNA. Comparison of data from partial
ribonuclease
digestions performed on renatured 5S RNA, on the native 5S RNA, and on the complexed 5S RNA allowed us to approximate sites of protein-induced structural change in the complexed 5S RNA, which may signal protein interaction domains. These sites include the 5' side of helices III and V. In another approach to the study of 5S RNA-
TFIIIA
interactions, we have observed that incubation of 32P-labeled Xlo 5S RNA with 7S particles results in the incorporation of labeled RNA into 7S particles.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:5S RNA structure and interaction with transcription factor A. 2. Ribonuclease probe of the 7S particle from Xenopus laevis immature oocytes and RNA exchange properties of the 7S particle. 608 16
Zinc fingers 4 to 7 of Xenopus
transcription factor IIIA
(
TFIIIA
) represent the minimal polypeptide necessary for high-affinity binding to 5 S RNA. Mutations covering the entire 5 S RNA structure have been compared for their effects on the binding affinity of full-length
TFIIIA
and a polypeptide consisting of fingers 4 to 7 of
TFIIIA
(zf4-7). In addition,
ribonuclease
footprinting was used to compare the binding sites of
TFIIIA
and zf4-7 on 5 S RNA. The consistency between the data obtained from these two approaches provided a clear indication that zinc fingers 4 to 7 of
TFIIIA
bind to a central core region on the 5 S RNA molecule consisting of loop B/helix II/loop A/helix V/region E. This information was used to design a truncated 75-nucleotide-long RNA molecule that retains high affinity for zf4-7. Therefore, we conclude that the specific interaction of
TFIIIA
with 5 S RNA can be represented by a complex formed between a four zinc finger polypeptide and a truncated 5 S RNA molecule.
...
PMID:Interaction of the RNA binding fingers of Xenopus transcription factor IIIA with specific regions of 5 S ribosomal RNA. 773 Oct 45
Rat Zn-15 is a transcription factor activating GH gene expression by synergistic interactions with Pit-1, named for 15 DNA-binding zinc fingers, including fingers IX, X, and XI that are responsible for GH promoter binding. In this study, a mouse cDNA for Zn-15 was characterized. The predicted 2192-amino acid mouse protein is 89% identical to rat (r) Zn-15 overall, and is 97% similar in the C-terminal domain necessary for binding the GH promoter. However, the mouse cDNA encodes 16 zinc fingers, and sequences of rZn-15 pituitary cDNAs were the same as the mouse (m) Zn-16; the rat sequence in GenBank has a one nucleotide offset of a 17-bp segment in the finger V region. The mouse and corrected rat sequences contain four tandemly repeated fingers in the N-terminus, each separated by seven amino acids, typical of zinc finger proteins of the
transcription factor IIIA
-type. Analysis of mZn-16 expression by RT-PCR showed that the mRNA is, produced at similar levels in normal and GH-deficient Ames dwarf (Prop-1 <df-/->) mouse pituitaries at postnatal day 1. Mouse Zn-16 mRNA also was detected by
ribonuclease
protection assay in the pre-somatotrophic mouse cell line GHFT1-5. The Zn-16 protein is bipartite in that the N-terminal half displays tandem spacing typical of most zinc finger proteins, while the C-terminal portion contains long linkers between fingers that cooperatively bind to a DNA response element. Expression in early postnatal pituitary and in pre-somatotrophic cells suggests that Zn-16 could play a role in pituitary development prior to somatotroph differentiation.
...
PMID:Mouse growth hormone transcription factor Zn-16: unique bipartite structure containing tandemly repeated zinc finger domains not reported in rat Zn-15. 1068 55
