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Literature DB >> 2397659

Electron microscopic study of yeast RNA polymerase A: analysis of single molecular images.

P Schultz¹, P Nobelis, P Colin, M Louys, J Huet, A Sentenac, P Oudet.

Abstract

The structural features of the yeast DNA-dependent RNA polymerase A (I) were examined by Scanning Transmission Electron Microscopy. The enzyme was absorbed in its monomeric form and negatively stained prior to digital image acquisition at low dose. The signal to noise ratio of single particle images was improved through averaging of a large number of previously aligned and partitioned images. Six classes of images were obtained reproducibly which corresponded to different projections of the enzyme. The enzyme structure was characterized by its presence of two curved arms which defined a longitudinal cleft. By analogy with the Escherichia coli enzyme, these arms could correspond to the two large subunits A135 and A190.

Entities: Disease Species

Mesh：

Substances：
RNA Polymerase I

Year: 1990 PMID： 2397659 DOI： 10.1007/bf01731130

Source DB: PubMed Journal: Chromosoma ISSN： 0009-5915 Impact factor: 4.316

31 in total

1. Direct localization of the tRNA--anticodon interaction site on the Escherichia coli 30 S ribosomal subunit by electron microscopy and computerized image averaging.

Authors: T Wagenknecht; J Frank; M Boublik; K Nurse; J Ofengand
Journal: J Mol Biol Date: 1988-10-05 Impact factor: 5.469

2. RNA polymerases B and C are more closely related to each other than to RNA polymerase A.

Authors: S Mémet; W Saurin; A Sentenac
Journal: J Biol Chem Date: 1988-07-25 Impact factor: 5.157

3. Multivariate statistical analysis of ribosome electron micrographs. L and R lateral views of the 40 S subunit from HeLa cells.

Authors: J Frank; A Verschoor; M Boublik
Journal: J Mol Biol Date: 1982-10-15 Impact factor: 5.469

4. The quaternary structure of Escherichia coli RNA polymerase studied with (scanning) transmission (immuno)electron microscopy.

Authors: W Tichelaar; W G Schutter; A C Arnberg; E F van Bruggen; W Stender
Journal: Eur J Biochem Date: 1983-09-15

5. Structure of yeast RNA polymerases determined by electron microscopy.

Authors: P Bull; J Garrido
Journal: Arch Biochem Biophys Date: 1982-11 Impact factor: 4.013

6. The subunit positions within RNA polymerase holoenzyme determined by triangulation of centre-to-centre distances.

Authors: P Stöckel; R May; I Strell; Z Cejka; W Hoppe; H Heumann; W Zillig; H L Crespi
Journal: Eur J Biochem Date: 1980-11

7. Eukaryotic RNA polymerase I promoter binding is directed by protein contacts with transcription initiation factor and is DNA sequence-independent.

Authors: P Kownin; E Bateman; M R Paule
Journal: Cell Date: 1987-08-28 Impact factor: 41.582

8. Subunit topography of RNA polymerase from Escherichia coli. A cross-linking study with bifunctional reagents.

Authors: Z Hillel; C W Wu
Journal: Biochemistry Date: 1977-07-26 Impact factor: 3.162

9. Extranuclear gene expression in yeast: evidence for a plasmid-encoded RNA polymerase of unique structure.

Authors: D W Wilson; P A Meacock
Journal: Nucleic Acids Res Date: 1988-08-25 Impact factor: 16.971

10. Studies of the functional topography of Escherichia coli RNA polymerase. A method for localization of the sites of affinity labelling.

Authors: M A Grachev; E A Lukhtanov; A A Mustaev; E F Zaychikov; M N Abdukayumov; I V Rabinov; V I Richter; Y S Skoblov; P G Chistyakov
Journal: Eur J Biochem Date: 1989-04-01

3 in total