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Literature DB >> 1177325

The nucleotide sequence of the 5S ribosomal RNA from a photobacterium.

C R Woese, C D Pribula, G E Fox, L B Zablen.

Abstract

Comparative sequencing studies provide powerful insights into molecular function and evolution. The sequence for 5S ribosomal RNA from Photobacter strain 8265 is eighteen base replacements removed from that of Escherichia coli. Of these, the vast majority involve a G or C becoming an A or U. These variations also define unequivocally a hexanucleotide base paired region, which appears to be a universal feature of the 5S RNA molecule. The base composition of this helix seems to be under rather stringent, and so unusual, energetic constraints. The possible implications of this are discussed - in particular the prospect of a 5S RNA molecule that undergoes conformational transitions as a part of the overall state changes that constitute the function of the ribosome.

Entities: Chemical Species

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Year: 1975 PMID： 1177325 DOI： 10.1007/bf01732012

Source DB: PubMed Journal: J Mol Evol ISSN： 0022-2844 Impact factor: 2.395

16 in total

1. The nucleotide sequence of somatic 5 S RNA from Xenopus laevis.

Authors: G G. Brownlee; E Cartwright; T McShane; R Williamson
Journal: FEBS Lett Date: 1972-09-01 Impact factor: 4.124

2. Nucleotide sequence of 5 S RNA from Torulopsis utilis.

Authors: K Nishikawa; S Takemura
Journal: FEBS Lett Date: 1974-03-15 Impact factor: 4.124

3. The use of ribonuclease U2 in RNA sequence determination. Some corrections in the catalog of oligomers produced by ribonuclease T1 digestion of Escherichia coli 16S ribosomal RNA.

Authors: T Uchida; L Bonen; H W Schaup; B J Lewis; L Zablen; C Woese
Journal: J Mol Evol Date: 1974-02-28 Impact factor: 2.395

4. On the constancy of the evolutionary rate of cistrons.

Authors: T Ota; M Kimura
Journal: J Mol Evol Date: 1971 Impact factor: 2.395

5. Selective reaction of glyoxal with guanine residues in native and denatured Escherichia coli 5S RNA.

Authors: M Aubert; G Bellemare; R Monier
Journal: Biochimie Date: 1973 Impact factor: 4.079

6. Improved estimation of secondary structure in ribonucleic acids.

Authors: I Tinoco; P N Borer; B Dengler; M D Levin; O C Uhlenbeck; D M Crothers; J Bralla
Journal: Nat New Biol Date: 1973-11-14

7. Estimation of secondary structure in ribonucleic acids.

Authors: I Tinoco; O C Uhlenbeck; M D Levine
Journal: Nature Date: 1971-04-09 Impact factor: 49.962

8. Derivation of the secondary structure of 5S RNA from its binding of complementary oligonucleotides.

Authors: J B Lewis; P Doty
Journal: Nature Date: 1970-02-07 Impact factor: 49.962

9. A two-dimensional fractionation procedure for radioactive nucleotides.

Authors: F Sanger; G G Brownlee; B G Barrell
Journal: J Mol Biol Date: 1965-09 Impact factor: 5.469

10. Low molecular weight RNA components from KB cells.

Authors: B G Forget; S M Weissman
Journal: Nature Date: 1967-03-04 Impact factor: 49.962

16 in total

1. The architecture of 5S rRNA and its relation to function.

Authors: G E Fox; C R Woese
Journal: J Mol Evol Date: 1975-10-03 Impact factor: 2.395

2. Comparative calorimetric studies on the dynamic conformation of plant 5S rRNA: II. Structural interpretation of the thermal unfolding patterns for lupin seeds and wheat germ.

Authors: T Kuliński; M D Bratek-Wiewiórowska; M Wiewiórowski; A Zielenkiewicz; M Zółkiewski; W Zielenkiewicz
Journal: Nucleic Acids Res Date: 1991-05-11 Impact factor: 16.971

The nucleotide sequence of the 5S ribosomal RNA from a photobacterium.

1. The nucleotide sequence of somatic 5 S RNA from Xenopus laevis.

2. Nucleotide sequence of 5 S RNA from Torulopsis utilis.

3. The use of ribonuclease U2 in RNA sequence determination. Some corrections in the catalog of oligomers produced by ribonuclease T1 digestion of Escherichia coli 16S ribosomal RNA.

4. On the constancy of the evolutionary rate of cistrons.

5. Selective reaction of glyoxal with guanine residues in native and denatured Escherichia coli 5S RNA.

6. Improved estimation of secondary structure in ribonucleic acids.

7. Estimation of secondary structure in ribonucleic acids.

8. Derivation of the secondary structure of 5S RNA from its binding of complementary oligonucleotides.

9. A two-dimensional fractionation procedure for radioactive nucleotides.

10. Low molecular weight RNA components from KB cells.

1. The architecture of 5S rRNA and its relation to function.

2. Comparative calorimetric studies on the dynamic conformation of plant 5S rRNA: II. Structural interpretation of the thermal unfolding patterns for lupin seeds and wheat germ.

Review 3. Collection of published 5S and 5.8S ribosomal RNA sequences.

4. Collection of published 5S, 5.8S and 4.5S ribosomal RNA sequences.

5. Sequence characterization of 5S ribosomal RNA from eight gram positive procaryotes.

Review 6. Collection of published 5S and 5.8S RNA sequences and their precursors.

Review 7. Detailed analysis of the higher-order structure of 16S-like ribosomal ribonucleic acids.

8. Collection of published 5S and 5.8S ribosomal RNA sequences.

9. Collection of published 5S and 5.8S ribosomal RNA sequences.

10. Tryptophan biosynthesis in the marine luminous bacterium Vibrio harveyi.