A surfeit of factors: Why is ribosome assembly so much more complicated in Eukaryotes than bacteria?

Aziz El Hage; David Tollervey

doi:10.4161/rna.1.1.932

A surfeit of factors: Why is ribosome assembly so much more complicated in Eukaryotes than bacteria?

Aziz El Hage, David Tollervey

School of Biological Sciences

Research output: Contribution to journal › Review article › peer-review

Abstract

Recent years have seen a dramatic increase in the number of ribosome synthesis factors identified in the yeast Saccharomyces cerevisiae. Most of these are not predicted to directly catalyze either RNA processing or modification, and they are therefore predicted to function in some sense as assembly factors, promoting the assembly and/or disassembly of the processing and modification machinery, binding of the ribosomal proteins and correct folding of the pre-rRNAs and rRNAs. In contrast, ribosome synthesis in E. coli, which has also been extensively analyzed, appears to involve a very small number of potential assembly factors. Here we will consider the differences between eukaryotic and bacterial ribosome synthesis that may underlie this distinction.

Original language	English
Pages (from-to)	9-14
Number of pages	6
Journal	Rna biology
Volume	1
Issue number	1
DOIs	https://doi.org/10.4161/rna.1.1.932
Publication status	Published - 23 Mar 2004

Keywords

nucleolus
ribosome
yeast
E. coli
RNA processing
RNA-protein interactions
evolution

Access to Document

10.4161/rna.1.1.932

El Hage_Tollervey_RNABIOL_2004Final published version, 683 KB

Cite this

@article{4fccec805fc04334b5a3be8114f5ff39,

title = "A surfeit of factors: Why is ribosome assembly so much more complicated in Eukaryotes than bacteria?",

abstract = "Recent years have seen a dramatic increase in the number of ribosome synthesis factors identified in the yeast Saccharomyces cerevisiae. Most of these are not predicted to directly catalyze either RNA processing or modification, and they are therefore predicted to function in some sense as assembly factors, promoting the assembly and/or disassembly of the processing and modification machinery, binding of the ribosomal proteins and correct folding of the pre-rRNAs and rRNAs. In contrast, ribosome synthesis in E. coli, which has also been extensively analyzed, appears to involve a very small number of potential assembly factors. Here we will consider the differences between eukaryotic and bacterial ribosome synthesis that may underlie this distinction.",

keywords = "nucleolus, ribosome, yeast, E. coli, RNA processing, RNA-protein interactions, evolution",

author = "{El Hage}, Aziz and David Tollervey",

year = "2004",

month = mar,

day = "23",

doi = "10.4161/rna.1.1.932",

language = "English",

volume = "1",

pages = "9--14",

journal = "Rna biology",

issn = "1547-6286",

publisher = "Landes Bioscience",

number = "1",

}

TY - JOUR

T1 - A surfeit of factors

T2 - Why is ribosome assembly so much more complicated in Eukaryotes than bacteria?

AU - El Hage, Aziz

AU - Tollervey, David

PY - 2004/3/23

Y1 - 2004/3/23

N2 - Recent years have seen a dramatic increase in the number of ribosome synthesis factors identified in the yeast Saccharomyces cerevisiae. Most of these are not predicted to directly catalyze either RNA processing or modification, and they are therefore predicted to function in some sense as assembly factors, promoting the assembly and/or disassembly of the processing and modification machinery, binding of the ribosomal proteins and correct folding of the pre-rRNAs and rRNAs. In contrast, ribosome synthesis in E. coli, which has also been extensively analyzed, appears to involve a very small number of potential assembly factors. Here we will consider the differences between eukaryotic and bacterial ribosome synthesis that may underlie this distinction.

AB - Recent years have seen a dramatic increase in the number of ribosome synthesis factors identified in the yeast Saccharomyces cerevisiae. Most of these are not predicted to directly catalyze either RNA processing or modification, and they are therefore predicted to function in some sense as assembly factors, promoting the assembly and/or disassembly of the processing and modification machinery, binding of the ribosomal proteins and correct folding of the pre-rRNAs and rRNAs. In contrast, ribosome synthesis in E. coli, which has also been extensively analyzed, appears to involve a very small number of potential assembly factors. Here we will consider the differences between eukaryotic and bacterial ribosome synthesis that may underlie this distinction.

KW - nucleolus

KW - ribosome

KW - yeast

KW - E. coli

KW - RNA processing

KW - RNA-protein interactions

KW - evolution

U2 - 10.4161/rna.1.1.932

DO - 10.4161/rna.1.1.932

M3 - Review article

VL - 1

SP - 9

EP - 14

JO - Rna biology

JF - Rna biology

SN - 1547-6286

IS - 1

ER -

A surfeit of factors: Why is ribosome assembly so much more complicated in Eukaryotes than bacteria?

Abstract

Keywords

Access to Document

Fingerprint

Cite this