Divergent transcriptional and translational signals in Archaea

E Torarinsson; H. P. Klenk; Roger A. Garrett

doi:10.1111/j.1462-2920.2004.00674.x

Divergent transcriptional and translational signals in Archaea

E Torarinsson, H. P. Klenk, Roger A. Garrett

98 Citations (Scopus)

Abstract

Many Archaea, in contrast to bacteria, produce a high proportion of leaderless transcripts, show a wide variation in their consensus Shine-Dalgarno (S-D) sequences and frequently use GUG and UUG start codons. In order to understand the basis for these differences, 18 complete archaeal genomes were examined for sequence signals that are positionally conserved upstream from genes. These functional motifs include box A promoter sequences for leaderless transcripts and S-D sequences for transcripts with leaders. Most of the box A sequences were preceded by a BRE-like motif and followed by a previously undetected A/T peak centred on position -10. Moreover, the sequence of the predominant S-D motifs in an archaeon is shown to depend on the precise number of nucleotides between the conserved anti-S-D CCUCC sequence and the 3'-terminal nucleotide of 16S RNA. Correlations with phylogenetic trees, constructed for the 18 Archaea, reveal that usage of high levels of both S-D motifs, and GUG and UUG start codons occurs exclusively in the shorter branched Archaea. High levels of leaderless transcripts are found in the longer branched Archaea.

Original language	English
Journal	Environmental Microbiology
Volume	7
Issue number	1
Pages (from-to)	47-54
ISSN	1462-2912
DOIs	https://doi.org/10.1111/j.1462-2920.2004.00674.x
Publication status	Published - 2005

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title = "Divergent transcriptional and translational signals in Archaea",

abstract = "Many Archaea, in contrast to bacteria, produce a high proportion of leaderless transcripts, show a wide variation in their consensus Shine-Dalgarno (S-D) sequences and frequently use GUG and UUG start codons. In order to understand the basis for these differences, 18 complete archaeal genomes were examined for sequence signals that are positionally conserved upstream from genes. These functional motifs include box A promoter sequences for leaderless transcripts and S-D sequences for transcripts with leaders. Most of the box A sequences were preceded by a BRE-like motif and followed by a previously undetected A/T peak centred on position -10. Moreover, the sequence of the predominant S-D motifs in an archaeon is shown to depend on the precise number of nucleotides between the conserved anti-S-D CCUCC sequence and the 3'-terminal nucleotide of 16S RNA. Correlations with phylogenetic trees, constructed for the 18 Archaea, reveal that usage of high levels of both S-D motifs, and GUG and UUG start codons occurs exclusively in the shorter branched Archaea. High levels of leaderless transcripts are found in the longer branched Archaea.",

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T1 - Divergent transcriptional and translational signals in Archaea

AU - Torarinsson, E

AU - Klenk, H. P.

AU - Garrett, Roger A.

PY - 2005

Y1 - 2005

N2 - Many Archaea, in contrast to bacteria, produce a high proportion of leaderless transcripts, show a wide variation in their consensus Shine-Dalgarno (S-D) sequences and frequently use GUG and UUG start codons. In order to understand the basis for these differences, 18 complete archaeal genomes were examined for sequence signals that are positionally conserved upstream from genes. These functional motifs include box A promoter sequences for leaderless transcripts and S-D sequences for transcripts with leaders. Most of the box A sequences were preceded by a BRE-like motif and followed by a previously undetected A/T peak centred on position -10. Moreover, the sequence of the predominant S-D motifs in an archaeon is shown to depend on the precise number of nucleotides between the conserved anti-S-D CCUCC sequence and the 3'-terminal nucleotide of 16S RNA. Correlations with phylogenetic trees, constructed for the 18 Archaea, reveal that usage of high levels of both S-D motifs, and GUG and UUG start codons occurs exclusively in the shorter branched Archaea. High levels of leaderless transcripts are found in the longer branched Archaea.

AB - Many Archaea, in contrast to bacteria, produce a high proportion of leaderless transcripts, show a wide variation in their consensus Shine-Dalgarno (S-D) sequences and frequently use GUG and UUG start codons. In order to understand the basis for these differences, 18 complete archaeal genomes were examined for sequence signals that are positionally conserved upstream from genes. These functional motifs include box A promoter sequences for leaderless transcripts and S-D sequences for transcripts with leaders. Most of the box A sequences were preceded by a BRE-like motif and followed by a previously undetected A/T peak centred on position -10. Moreover, the sequence of the predominant S-D motifs in an archaeon is shown to depend on the precise number of nucleotides between the conserved anti-S-D CCUCC sequence and the 3'-terminal nucleotide of 16S RNA. Correlations with phylogenetic trees, constructed for the 18 Archaea, reveal that usage of high levels of both S-D motifs, and GUG and UUG start codons occurs exclusively in the shorter branched Archaea. High levels of leaderless transcripts are found in the longer branched Archaea.

U2 - 10.1111/j.1462-2920.2004.00674.x

DO - 10.1111/j.1462-2920.2004.00674.x

M3 - Journal article

C2 - 15643935

SN - 1462-2912

VL - 7

SP - 47

EP - 54

JO - Environmental Microbiology

JF - Environmental Microbiology

IS - 1

ER -

Divergent transcriptional and translational signals in Archaea

Abstract

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