Jay E. Brock scite author profile

Jay E. Brock

2Publications

92Citation Statements Received

107Citation Statements Given

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Miami University, Pearson (United States)

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Ribosomes bind leaderless mRNA in Escherichia coli through recognition of their 5′-terminal AUG

Brock

Pourshahian²,

Giliberti³

et al. 2008

RNA

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Leaderless mRNAs are translated in the absence of upstream signals that normally contribute to ribosome binding and translation efficiency. In order to identify ribosomal components that interact with leaderless mRNA, a fragment of leaderless cI mRNA from bacteriophage l, with a 4-thiouridine (4 S -U) substituted at the +2 position of the AUG start codon, was used to form cross-links to Escherichia coli ribosomes during binary (mRNA+ribosome) and ternary (mRNA+ribosome+initiator tRNA) complex formation. Ribosome binding assays (i.e., toeprints) demonstrated tRNA-dependent binding of leaderless mRNA to ribosomes; however, cross-links between the start codon and 30S subunit rRNA and r-proteins formed independent of initiator tRNA. Toeprints revealed that a leaderless mRNA's 59-AUG is required for stable binding. Furthermore, the addition of a 59-terminal AUG triplet to a random RNA fragment can make it both competent and competitive for ribosome binding, suggesting that a leaderless mRNA's start codon is a major feature for ribosome interaction. Cross-linking assays indicate that a subset of 30S subunit r-proteins, located at either end of the mRNA tunnel, contribute to tRNA-independent contacts and/or interactions with a leaderless mRNA's start codon. The interaction of leaderless mRNA with ribosomes may reveal features of mRNA binding and AUG recognition that are distinct from known signals but are important for translation initiation of all mRNAs.

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Naturally Occurring Adenines within mRNA Coding Sequences Affect Ribosome Binding and Expression in Escherichia coli

et al. 2007

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Translation initiation requires the precise positioning of a ribosome at the start codon. The major signals of bacterial mRNA that direct the ribosome to a translational start site are the Shine-Dalgarno (SD) sequence within the untranslated leader and the start codon. Evidence for the presence of many non-SD-led genes in prokaryotes provides a motive for studying additional interactions between ribosomes and mRNA that contribute to translation initiation. A high incidence of adenines has been reported downstream of the start codon for many Escherichia coli genes, and addition of downstream adenine-rich sequences increases expression from several genes in E. coli. Here we describe site-directed mutagenesis of the E. coli aroL, pncB, and cysJ coding sequences that was used to assess the contribution of naturally occurring adenines to in vivo expression and in vitro ribosome binding from mRNAs with different SD-containing untranslated leaders. Base substitutions that decreased the downstream adenines by one or two nucleotides decreased expression significantly from aroL-, pncB-, and cysJ-lacZ fusions; mutations that increased downstream adenines by one or two nucleotides increased expression significantly from aroL-and cysJ-lacZ fusions. Using primer extension inhibition (toeprint) and filter binding assays to measure ribosome binding, the changes in in vivo expression correlated closely with changes in in vitro ribosome binding strength. Our data are consistent with a model in which downstream adenines influence expression through their effects on the mRNA-ribosome association rate and the amount of ternary complex formed. This work provides evidence that adenine-rich sequence motifs might serve as a general enhancer of E. coli translation.

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Jay E. Brock

Ribosomes bind leaderless mRNA in Escherichia coli through recognition of their 5′-terminal AUG

Naturally Occurring Adenines within mRNA Coding Sequences Affect Ribosome Binding and Expression in Escherichia coli

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