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叶绿体编码mRNA的翻译:潜在的起始和终止信号。

Translation of chloroplast-encoded mRNA: potential initiation and termination signals.

作者信息

Bonham-Smith P C, Bourque D P

机构信息

Department of Biochemistry, University of Arizona, Tucson 85721.

出版信息

Nucleic Acids Res. 1989 Mar 11;17(5):2057-80. doi: 10.1093/nar/17.5.2057.

DOI:10.1093/nar/17.5.2057
PMID:2928114
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC317542/
Abstract

A survey of 196 protein-coding chloroplast DNA sequences demonstrated the preference for AUG and UAA codons for initiation and termination of translation, respectively. As in prokaryotes at every nucleotide position from -25 to +25 (AUG is +1 to +3) and for 25 nucleotides 5' and 3' to the termination codon an A or U is predominant, except for C at +5 and G at +22. A Shine-Dalgarno (SD) sequence (GGAGG or tri- or tetranucleotide variant) was found within 100 bp 5' to the AUG codon in 92% of the genes. In 40% of these cases, the location of the SD sequence was similar to that of the consensus for prokaryotes (-12 to -7 5' to AUG), presumed to be optimal for translation initiation. A SD sequence could not be located in 6% of the chloroplast sequences. We propose that mRNA secondary structures may be required for the relocation of a distal SD sequences to within the optimal region (-12 to -7) for initiation of translation. We further suggest that termination at UGA codons in chloroplast genes may occur by a mechanism, involving 16S rRNA secondary structure, which has been proposed for UGA termination in E. coli.

摘要

对196个蛋白质编码叶绿体DNA序列的调查表明,翻译起始和终止分别偏好AUG和UAA密码子。与原核生物一样,在从-25到+25的每个核苷酸位置(AUG为+1到+3)以及终止密码子的5'和3'端25个核苷酸处,A或U占主导地位,但+5处为C,+22处为G除外。在92%的基因中,在AUG密码子5'端100 bp范围内发现了Shine-Dalgarno(SD)序列(GGAGG或三核苷酸或四核苷酸变体)。在40%的这些情况下,SD序列的位置与原核生物的共有序列(AUG 5'端-12至-7)相似,推测这对翻译起始是最佳的。在6%的叶绿体序列中未找到SD序列。我们提出,mRNA二级结构可能是将远端SD序列重新定位到翻译起始的最佳区域(-12至-7)所必需的。我们进一步表明,叶绿体基因中UGA密码子的终止可能通过一种机制发生,该机制涉及16S rRNA二级结构,这已被提出用于大肠杆菌中UGA的终止。

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