寄生植物的速率变异：不同功能质体基因间的相关与非相关模式

Rate variation in parasitic plants: correlated and uncorrelated patterns among plastid genes of different function.

作者信息

Young Nelson D, dePamphilis Claude W

机构信息

Department of Biomedical Sciences, Tufts University School of Veterinary Medicine, 200 Westboro Road, North Grafton, MA 01536, USA.

出版信息

BMC Evol Biol. 2005 Feb 15;5:16. doi: 10.1186/1471-2148-5-16.

DOI:10.1186/1471-2148-5-16

PMID:15713237

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC554776/

Abstract

BACKGROUND

The analysis of synonymous and nonsynonymous rates of DNA change can help in the choice among competing explanations for rate variation, such as differences in constraint, mutation rate, or the strength of genetic drift. Nonphotosynthetic plants of the Orobanchaceae have increased rates of DNA change. In this study 38 taxa of Orobanchaceae and relatives were used and 3 plastid genes were sequenced for each taxon.

RESULTS

Phylogenetic reconstructions of relative rates of sequence evolution for three plastid genes (rbcL, matK and rps2) show significant rate heterogeneity among lineages and among genes. Many of the non-photosynthetic plants have increases in both synonymous and nonsynonymous rates, indicating that both (1) selection is relaxed, and (2) there has been a change in the rate at which mutations are entering the population in these species. However, rate increases are not always immediate upon loss of photosynthesis. Overall there is a poor correlation of synonymous and nonsynonymous rates. There is, however, a strong correlation of synonymous rates across the 3 genes studied and the lineage-speccific pattern for each gene is strikingly similar. This indicates that the causes of synonymous rate variation are affecting the whole plastid genome in a similar way. There is a weaker correlation across genes for nonsynonymous rates. Here the picture is more complex, as could be expected if there are many causes of variation, differing from taxon to taxon and gene to gene.

CONCLUSIONS

The distinctive pattern of rate increases in Orobanchaceae has at least two causes. It is clear that there is a relaxation of constraint in many (though not all) non-photosynthetic lineages. However, there is also some force affecting synonymous sites as well. At this point, it is not possible to tell whether it is generation time, speciation rate, mutation rate, DNA repair efficiency or some combination of these factors.

摘要

背景

对DNA变化的同义替换率和非同义替换率进行分析，有助于在关于速率变化的多种相互竞争的解释中做出选择，比如在选择压力、突变率或遗传漂变强度方面的差异。列当科的非光合植物具有更高的DNA变化速率。在本研究中，使用了38个列当科及其近缘类群的分类单元，并对每个分类单元的3个质体基因进行了测序。

结果

对三个质体基因（rbcL、matK和rps2）序列进化相对速率的系统发育重建显示，各谱系间以及各基因间存在显著的速率异质性。许多非光合植物的同义替换率和非同义替换率均有所增加，这表明（1）选择压力有所放松，并且（2）这些物种中突变进入种群的速率发生了变化。然而，光合作用丧失后速率增加并非总是立即发生。总体而言，同义替换率和非同义替换率之间的相关性较差。不过，在所研究的3个基因中，同义替换率之间存在很强的相关性，并且每个基因的谱系特异性模式非常相似。这表明同义替换率变化的原因以相似的方式影响着整个质体基因组。非同义替换率在各基因间的相关性较弱。这里的情况更为复杂，正如如果存在许多不同的变异原因，且因分类单元和基因而异时所预期的那样。

结论

列当科独特的速率增加模式至少有两个原因。很明显，在许多（尽管不是所有）非光合谱系中选择压力有所放松。然而，也有某种力量同样影响着同义位点。目前，尚无法确定是世代时间、物种形成速率、突变率、DNA修复效率还是这些因素的某种组合。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7dc2/554776/5d170c57dbf5/1471-2148-5-16-1.jpg

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寄生植物的速率变异：不同功能质体基因间的相关与非相关模式

Rate variation in parasitic plants: correlated and uncorrelated patterns among plastid genes of different function.

作者信息

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出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

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