Plastome evolution in Santalales involves relaxed selection prior to loss of ndh genes and major boundary shifts of the inverted repeat.

IF 3.6 2区 生物学 Q1 PLANT SCIENCES Annals of botany Pub Date : 2024-08-30 DOI:10.1093/aob/mcae145
Maja Edlund, Benjamin M Anderson, Huei-Jiun Su, Tanner Robison, Marcos A Caraballo-Ortiz, Joshua P Der, Daniel L Nickrent, Gitte Petersen
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Abstract

Background and aims: Biological aspects of haustorial parasitism have significant effects on the configuration of the plastid genome. Approximately half the diversity of haustorial parasites belongs to the order Santalales, where a clearer picture of plastome evolution in relation to parasitism is starting to emerge. However, in previous studies of plastome evolution there is still a notable under-representation of members from non-parasitic and deep-branching hemiparasitic lineages, limiting evolutionary inference around the time of transition to a parasitic lifestyle. To expand taxon sampling relevant to this transition we therefore targeted three families of non-parasites (Erythropalaceae, Strombosiaceae, and Coulaceae), two families of root-feeding hemiparasites (Ximeniaceae and Olacaceae), and two families of uncertain parasitic status (Aptandraceae and Octoknemaceae). With data from these lineages we aimed to explore plastome evolution in relation to evolution of parasitism.

Methods: From 29 new samples we sequenced and annotated plastomes and the nuclear ribosomal cistron. We examined phylogenetic patterns, plastome evolution, and patterns of relaxed or intensified selection in plastid genes. Available transcriptome data were analyzed to investigate potential transfer of infA to the nuclear genome.

Results: Phylogenetic relationships indicate a single functional loss of all plastid ndh genes (ndhA-K) in a clade formed by confirmed parasites and Aptandraceae, and the loss coincides with major size and boundary shifts of the inverted repeat (IR) region. Depending on an autotrophic or heterotrophic lifestyle in Aptandraceae, plastome changes are either correlated with or predate evolution of parasitism. Phylogenetic patterns also indicate repeated loss of infA from the plastome, and based on presence of transcribed sequences with presequences corresponding to thylakoid luminal transit peptides, we infer that the genes were transferred to the nuclear genome.

Conclusions: Except for the loss of the ndh complex, relatively few genes have been lost from the plastome in deep-branching root parasites in Santalales. Prior to loss of the ndh genes, they show signs of relaxed selection indicative of their dispensability. To firmly establish a potential correlation between ndh gene loss, plastome instability and evolution of parasitism, it is pertinent to refute or confirm a parasitic lifestyle all Santalales clades.

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山竹科植物体的进化涉及ndh基因缺失前的宽松选择和倒转重复的重大边界转移。
背景和目的:寄生虫的生物学特性对质体基因组的构型有重大影响。寄生虫的多样性约有一半属于山竹目,在该目中,与寄生有关的质体进化的清晰图景已开始出现。然而,在以往的质粒体进化研究中,非寄生和深枝半寄生系成员的代表性仍然明显不足,从而限制了对过渡到寄生生活方式前后的进化推断。因此,为了扩大与这一过渡相关的分类群取样范围,我们将目标锁定在三个非寄生植物科(红花草科、石龙子科和胭脂虫科)、两个根食半寄生植物科(西门庆科和油桐科)以及两个寄生地位不确定的科(万寿菊科和八角金花科)。我们的目的是利用这些品系的数据探索质体进化与寄生进化的关系:方法:我们对 29 个新样本的质体和核核糖体进行了测序和注释。我们研究了系统发育模式、质体的进化以及质体基因的松弛或强化选择模式。我们分析了现有的转录组数据,以研究 infA 向核基因组转移的可能性:系统发育关系表明,在证实的寄生虫和七鳃鳗科(Aptandraceae)形成的支系中,所有质体ndh基因(ndhA-K)都出现了单一功能缺失,而且这种缺失与倒位重复(IR)区域的主要大小和边界移动相吻合。根据 Aptandraceae 的自养或异养生活方式,质体的变化要么与寄生进化相关,要么早于寄生进化。系统发育模式还表明,infA 从质体中反复丢失,根据转录序列中存在与类囊体腔内转运肽相对应的前序,我们推断这些基因被转移到了核基因组中:结论:除了ndh复合体的丢失外,山竹根深枝寄生虫质体中丢失的基因相对较少。在ndh基因丢失之前,这些基因显示出松弛选择的迹象,表明它们是可有可无的。为了牢固确立ndh基因丢失、质体不稳定性和寄生进化之间的潜在相关性,有必要驳斥或证实所有山茶科植物的寄生生活方式。
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来源期刊
Annals of botany
Annals of botany 生物-植物科学
CiteScore
7.90
自引率
4.80%
发文量
138
审稿时长
3 months
期刊介绍: Annals of Botany is an international plant science journal publishing novel and rigorous research in all areas of plant science. It is published monthly in both electronic and printed forms with at least two extra issues each year that focus on a particular theme in plant biology. The Journal is managed by the Annals of Botany Company, a not-for-profit educational charity established to promote plant science worldwide. The Journal publishes original research papers, invited and submitted review articles, ''Research in Context'' expanding on original work, ''Botanical Briefings'' as short overviews of important topics, and ''Viewpoints'' giving opinions. All papers in each issue are summarized briefly in Content Snapshots , there are topical news items in the Plant Cuttings section and Book Reviews . A rigorous review process ensures that readers are exposed to genuine and novel advances across a wide spectrum of botanical knowledge. All papers aim to advance knowledge and make a difference to our understanding of plant science.
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