Potential of Transcript Editing Across Mitogenomes of Early Land Plants Shows Novel and Familiar Trends

Myszczyński, Kamil; Ślipiko, Monika; Sawicki, Jakub

doi:10.3390/ijms20122963

Cited by 12 publications

(11 citation statements)

References 73 publications

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“…The recent phylogenetic studies revealed the lower genetic diversity of Marchantiidae plastomes in comparison to evolutionarily younger Jungermannidae [9,12], but the reasons of slower evolution of the formers are not known. The lack or low level of RNA editing in comparison to other liverworts is another characteristic feature of Marchantiidae [19,20].…”

Section: Introductionmentioning

confidence: 99%

The Increase of Simple Sequence Repeats during Diversification of Marchantiidae, An Early Land Plant Lineage, Leads to the First Known Expansion of Inverted Repeats in the Evolutionarily-Stable Structure of Liverwort Plastomes

Sawicki

Bączkiewicz

Buczkowska

et al. 2020

Genes

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The chloroplast genomes of liverworts, an early land plant lineage, exhibit stable structure and gene content, however the known resources are very limited. The newly sequenced plastomes of Conocephalum, Riccia and Sphaerocarpos species revealed an increase of simple sequence repeats during the diversification of complex thalloid liverwort lineage. The presence of long TA motifs forced applying the long-read nanopore sequencing method for proper and dependable plastome assembly, since the length of dinucleotide repeats overcome the length of Illumina short reads. The accumulation of SSRs (simple sequence repeats) enabled the expansion of inverted repeats by the incorporation of rps12 and rps7 genes, which were part of large single copy (LSC) regions in the previously sequenced plastomes. The expansion of inverted repeat (IR) at the genus level is reported for the first time for non-flowering plants. Moreover, comparative analyses with remaining liverwort lineages revealed that the presence of SSR in plastomes is specific for simple thalloid species. Phylogenomic analysis resulted in trees confirming monophyly of Marchantiidae and partially congruent with previous studies, due to dataset-dependent results of Dumortiera-Reboulia relationships. Despite the lower evolutionary rate of Marchantiales plastomes, significant barcoding gap was detected, even for recently divergent holarctic Conocephalum species. The sliding window analyses revealed the presence of 18 optimal (500 bp long) barcodes that enable the molecular identification of all studied species.

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Section: Introductionmentioning

confidence: 99%

The Increase of Simple Sequence Repeats during Diversification of Marchantiidae, An Early Land Plant Lineage, Leads to the First Known Expansion of Inverted Repeats in the Evolutionarily-Stable Structure of Liverwort Plastomes

Sawicki

Bączkiewicz

Buczkowska

et al. 2020

Genes

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“…In order to investigate its organellar genome sequences, its chloroplast genome was sequenced previously (Kwon, Min, Xi, et al 2019). In addition, the mitochondrial genome of R. fluitans was also uncovered to understand RNA editing events on mitochondrial genomes of early land plants (Myszczy nski et al 2019). To understand intraspecific variations of mitochondrial genome of R. fluitans, we completed its mitochondrial genome sequences.…”

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confidence: 99%

“…Geneious R11 11.0.5 (Biomatters Ltd, Auckland, New Zealand) was used for annotation based on R. fluitans mitochondrial genome (NC_043906; Myszczyński et al. 2019 ).…”

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confidence: 99%

The complete mitochondrial genome of Riccia fluitans L. (Ricciaceae, Marchantiophyta): investigation of intraspecific variations on mitochondrial genomes of R. fluitans

Min¹,

Kwon²,

Xi³

et al. 2020

Mitochondrial DNA Part B

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Riccia fluitans L. is the most common species in Riccia genus. To investigate intraspecific variations on mitochondrial genomes of R. fluitans, we completed mitochondrial genome of R. fluitans. Its length is 185,640 bp, longer than that of NC_043906 by 19 bp and it contains 74 genes (42 protein-coding genes, 3 rRNAs, 28 tRNAs, and 1 pseudogene). 18 single nucleotide polymorphisms (SNPs) and 19 insertions and deletions are identified, higher than that of Marchantia polymorpha subsp. ruderalis. One non-synonymous SNP is found in ccmFN. Phylogenetic trees show that R. fluitans is clustered with Dumortiera hirsuta, requiring additional mitogenome to clarify the phylogenetic relationship.

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“…The reverse U-to-C RNA editing appears to be restricted to hornworts, some lycophytes, and ferns [44], but has not been confirmed in liverwort plastomes up to the date. The robust reverse editing was predicted for plastome of Gymnomitrion concinnatum [10], but in silico prediction tools seem to be incorrect in the case of U to C ending in the early land plants [2].…”

Section: Rna Editing In Organellar Genomesmentioning

confidence: 99%

“…Organellar genomes of early land plants are known from their stable structure and almost identical gene order present in all main evolutionary lineages [1][2][3][4][5], which include complex thalloids, simply thalloids, leafy and early divergent leafy liverworts from the order Treubiales and Haplomitriales. Despite the fact that the organellar genomes of model liverwort Marchantia polymorpha were among first sequenced plant plastomes [6] and mitogenomes [7], the number of complete genomes sequences was very limited, till the end of the second decade of XXI century, when several paper were published significantly expanding our knowledge about evolutionary dynamics of these molecules [2][3][4][5]. The current genomic resources comprise 61 mitogenomes and 59 plastomes complete sequences, but many liverwort families do not have their representatives.…”

Section: Introductionmentioning

confidence: 99%

Sequencing of Organellar Genomes of Nowellia curvifolia (Cephaloziaceae Jungermanniales) Revealed the Smallest Plastome with Complete Gene Set and High Intraspecific Variation Suggesting Cryptic Speciation

et al. 2021

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The leafy liverwort Nowellia curvifolia is a widespread Holarctic species belonging to the family Cephaloziaceae. It is made up of a newly sequenced, assembled and annotated organellar genomes of two European specimens, which revealed the structure typical for liverworts, but also provided new insights into its microevolution. The plastome of N. curvifolia is the second smallest among photosynthetic liverworts, with the shortest known inverted repeats. Moreover, it is the smallest liverwort genome with a complete gene set, since two smaller genomes of Aneura mirabilis and Cololejeunea lanciloba are missing six and four protein-coding genes respectively. The reduction of plastome size in leafy liverworts seems to be mainly impacted by deletion within specific region between psbA and psbD genes. The comparative intraspecific analysis revealed single SNPs difference among European individuals and a low number of 35 mutations differentiating European and North American specimens. However, the genetic resources of Asian specimen enabled to identify 1335 SNPs in plastic protein-coding genes suggesting an advanced cryptic speciation within N. curvifolia or the presence of undescribed morphospecies in Asia. Newly sequenced mitogenomes from European specimens revealed identical gene content and structure to previously published and low intercontinental differentiation limited to one substitution and three indels. The RNA-seq based RNA editing analysis revealed 17 and 127 edited sites in plastome and mitogenome respectively including one non-canonical editing event in plastid chiL gene. The U to C editing is common in non-seed plants, but in liverwort plastome is reported for the first time.

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Potential of Transcript Editing Across Mitogenomes of Early Land Plants Shows Novel and Familiar Trends

Cited by 12 publications

References 73 publications

The Increase of Simple Sequence Repeats during Diversification of Marchantiidae, An Early Land Plant Lineage, Leads to the First Known Expansion of Inverted Repeats in the Evolutionarily-Stable Structure of Liverwort Plastomes

The Increase of Simple Sequence Repeats during Diversification of Marchantiidae, An Early Land Plant Lineage, Leads to the First Known Expansion of Inverted Repeats in the Evolutionarily-Stable Structure of Liverwort Plastomes

The complete mitochondrial genome of Riccia fluitans L. (Ricciaceae, Marchantiophyta): investigation of intraspecific variations on mitochondrial genomes of R. fluitans

Sequencing of Organellar Genomes of Nowellia curvifolia (Cephaloziaceae Jungermanniales) Revealed the Smallest Plastome with Complete Gene Set and High Intraspecific Variation Suggesting Cryptic Speciation

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