The nature and genomic landscape of repetitive DNA classes in Chrysanthemum nankingense shows recent genomic changes.
Ann Bot
; 131(1): 215-228, 2023 02 07.
Article
em En
| MEDLINE
| ID: mdl-35639931
BACKGROUND AND AIMS: Tandemly repeated DNA and transposable elements represent most of the DNA in higher plant genomes. High-throughput sequencing allows a survey of the DNA in a genome, but whole-genome assembly can miss a substantial fraction of highly repeated sequence motifs. Chrysanthemum nankingense (2nâ
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2xâ
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18; genome sizeâ
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3.07 Gb; Asteraceae), a diploid reference for the many auto- and allopolyploids in the genus, was considered as an ancestral species and serves as an ornamental plant and high-value food. We aimed to characterize the major repetitive DNA motifs, understand their structure and identify key features that are shaped by genome and sequence evolution. METHODS: Graph-based clustering with RepeatExplorer was used to identify and classify repetitive motifs in 2.14 millions of 250-bp paired-end Illumina reads from total genomic DNA of C. nankingense. Independently, the frequency of all canonical motifs k-bases long was counted in the raw read data and abundant k-mers (16, 21, 32, 64 and 128) were extracted and assembled to generate longer contigs for repetitive motif identification. For comparison, long terminal repeat retrotransposons were checked in the published C. nankingense reference genome. Fluorescent in situ hybridization was performed to show the chromosomal distribution of the main types of repetitive motifs. KEY RESULTS: Apart from rDNA (0.86 % of the total genome), a few microsatellites (0.16 %), and telomeric sequences, no highly abundant tandem repeats were identified. There were many transposable elements: 40 % of the genome had sequences with recognizable domains related to transposable elements. Long terminal repeat retrotransposons showed widespread distribution over chromosomes, although different sequence families had characteristic features such as abundance at or exclusion from centromeric or subtelomeric regions. Another group of very abundant repetitive motifs, including those most identified as low-complexity sequences (9.07 %) in the genome, showed no similarity to known sequence motifs or tandemly repeated elements. CONCLUSIONS: The Chrysanthemum genome has an unusual structure with a very low proportion of tandemly repeated sequences (~1.02 %) in the genome, and a high proportion of low-complexity sequences, most likely degenerated remains of transposable elements. Identifying the presence, nature and genomic organization of major genome fractions enables inference of the evolutionary history of sequences, including degeneration and loss, critical to understanding biodiversity and diversification processes in the genomes of diploid and polyploid Chrysanthemum, Asteraceae and plants more widely.
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Texto completo:
1
Coleções:
01-internacional
Base de dados:
MEDLINE
Assunto principal:
Retroelementos
/
Chrysanthemum
Tipo de estudo:
Prognostic_studies
Idioma:
En
Revista:
Ann Bot
Ano de publicação:
2023
Tipo de documento:
Article
País de afiliação:
China