Geferson Fernando Metz, Tiego De la Vega Ferreira, Rafael De la Vega Ferreira, Cristiane Barbosa D'Oliveira Matielo, Rafael Plá Matielo Lemos, Filipe de Carvalho Victoria
{"title":"桫椤(Cyathea delgadii)叶绿体全基因组及其与其他桫椤属植物的比较。","authors":"Geferson Fernando Metz, Tiego De la Vega Ferreira, Rafael De la Vega Ferreira, Cristiane Barbosa D'Oliveira Matielo, Rafael Plá Matielo Lemos, Filipe de Carvalho Victoria","doi":"10.1007/s10528-025-11248-3","DOIUrl":null,"url":null,"abstract":"<p><p>The chloroplast (cp) genome of the tree fern Cyathea delgadii Pohl ex Sternb. was assembled and annotated to investigate its structure and evolution within the Cyatheales order. The genome, sequenced using Oxford Nanopore Technologies, has a total size of 165,248 bp, comprising a large single-copy (LSC) region of 94,738 bp, a small single-copy (SSC) region of 22,012 bp, and two inverted repeat (IR) regions of 24,251 bp each. It contains 89 protein-coding genes, eight rRNAs, and 33 tRNAs. Comparative phylogenomic analyses involving 19 species of Cyatheales have revealed that the cp genome of C. delgadii shares similarities in gene content with other ferns of the Cyatheaceae family; however, it demonstrates variations in both genome size and GC content. Variations in cp genome size were observed across the Cyatheales species, ranging from 154,046 bp in Gymnosphaera denticulata (Baker) Copel to 168,244 bp in Dicksonia squarrosa (G.Forst) SW. Gene content analysis showed that most species have a conserved number of protein-coding genes, rRNAs, and tRNAs, suggesting structural stability. However, Cibotium spp. has a reduced number of protein-coding genes (87), possibly due to gene loss or transfer to the nuclear genome. Phylogenetic analyses using both whole genome and SNP data showed comparable clustering among Alsophila and Gymnosphaera species, while C. delgadii occupied a basal to intermediate position. The overall guanine-cytosine (GC) content of C. delgadii was calculated to be 40.95%, with a significantly higher content of 44.03% observed in the intragenic regions. An analysis of codon usage bias indicated a preference for codons ending with adenine or thymine, which aligns with the genome's adenine-thymine (AT) richness. This study provides valuable genomic resources and insights into the evolution of Cyatheales cp genomes, emphasizing both conserved features and specific adaptations within this group of ferns.</p>","PeriodicalId":482,"journal":{"name":"Biochemical Genetics","volume":" ","pages":""},"PeriodicalIF":1.6000,"publicationDate":"2025-09-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The Complete Chloroplast Genome of Tree Fern Cyathea delgadii and Its Comparison to Other Cyatheales.\",\"authors\":\"Geferson Fernando Metz, Tiego De la Vega Ferreira, Rafael De la Vega Ferreira, Cristiane Barbosa D'Oliveira Matielo, Rafael Plá Matielo Lemos, Filipe de Carvalho Victoria\",\"doi\":\"10.1007/s10528-025-11248-3\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>The chloroplast (cp) genome of the tree fern Cyathea delgadii Pohl ex Sternb. was assembled and annotated to investigate its structure and evolution within the Cyatheales order. The genome, sequenced using Oxford Nanopore Technologies, has a total size of 165,248 bp, comprising a large single-copy (LSC) region of 94,738 bp, a small single-copy (SSC) region of 22,012 bp, and two inverted repeat (IR) regions of 24,251 bp each. It contains 89 protein-coding genes, eight rRNAs, and 33 tRNAs. Comparative phylogenomic analyses involving 19 species of Cyatheales have revealed that the cp genome of C. delgadii shares similarities in gene content with other ferns of the Cyatheaceae family; however, it demonstrates variations in both genome size and GC content. Variations in cp genome size were observed across the Cyatheales species, ranging from 154,046 bp in Gymnosphaera denticulata (Baker) Copel to 168,244 bp in Dicksonia squarrosa (G.Forst) SW. Gene content analysis showed that most species have a conserved number of protein-coding genes, rRNAs, and tRNAs, suggesting structural stability. However, Cibotium spp. has a reduced number of protein-coding genes (87), possibly due to gene loss or transfer to the nuclear genome. Phylogenetic analyses using both whole genome and SNP data showed comparable clustering among Alsophila and Gymnosphaera species, while C. delgadii occupied a basal to intermediate position. The overall guanine-cytosine (GC) content of C. delgadii was calculated to be 40.95%, with a significantly higher content of 44.03% observed in the intragenic regions. An analysis of codon usage bias indicated a preference for codons ending with adenine or thymine, which aligns with the genome's adenine-thymine (AT) richness. 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The Complete Chloroplast Genome of Tree Fern Cyathea delgadii and Its Comparison to Other Cyatheales.
The chloroplast (cp) genome of the tree fern Cyathea delgadii Pohl ex Sternb. was assembled and annotated to investigate its structure and evolution within the Cyatheales order. The genome, sequenced using Oxford Nanopore Technologies, has a total size of 165,248 bp, comprising a large single-copy (LSC) region of 94,738 bp, a small single-copy (SSC) region of 22,012 bp, and two inverted repeat (IR) regions of 24,251 bp each. It contains 89 protein-coding genes, eight rRNAs, and 33 tRNAs. Comparative phylogenomic analyses involving 19 species of Cyatheales have revealed that the cp genome of C. delgadii shares similarities in gene content with other ferns of the Cyatheaceae family; however, it demonstrates variations in both genome size and GC content. Variations in cp genome size were observed across the Cyatheales species, ranging from 154,046 bp in Gymnosphaera denticulata (Baker) Copel to 168,244 bp in Dicksonia squarrosa (G.Forst) SW. Gene content analysis showed that most species have a conserved number of protein-coding genes, rRNAs, and tRNAs, suggesting structural stability. However, Cibotium spp. has a reduced number of protein-coding genes (87), possibly due to gene loss or transfer to the nuclear genome. Phylogenetic analyses using both whole genome and SNP data showed comparable clustering among Alsophila and Gymnosphaera species, while C. delgadii occupied a basal to intermediate position. The overall guanine-cytosine (GC) content of C. delgadii was calculated to be 40.95%, with a significantly higher content of 44.03% observed in the intragenic regions. An analysis of codon usage bias indicated a preference for codons ending with adenine or thymine, which aligns with the genome's adenine-thymine (AT) richness. This study provides valuable genomic resources and insights into the evolution of Cyatheales cp genomes, emphasizing both conserved features and specific adaptations within this group of ferns.
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Biochemical Genetics welcomes original manuscripts that address and test clear scientific hypotheses, are directed to a broad scientific audience, and clearly contribute to the advancement of the field through the use of sound sampling or experimental design, reliable analytical methodologies and robust statistical analyses.
Although studies focusing on particular regions and target organisms are welcome, it is not the journal’s goal to publish essentially descriptive studies that provide results with narrow applicability, or are based on very small samples or pseudoreplication.
Rather, Biochemical Genetics welcomes review articles that go beyond summarizing previous publications and create added value through the systematic analysis and critique of the current state of knowledge or by conducting meta-analyses.
Methodological articles are also within the scope of Biological Genetics, particularly when new laboratory techniques or computational approaches are fully described and thoroughly compared with the existing benchmark methods.
Biochemical Genetics welcomes articles on the following topics: Genomics; Proteomics; Population genetics; Phylogenetics; Metagenomics; Microbial genetics; Genetics and evolution of wild and cultivated plants; Animal genetics and evolution; Human genetics and evolution; Genetic disorders; Genetic markers of diseases; Gene technology and therapy; Experimental and analytical methods; Statistical and computational methods.
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