First complete mitogenome assembly of Castanea sativa: structure, comparative genomics, and phylogeny

The sweet chestnut ( Castanea sativa Mill.) is one of the most widespread cultivated temperate trees in Europe, valued both for its edible nuts and high-quality timber. Due to its ecological, economic, and cultural importance, it has been the focus of extensive genetic studies. However, its mitochon...

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Published inTree genetics & genomes Vol. 21; no. 4; p. 22
Main Authors Villa, Sara, Marchesini, Alexis, Torre, Sara, Bianco, Luca, Fontana, Paolo, De Quattro, Concetta, Moser, Mirko, Piazza, Stefano, Alessandri, Sara, Pavese, Vera, Pollegioni, Paola, Vernesi, Cristiano, Malnoy, Mickael, Marinoni, Daniela Torello, Murolo, Sergio, Dondini, Luca, Mattioni, Claudia, Botta, Roberto, Micheletti, Diego, Palmieri, Luisa, Sebastiani, Federico
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.08.2025
Springer Nature B.V
Subjects
Annotations
Bats
Biomedical and Life Sciences
Biotechnology
Castanea sativa
Comparative analysis
Cultivars
Edible nuts
Forestry
Genes
Genomes
Genomics
Hybridization
Life Sciences
Mitochondria
Next-generation sequencing
Phylogenetics
Phylogeny
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Proteins
rRNA
Short Communication
Transfer RNA
Tree Biology
Trees
tRNA
Europe
Phylogenetic analysis
Organellar DNA
Gene transfer
Mitochondrial genome
mill
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Abstract The sweet chestnut ( Castanea sativa Mill.) is one of the most widespread cultivated temperate trees in Europe, valued both for its edible nuts and high-quality timber. Due to its ecological, economic, and cultural importance, it has been the focus of extensive genetic studies. However, its mitochondrial genome has remained largely unexplored. Here, we present the first complete mitochondrial genome of C. sativa (cultivar ‘Marrone di Chiusa Pesio’), assembled using high-throughput sequencing and characterised through comparative analyses with closely related species. The final assembly consists of six contigs with a total length of 402,729 bp, comprising 35 protein-coding genes, 33 tRNA genes, and 3 rRNA genes. Compared to the congeneric C. mollissima , C. sativa shows a relatively low repeat content in terms of both number and length. Codon usage patterns were found to be highly similar among C. sativa , C. mollissima , and C. henryi . Additionally, homologous fragments between the plastid and mitochondrial genomes were identified, totaling 4,671 bp (1.16% of the mitogenome), and including several tRNA genes. A phylogenetic analysis based on mitochondrial coding sequences from C. sativa and 11 other Fagaceae species confirmed its close relationship with C. mollissima , C. henryi , and Castanopsis carlesii . Discrepancies observed among mitochondrial, plastid, and nuclear gene trees likely reflect either inherent genomic characteristics or extensive hybridisation, particularly within the genus Quercus.
AbstractList The sweet chestnut ( Castanea sativa Mill.) is one of the most widespread cultivated temperate trees in Europe, valued both for its edible nuts and high-quality timber. Due to its ecological, economic, and cultural importance, it has been the focus of extensive genetic studies. However, its mitochondrial genome has remained largely unexplored. Here, we present the first complete mitochondrial genome of C. sativa (cultivar ‘Marrone di Chiusa Pesio’), assembled using high-throughput sequencing and characterised through comparative analyses with closely related species. The final assembly consists of six contigs with a total length of 402,729 bp, comprising 35 protein-coding genes, 33 tRNA genes, and 3 rRNA genes. Compared to the congeneric C. mollissima , C. sativa shows a relatively low repeat content in terms of both number and length. Codon usage patterns were found to be highly similar among C. sativa , C. mollissima , and C. henryi . Additionally, homologous fragments between the plastid and mitochondrial genomes were identified, totaling 4,671 bp (1.16% of the mitogenome), and including several tRNA genes. A phylogenetic analysis based on mitochondrial coding sequences from C. sativa and 11 other Fagaceae species confirmed its close relationship with C. mollissima , C. henryi , and Castanopsis carlesii . Discrepancies observed among mitochondrial, plastid, and nuclear gene trees likely reflect either inherent genomic characteristics or extensive hybridisation, particularly within the genus Quercus.
The sweet chestnut (Castanea sativa Mill.) is one of the most widespread cultivated temperate trees in Europe, valued both for its edible nuts and high-quality timber. Due to its ecological, economic, and cultural importance, it has been the focus of extensive genetic studies. However, its mitochondrial genome has remained largely unexplored. Here, we present the first complete mitochondrial genome of C. sativa (cultivar ‘Marrone di Chiusa Pesio’), assembled using high-throughput sequencing and characterised through comparative analyses with closely related species. The final assembly consists of six contigs with a total length of 402,729 bp, comprising 35 protein-coding genes, 33 tRNA genes, and 3 rRNA genes. Compared to the congeneric C. mollissima, C. sativa shows a relatively low repeat content in terms of both number and length. Codon usage patterns were found to be highly similar among C. sativa, C. mollissima, and C. henryi. Additionally, homologous fragments between the plastid and mitochondrial genomes were identified, totaling 4,671 bp (1.16% of the mitogenome), and including several tRNA genes. A phylogenetic analysis based on mitochondrial coding sequences from C. sativa and 11 other Fagaceae species confirmed its close relationship with C. mollissima, C. henryi, and Castanopsis carlesii. Discrepancies observed among mitochondrial, plastid, and nuclear gene trees likely reflect either inherent genomic characteristics or extensive hybridisation, particularly within the genus Quercus.
ArticleNumber 22
Author Bianco, Luca
Mattioni, Claudia
De Quattro, Concetta
Pavese, Vera
Palmieri, Luisa
Sebastiani, Federico
Alessandri, Sara
Torre, Sara
Malnoy, Mickael
Murolo, Sergio
Pollegioni, Paola
Villa, Sara
Fontana, Paolo
Botta, Roberto
Piazza, Stefano
Marchesini, Alexis
Marinoni, Daniela Torello
Vernesi, Cristiano
Micheletti, Diego
Dondini, Luca
Moser, Mirko
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SSID ssj0047066
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Snippet The sweet chestnut ( Castanea sativa Mill.) is one of the most widespread cultivated temperate trees in Europe, valued both for its edible nuts and...
The sweet chestnut (Castanea sativa Mill.) is one of the most widespread cultivated temperate trees in Europe, valued both for its edible nuts and high-quality...
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SubjectTerms Annotations
Bats
Biomedical and Life Sciences
Biotechnology
Castanea sativa
Comparative analysis
Cultivars
Edible nuts
Forestry
Genes
Genomes
Genomics
Hybridization
Life Sciences
Mitochondria
Next-generation sequencing
Phylogenetics
Phylogeny
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Proteins
rRNA
Short Communication
Transfer RNA
Tree Biology
Trees
tRNA
Title First complete mitogenome assembly of Castanea sativa: structure, comparative genomics, and phylogeny
URI https://link.springer.com/article/10.1007/s11295-025-01707-8
https://www.proquest.com/docview/3229987656
Volume 21
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