<p>As symbiotic complexes formed through the association of bacteria or algae with fungi, lichens exhibit exceptional adaptability to extreme environments and function as pioneer species in rocky habitat ecological succession. The absence of high quality chromosome-level genome has constrained investigations into lichen adaptive evolution, while functional contributions of symbiotic bacterial communities remain inadequately explored. This study presents the chromosome-level genome assembly of the mycobiont <i>Cladonia uncialis</i>, comprising 28 chromosomes with a total size of 43.49 Mb, generated through integrated PacBio HiFi and Hi-C methodologies. We characterized the symbiotic microbiota using integrated short and long-read sequencing and constructed 31 metagenome-assembled genomes. The community was dominated by <i>Ascomycota</i> (41.16%), <i>Proteobacteria</i> (17.61%), and <i>Bacteroidota</i> (14.20%). Long-read sequencing significantly enhanced detection sensitivity for low-abundance taxa. This study provides essential genomic resources and comprehensive profiles of the symbiotic microbiota, enabling mechanistic exploration of adaptive evolution within lichen symbiotic systems under extreme environmental conditions.</p>

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Fungal photobiont and microbiome genome composition in the Cladonia uncialis tripartite symbiosis

  • Zhuang Dong,
  • Meng Shan Sun,
  • Yue Dong He,
  • Li Zhou,
  • Wei Xiang,
  • XinYao Li,
  • Peng Huang,
  • Jian Guo Zeng

摘要

As symbiotic complexes formed through the association of bacteria or algae with fungi, lichens exhibit exceptional adaptability to extreme environments and function as pioneer species in rocky habitat ecological succession. The absence of high quality chromosome-level genome has constrained investigations into lichen adaptive evolution, while functional contributions of symbiotic bacterial communities remain inadequately explored. This study presents the chromosome-level genome assembly of the mycobiont Cladonia uncialis, comprising 28 chromosomes with a total size of 43.49 Mb, generated through integrated PacBio HiFi and Hi-C methodologies. We characterized the symbiotic microbiota using integrated short and long-read sequencing and constructed 31 metagenome-assembled genomes. The community was dominated by Ascomycota (41.16%), Proteobacteria (17.61%), and Bacteroidota (14.20%). Long-read sequencing significantly enhanced detection sensitivity for low-abundance taxa. This study provides essential genomic resources and comprehensive profiles of the symbiotic microbiota, enabling mechanistic exploration of adaptive evolution within lichen symbiotic systems under extreme environmental conditions.