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ABSTRACT: Background/objectives
Fissidens crispulus Brid. is a dioicous moss with conspicuous axillary hyaline nodules and serrulate leaf margins. It features Neoamblyothallia-type peristome teeth and serves as an ecologically significant model for studying adaptation in the hyperdiverse genus Fissidens (>440 species).Methods
In this study, the complete chloroplast genome of F. crispulus was sequenced and de novo assembled, enabling detailed comparative genomic, phylogenetic, and codon usage bias studies.Results
As the third fully sequenced member of Fissidentaceae, this study deciphers its 124,264-124,440 bp quadripartite genome encoding 129 genes (83 CDS, 32 tRNAs, 8 rRNAs). Repeat analysis identified 125-127 SSRs, dominated by mono-/di-nucleotide A/T repeats (>70%), and dispersed repeats predominantly forward (F) and palindromic (P) (>85%), confirming profound AT-biased composition (GC content: 28.7%). We established 7 hypervariable loci (matK, ycf2, etc.) as novel Dicranidae-wide phylogenetic markers. Codon usage exhibited significant A/U-ending preference, with 12 optimal codons (e.g., GCA, UGU, UUU) determined. Maximum likelihood analyses resolved F. crispulus and F. protonematicola as sister groups with high support value (MBP = 100%).Conclusions
This work provides the foundational cpDNA resource for Fissidens, filling a major gap in bryophyte chloroplast genomics and establishing a framework for resolving the genus's infrageneric conflicts. Furthermore, it offers critical insights into bryophyte plastome evolution and enables future codon-optimized biotechnological applications.
SUBMITTER: Song YQ
PROVIDER: S-EPMC12469583 | biostudies-literature | 2025 Sep
REPOSITORIES: biostudies-literature

Genes 20250918 9
<h4>Background/objectives</h4><i>Fissidens crispulus</i> Brid. is a dioicous moss with conspicuous axillary hyaline nodules and serrulate leaf margins. It features <i>Neoamblyothallia</i>-type peristome teeth and serves as an ecologically significant model for studying adaptation in the hyperdiverse genus <i>Fissidens</i> (>440 species).<h4>Methods</h4>In this study, the complete chloroplast genome of <i>F. crispulus</i> was sequenced and de novo assembled, enabling detailed comparative genomic, ...[more]