Altered GC- and AT-biased genotypes of<i>Ophiocordyceps sinensis</i>in the stromal fertile portions and ascospores of natural<i>Cordyceps sinensis</i>

Li, Yuling; Gao, Ling; Yao, Yisang; Wu, Zimei; Tan, Ningzhi; Luo, Zhong‐Zhen; Xie, Weidong; Wu, Jianyong; Zhu, Jia‐Shi

doi:10.1101/2022.10.07.511361

Cited by 4 publications

(50 citation statements)

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“…The fully ejected ascospores of C. sinensis were diluted in normal saline, placed on a glass slide, and air-dried for histological examination under an optical microscope (Model BX51, OLYMPUS, Japan) without staining. The ascospores were fixed on a glass slide with 4% paraformaldehyde for 1 h, incubated in 0.01% calmodulin for 5 min for the visualization of septa, washed 3 times with PBS, and observed under a fluorescence microscope with UV epi-illumination (Model XZ51, OLYMPUS, Japan) [69].…”

Section: Histological Examination Of the Sfp Ascocarps And Ascospores...mentioning

confidence: 99%

“…The sequences of Genotypes #2-17 of O. sinensis, however, were not present in the genome assemblies (ANOV00000000, JAAVMX000000000, LKHE00000000, LWBQ00000000 and NGJJ00000000) of 5 Genotype #1 H. sinensis strains, Co18, IOZ07, 1229, ZJB12195 and CC1406-203, and instead belonged to the genomes of independent O. sinensis fungi [7][8][9][10][11][12][27][28][30][31][51][52][53][54][55][56]69].…”

Section: Gc-biasedmentioning

confidence: 99%

“…In fact, Genotypes #6 and #16 were detected in both types of ascospores using the biochip-based MassARRAY SNP mass spectrometry technique [69].…”

Section: Complex Anamorph-teleomorph Connection Of O Sinensismentioning

confidence: 99%

“…These studies did not report the maturation stages of natural and cultivated C. sinensis specimens that were used as the study materials. However, other studies using genotype-specific primers, amplicon cloning and biochip-based SNP mass spectrometry genotyping techniques reported the detection of Genotype #4 of O. sinensis in natural C. sinensis coexisting with Genotype #1 H. sinensis with or without Genotypes #5-6[16][17][18]24,[27][28]61,69].Genotype #4 of AT-biased Cluster-B was found to predominate in the stroma of immature C. sinensis and to decline during C. sinensis maturation (cf. Fig7)[16][17][27][28][30][31]69].…”

mentioning

confidence: 99%

“…However, other studies using genotype-specific primers, amplicon cloning and biochip-based SNP mass spectrometry genotyping techniques reported the detection of Genotype #4 of O. sinensis in natural C. sinensis coexisting with Genotype #1 H. sinensis with or without Genotypes #5-6[16][17][18]24,[27][28]61,69].Genotype #4 of AT-biased Cluster-B was found to predominate in the stroma of immature C. sinensis and to decline during C. sinensis maturation (cf. Fig7)[16][17][27][28][30][31]69]. Genotype #4 and the newly discovered Genotype #15 of AT-biased Cluster-B are present in the SFP (with ascocarps) but not in ascospores of natural C. sinensis (cf.…”

mentioning

confidence: 99%

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Differential coexistence of multiple genotypes ofOphiocordyceps sinensisin the stromata, ascocarps and ascospores of naturalCordyceps sinensis

Yao

et al. 2022

Preprint

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Objective: To examine the differential occurrence of Ophiocordyceps sinensis genotypes in the stroma, stromal fertile portion (SFP), and ascospores of natural Cordyceps sinensis. Methods: Immature and mature C. sinensis were harvested. Mature C. sinensis were continuously cultivated in our laboratory (altitude 2,200 m). The SFPs (with ascocarps) and ascospores of C. sinensis were collected for microscopic and molecular analyses using species-/genotype-specific primers. Results: Fully and semi-ejected ascospores were collected from the same specimens. The semi-ejected ascospores tightly adhered to the surface of the asci. The multicellular heterokaryotic ascospores showed uneven staining of nuclei. The ascospores were found to contain several genotypes of O. sinensis, Samsoniella hepiali, and an AB067719-type fungus. The genotypes within AT-biased Cluster-A occurred in all compartments of C. sinensis, but those within AT-biased Cluster-B were absent in the ascospores. Genotypes #13?14 of O. sinensis occurred differentially in fully and semi-ejected ascospores, which featured DNA segment substitutions and genetic material recombination between the genomes of the parental fungi, Hirsutella sinensis and the AB067719-type fungus. These offspring genotypes combined with varying abundances of S. hepiali in the 2 types of ascospores participated in the control of the development, maturation and ejection of the ascospores. Conclusion: Multiple genotypes of O. sinensis coexist differentially in the SFP and 2 types of C. sinensis ascospores, along with S. hepiali and the AB067719-type fungus. The fungal components in different combinations and their dynamic alterations in the compartments of C. sinensis during maturation play symbiotic roles in the lifecycle of natural C. sinensis .

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Section: Histological Examination Of the Sfp Ascocarps And Ascospores...mentioning

confidence: 99%

Section: Gc-biasedmentioning

confidence: 99%

“…In fact, Genotypes #6 and #16 were detected in both types of ascospores using the biochip-based MassARRAY SNP mass spectrometry technique [69].…”

Section: Complex Anamorph-teleomorph Connection Of O Sinensismentioning

confidence: 99%

mentioning

confidence: 99%

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confidence: 99%

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Differential coexistence of multiple genotypes ofOphiocordyceps sinensisin the stromata, ascocarps and ascospores of naturalCordyceps sinensis

Yao

et al. 2022

Preprint

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Genetic and phylogenetic features of the repetitive ITS copies in theHirsutella sinensisgenome and the genomically independent AT-biasedOphiocordyceps sinensisgenotypes

Wang

Zhu

2022

Preprint

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Li et al. (2013, 2020b) hypothesized that AT-biased genotypes of Ophiocordyceps sinensis are generated through repeat-induced point mutation (RIP) and exist as ITS pseudogenes in a single genome of GC-biased Genotype #1 Hirsutella sinensis. This study revealed multiple GC-biased repetitive ITS copies in the H. sinensis genome, including multiple insertion/deletion and transversion alleles, which might not be generated through RIP mutagenesis that theoretically causes C-to-T and G-to-A transitions. The repetitive ITS copies are genetically and phylogenetically distinct from the AT-biased genotypes of O. sinensis, which possess multiple scattered transition alleles. The sequences of GC- and AT-biased Genotypes #2-17 were absent in the genome assemblies ANOV00000000, JAAVMX000000000, LKHE00000000, LWBQ00000000 and NGJJ00000000 of H. sinensis strains but instead in the genomes of independent O. sinensis fungi. The GC- and AT-biased genotypes of O. sinensis were found to differentially occur in different combinations in different compartments of natural Cordyceps sinensis. Their abundances were dynamically altered in an asynchronous, disproportional manner during C. sinensis maturation. Metatranscriptomic analysis of natural C. sinensis revealed transcriptional silencing of the 5.8S genes of all C. sinensis-colonizing fungi, including H. sinensis. The problematic design of the 5.8S gene transcription assay and data analysis reported by Li et al. (2013) have provided controversial and incomplete evidence to support the notion that the 5.8S genes of AT-biased genotypes of O. sinensis are permanently nonfunctional ITS pseudogenes. These results demonstrate the genomic independence of 17 genotypes belonging to independent O. sinensis fungi. In parallel with GC-biased genotypes, AT-biased O. sinensis genotypes might have been generated during the long history of evolution from a common ancestor through RIP or other mutagenesis mechanisms in response to the extremely harsh environment of the Qinghai-Tibet Plateau.

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Differential coexistence of multiple genotypes of Ophiocordyceps sinensis in the stromata, ascocarps and ascospores of natural Cordyceps sinensis

Yao

et al. 2023

PLoS ONE

120

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Objective To examine the differential occurrence of Ophiocordyceps sinensis genotypes in the stroma, stromal fertile portion (SFP) densely covered with numerous ascocarps, and ascospores of natural Cordyceps sinensis. Methods Immature and mature C. sinensis specimens were harvested. Mature C. sinensis specimens were continuously cultivated in our laboratory (altitude 2,200 m). The SFPs (with ascocarps) and ascospores of C. sinensis were collected for microscopic and molecular analyses using species-/genotype-specific primers. Sequences of mutant genotypes of O. sinensis were aligned with that of Genotype #1 Hirsutella sinensis and compared phylogenetically using a Bayesian majority-rule method. Results Fully and semiejected ascospores were collected from the same specimens. The semiejected ascospores tightly adhered to the surface of the asci as observed by the naked eye and under optical and confocal microscopies. The multicellular heterokaryotic ascospores showed uneven staining of nuclei. The immature and mature stromata, SFPs (with ascocarps) and ascospores were found to differentially contain several GC- and AT-biased genotypes of O. sinensis, Samsoniella hepiali, and an AB067719-type fungus. The genotypes within AT-biased Cluster-A in the Bayesian tree occurred in all compartments of C. sinensis, but those within AT-biased Cluster-B were present in immature and mature stromata and SPFs but absent in the ascospores. Genotype #13 of O. sinensis was present in semi-ejected ascospores and Genotype #14 in fully ejected ascospores. GC-biased Genotypes #13–14 featured large DNA segment substitutions and genetic material recombination between the genomes of the parental fungi (H. sinensis and the AB067719-type fungus). These ascosporic offspring genotypes combined with varying abundances of S. hepiali in the 2 types of ascospores participated in the control of the development, maturation and ejection of the ascospores. Conclusion Multiple genotypes of O. sinensis coexist differentially in the stromata, SFPs and 2 types of C. sinensis ascospores, along with S. hepiali and the AB067719-type fungus. The fungal components in different combinations and their dynamic alterations in the compartments of C. sinensis during maturation play symbiotic roles in the lifecycle of natural C. sinensis.

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Altered GC- and AT-biased genotypes ofOphiocordyceps sinensisin the stromal fertile portions and ascospores of naturalCordyceps sinensis

Cited by 4 publications

References 58 publications

Differential coexistence of multiple genotypes ofOphiocordyceps sinensisin the stromata, ascocarps and ascospores of naturalCordyceps sinensis

Differential coexistence of multiple genotypes ofOphiocordyceps sinensisin the stromata, ascocarps and ascospores of naturalCordyceps sinensis

Genetic and phylogenetic features of the repetitive ITS copies in theHirsutella sinensisgenome and the genomically independent AT-biasedOphiocordyceps sinensisgenotypes

Differential coexistence of multiple genotypes of Ophiocordyceps sinensis in the stromata, ascocarps and ascospores of natural Cordyceps sinensis

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