Exon shuffling potentiates a diverse repertoire of brown algal <scp>NB‐ARC‐TPR</scp> candidate immune receptor proteins via alternative splicing

Teng, Linhong; Liu, Miao; Wang, Chenghui; Li, Yan; Urbach, Jonathan M.; Kobe, Boštjan; Xing, Qikun; Han, Wentao; Ye, Naihao

doi:10.1111/tpj.16131

Cited by 2 publications

References 77 publications

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Systematic exploration of domain assortments in NOD-like receptors uncovers two types of NACHT domains inSordarialesfungi

Bonometti,

Charriat,

Hensen

et al. 2024

Preprint

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BackgroundFungi have NOD-Like receptors (NLRs), analogous to the innate immune receptors found in animals, plants and bacteria. Fungal NLRs are characterized by a great variability of domain organizations, but the identity of the nucleotide-binding domains, the genomic localization, and the factors associated with variation in the composition of repertoires of fungal NLRs are not yet fully understood. To better understand the variability of fungal NLR repertoires and the underlying determinants, we conducted a thorough analysis of genome data from the ascomycete orderSordariales.ResultsUsing similarity searches based on hidden Markov models profiles for canonical N-terminal, nucleotide-binding, or C-terminal domains, we characterized 4613 NLRs in 82Sordarialestaxa. By examining the Helical Third section of the nucleotide-binding domains, we substantially improved their annotation. We demonstrated that fungi have NACHT domains of both NAIP-like and TLP1-like types, similar to animals. We found that the number of NLR genes was highly variable amongSordarialesfamilies, and independent of the stringency of defense mechanisms against genomic repeat elements. NLRs were organized in clusters in the majority of taxa, and the strong correlation between the number of NLRs and the number of NLR clusters suggested that organizing in clusters may contribute to repertoire diversification.ConclusionsOur work highlights the similarity of fungal and animal NLRs in terms of nucleotide-binding domain types, and between fungal and plant NLRs in terms of genomic organization in clusters. Our findings will aid in the comparative analysis of the patterns and processes of diversification of NLR repertoires in various lineages of fungi and between the different kingdoms and domains of life.

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Systematic exploration of domain assortments in NOD-like receptors uncovers two types of NACHT domains inSordarialesfungi

Bonometti,

Charriat,

Hensen

et al. 2024

Preprint

View full text Add to dashboard Cite

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Exon shuffling and alternative splicing of ROCO genes in brown algae enables a diverse repertoire of candidate immune receptors

Teng,

Sun,

Chen

et al. 2024

Front. Plant Sci.

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The ROCO family is a family of GTPases characterized by a central ROC-COR tandem domain. Interest in the structure and function of ROCO proteins has increased with the identification of their important roles in human disease. Nevertheless, the functions of most ROCO proteins are still unknown. In the present study, we characterized the structure, evolution, and expression of ROCOs in four species of brown algae. Brown algae have a larger number of ROCO proteins than other organisms reported to date. Phylogenetic analyses showed that ROCOs have an ancient origin, likely originated in prokaryotes. ROCOs in brown algae clustered into four groups and showed no strong relationship with red algae or green algae. Brown algal ROCOs retain the ancestral LRR-ROC-COR domain arrangement, which is found in prokaryotes, plants and some basal metazoans. Remarkably, individual LRR motifs in ROCO genes are each encoded by separate exons and exhibit intense exon shuffling and diversifying selection. Furthermore, the tandem LRR exons exhibit alternative splicing to generate multiple transcripts. Both exon shuffling and alternative splicing of LRR repeats may be important mechanisms for generating diverse ligand-binding specificities as immune receptors. Besides their potential immune role, expression analysis shows that many ROCO genes are responsive to other stress conditions, suggesting they could participate in multiple signal pathways, not limited to the immune response. Our results substantially enhance our understanding of the structure and function of this mysterious gene family.

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Exon shuffling potentiates a diverse repertoire of brown algal NB‐ARC‐TPR candidate immune receptor proteins via alternative splicing

Cited by 2 publications

References 77 publications

Systematic exploration of domain assortments in NOD-like receptors uncovers two types of NACHT domains inSordarialesfungi

Systematic exploration of domain assortments in NOD-like receptors uncovers two types of NACHT domains inSordarialesfungi

Exon shuffling and alternative splicing of ROCO genes in brown algae enables a diverse repertoire of candidate immune receptors

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