Unnexins: Homologs of innexin proteins in <i>Trypanosomatidae</i> parasites

Güiza, Juan; García, Aníbal; Arriagada, Javiera; Gutíerrez, Camila; González, Jorge; Márquez-Miranda, Valeria; Alegría-Arcos, Melissa; Duarte, Yorley; Rojas, Mónica Maldonado; González‐Nilo, Fernando; Sáez, Juan C.; Vega, José Luis

doi:10.1002/jcp.30626

Cited by 5 publications

(17 citation statements)

References 67 publications

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“…Below are a few recent examples of how TriTrypDB data and tools have been utilized by the research community to conduct their own research. TriTrypDB genomes and annotations have been used to characterize individual genes [ 69 – 73 ] or gene families [ 74 , 75 ], identify orthologs across species [ 55 , 70 , 76 ], conduct genome-wide analyses to study genetic variations such as SNPs, CNVs and hybridization events [ 77 – 79 ], perform comparative genomic [ 80 – 82 ] and phylogenetic/ phylogenomic [ 82 , 83 ] analyses, and as reference genomes for the assembly and/or annotation of newly generated genomes [ 16 , 84 ]. Similarly, the genome assemblies and annotations have also been utilized for the analysis of differential gene expression [ 19 , 72 , 85 ], protein expression [ 85 – 87 ], the identification of post-translational modifications [ 72 ] and potential new genes missing in the official gene sets [ 88 ].…”

Section: Discussionmentioning

confidence: 99%

TriTrypDB: An integrated functional genomics resource for kinetoplastida

et al. 2023

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Parasitic diseases caused by kinetoplastid parasites are a burden to public health throughout tropical and subtropical regions of the world. TriTrypDB (https://tritrypdb.org) is a free online resource for data mining of genomic and functional data from these kinetoplastid parasites and is part of the VEuPathDB Bioinformatics Resource Center (https://veupathdb.org). As of release 59, TriTrypDB hosts 83 kinetoplastid genomes, nine of which, including Trypanosoma brucei brucei TREU927, Trypanosoma cruzi CL Brener and Leishmania major Friedlin, undergo manual curation by integrating information from scientific publications, high-throughput assays and user submitted comments. TriTrypDB also integrates transcriptomic, proteomic, epigenomic, population-level and isolate data, functional information from genome-wide RNAi knock-down and fluorescent tagging, and results from automated bioinformatics analysis pipelines. TriTrypDB offers a user-friendly web interface embedded with a genome browser, search strategy system and bioinformatics tools to support custom in silico experiments that leverage integrated data. A Galaxy workspace enables users to analyze their private data (e.g., RNA-sequencing, variant calling, etc.) and explore their results privately in the context of publicly available information in the database. The recent addition of an annotation platform based on Apollo enables users to provide both functional and structural changes that will appear as ‘community annotations’ immediately and, pending curatorial review, will be integrated into the official genome annotation.

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Section: Discussionmentioning

confidence: 99%

TriTrypDB: An integrated functional genomics resource for kinetoplastida

et al. 2023

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“…The representative protein sequence for each cluster was chosen based on the following hierarchy: (a) If a cluster has a Zot protein sequence from the Vibrio genus, and (b) If a cluster includes at least one Zot protein originating from Vibrio genomes. This approach aimed to construct a representative network where each node corresponds to a group of proteins with at least 90% sequence identity, following methodologies similar to those employed in previous research (Arias‐Darraz et al, 2015; González, 2021; Güiza et al, 2022).…”

Section: Methodsmentioning

confidence: 99%

Prophages carrying Zot toxins on different Vibrio genomes: A comprehensive assessment using multilayer networks

Soto,

Alegría,

Sepúlveda

et al. 2024

Environmental Microbiology

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Vibrios, a group of bacteria that are among the most abundant in marine environments, include several species such as Vibrio cholerae and Vibrio parahaemolyticus, which can be pathogenic to humans. Some species of Vibrio contain prophages within their genomes. These prophages can carry genes that code for toxins, such as the zonula occludens toxin (Zot), which contribute to bacterial virulence. Understanding the association between different Vibrio species, prophages and Zot genes can provide insights into their ecological interactions. In this study, we evaluated 4619 Vibrio genomes from 127 species to detect the presence of prophages carrying the Zot toxin. We found 2030 potential prophages with zot‐like genes in 43 Vibrio species, showing a non‐random association within a primarily modular interaction network. Some prophages, such as CTX or Vf33, were associated with specific species. In contrast, prophages phiVCY and VfO3K6 were found in 28 and 20 Vibrio species, respectively. We also identified six clusters of Zot‐like sequences in prophages, with the ZOT2 cluster being the most frequent, present in 34 Vibrio species. This analysis helps to understand the distribution patterns of zot‐containing prophages across Vibrio genomes and the potential routes of Zot‐like toxin dissemination.

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“…In parasite infections, T. cruzi or T. cruzi -virulence factors have been described to activate Panx1 hemichannels in cardiac cells, causing an outflow of ATP, and increasing the concentration of cytosolic Ca 2+ through the activation of P2Y 1 receptors, which is necessary for parasite invasion ( Barria et al, 2018 ) ( Figure 1C ). Recent evidence suggests the presence of members of large-pore channels in T. cruzi, which could be a route for ATP release, and could be considered for future research ( Güiza et al, 2022 ).…”

Section: Conclusion and Futuresmentioning

confidence: 99%

“…Plasma membrane ionic channels selectively permeate ions (i.e., K + , Na + , Cl − , or Ca 2+ ); However, large-pore channels are also permeable to small molecules, such as ATP, ADP, and NAD + , and glutamate, which contribute to physiological and pathophysiological responses ( Kang et al, 2008 ; Cisterna et al, 2020 ; Syrjanen et al, 2021 ). Large-pore channels are structures formed by several protein families with no evolutionary linkages, including Cxs, Panxs, Inxs, Unxs, CALHMs, and LRRC8 proteins ( Guiza et al, 2022 ). Despite little sequence homology, the large-pore channel members have similar transmembrane topologies with four transmembrane helices ( Syrjanen et al, 2021 ).…”

Section: General Introductionmentioning

confidence: 99%

“…The VRACs are composed of LRRC8 proteins and are responsible for regulatory volume decreases after hypotonic cell swelling ( Concepcion et al, 2022 ). Recent evidence suggests that kinetoplastid parasites have large-pore channel members formed by homologs of innexins, named unnexins, which seem to have a membrane topology similar to that of large-pore channels, and might play a critical role in infections ( Guiza et al, 2022 ).…”

Section: General Introductionmentioning

confidence: 99%

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Contribution of large-pore channels to inflammation induced by microorganisms

Vega

Gutíerrez

Rojas

et al. 2023

Front. Cell Dev. Biol.

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Plasma membrane ionic channels selectively permeate potassium, sodium, calcium, and chloride ions. However, large-pore channels are permeable to ions and small molecules such as ATP and glutamate, among others. Large-pore channels are structures formed by several protein families with little or no evolutionary linkages including connexins (Cxs), pannexins (Panxs), innexin (Inxs), unnexins (Unxs), calcium homeostasis modulator (CALHMs), and Leucine-rich repeat-containing 8 (LRRC8) proteins. Large-pore channels are key players in inflammatory cell response, guiding the activation of inflammasomes, the release of pro-inflammatory cytokines such as interleukin-1 beta (IL-1ß), and the release of adenosine-5′-triphosphate (ATP), which is considered a danger signal. This review summarizes our current understanding of large-pore channels and their contribution to inflammation induced by microorganisms, virulence factors or their toxins.

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Unnexins: Homologs of innexin proteins in Trypanosomatidae parasites

Cited by 5 publications

References 67 publications

TriTrypDB: An integrated functional genomics resource for kinetoplastida

TriTrypDB: An integrated functional genomics resource for kinetoplastida

Prophages carrying Zot toxins on different Vibrio genomes: A comprehensive assessment using multilayer networks

Contribution of large-pore channels to inflammation induced by microorganisms

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