Comparative transcriptome analysis of noble crayfish and marbled crayfish immune response to <i>Aphanomyces astaci</i> challenges

Boštjančić, Ljudevit Luka; Francesconi, Caterina; Rutz, Christelle; Hoffbeck, Lucien; Poidevin, Laetitia; Jussila, Japo; Makkonen, Jenny; Feldmeyer, Barbara; Bálint, Miklós; Lecompte, Odile; Theissinger, Kathrin

doi:10.1101/2021.05.25.445163

Cited by 3 publications

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“…The controlled infection experiment by Francesconi et al provided additional evidence of how drastically strains of A. astaci differ in their virulence. This study confirmed the adaptation of one specific A. astaci haplogroup to their novel European hosts, supposedly due to ongoing coevolution (Jussila et al, 2021) as confirmed by transcriptomic data analyses (Boštjančić et al, 2021). Furthermore, Francesconi et al experimentally showed that invasive marbled crayfish are remarkably resistant against the crayfish plague disease and could potentially be latently infected, acting as carriers of virulent A. astaci strains.…”

Section: Crayfish Plague Managementsupporting

confidence: 79%

Editorial: Conservation of European Freshwater Crayfish

et al. 2021

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Section: Crayfish Plague Managementsupporting

confidence: 79%

Editorial: Conservation of European Freshwater Crayfish

et al. 2021

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“…From the pooled Trinity de novo transcriptome assembly we obtained 670,741 transcripts for the noble crayfish (44,062 ORFs) and 11,333,173 (46,953 ORFs) transcripts for the marbled crayfish . In the post-assembly processing, after filtering fragmented transcripts 168,172 (44,062 ORFs) and 348,751 (46,953 ORFs) transcripts remained for the noble crayfish [ 10 ] and the marbled crayfish , respectively [ 11 ]. After redundancy reduction with CD-HIT-EST 109,608 genes and 254,336 genes remained for the noble crayfish and the marbled crayfish , respectively.…”

Section: Methodsmentioning

confidence: 99%

“…BUSCO analysis of the final assembly revealed a high level of completeness for both assemblies, 93.30% for the noble crayfish and 93.98% for the marbled crayfish arthropoda_odb10 database of orthologs (n = 1013). Comparative analysis of the BUSCO scores among available freshwater crayfish transcriptomes placed the noble crayfish and the marbled crayfish transcriptome assemblies as the most complete freshwater crayfish transcriptome assemblies to date [ 12 ]. Length distribution of assembled transcripts varied from 401 to 32,629 in the noble crayfish and 401 to 32,816 in the marbled crayfish, with the highest number of transcripts falling in the category of 401–500 bp in length for both species [ 13 ].…”

Section: Methodsmentioning

confidence: 99%

“…A total of 2430.7 million and 3098.2 million 2 × 150 bp paired-end reads (read depth: 36.8 M−68.9 M, mean: 48.59 M) were generated from the hepatopancreas of the noble crayfish and the marbled crayfish, respectively [ 8 ]. After processing of low-quality reads, a total of 2227.6 million (91.64% of the initial raw reads) and 2926.8 million (94.46% of the initial raw reads) high-quality sequences were retained for the noble crayfish and the marbled crayfish, respectively [ 9 ]. Raw read data are available at the NCBI database under SRA accession number: SRP318523 [ 8 ].…”

Section: Data Descriptionmentioning

confidence: 99%

“…After processing of low-quality reads, a total of 2227.6 million (91.64% of the initial raw reads) and 2926.8 million (94.46% of the initial raw reads) high-quality sequences were retained for the noble crayfish and the marbled crayfish, respectively [ 9 ]. Raw read data are available at the NCBI database under SRA accession number: SRP318523 [ 8 ].…”

Section: Data Descriptionmentioning

confidence: 99%

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Dataset of the de novo assembly and annotation of the marbled crayfish and the noble crayfish hepatopancreas transcriptomes

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Objectives Crayfish plague disease, caused by the oomycete pathogen Aphanomyces astaci represents one of the greatest risks for the biodiversity of the freshwater crayfish. This data article covers the de novo transcriptome assembly and annotation data of the noble crayfish and the marbled crayfish challenged with Ap. astaci. Following the controlled infection experiment (Francesconi et al. in Front Ecol Evol, 2021, https://doi.org/10.3389/fevo.2021.647037), we conducted a differential gene expression analysis described in (Boštjančić et al. in BMC Genom, 2022, https://doi.org/10.1186/s12864-022-08571-z) Data description In total, 25 noble crayfish and 30 marbled crayfish were selected. Hepatopancreas tissue was isolated, followed by RNA sequencing using the Illumina NovaSeq 6000 platform. Raw data was checked for quality with FastQC, adapter and quality trimming were conducted using Trimmomatic followed by de novo assembly with Trinity. Assembly quality was assessed with BUSCO, at 93.30% and 93.98% completeness for the noble crayfish and the marbled crayfish, respectively. Transcripts were annotated using the Dammit! pipeline and assigned to KEGG pathways. Respective transcriptome and raw datasets may be reused as the reference transcriptome assemblies for future expression studies.

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Recurring infection by crayfish plague pathogen only marginally affects survival and growth of marbled crayfish

Dobrović¹,

Geček²,

Klanjšček³

et al. 2022

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Invasive alien crayfish threaten the diversity of freshwater ecosystems and native crayfish fauna. In Europe, this is largely due to transmission of the crayfish plague to susceptible native crayfish. Many invasive species tolerate crayfish plague, but the infection still has the potential to reduce the fitness of a tolerant host due to energy trade-offs between immune response maintenance and life-history traits, such as growth and reproduction. In combination with other unfavourable conditions, such a response could alter further invasion success of an otherwise successful crayfish invader. We examined whether repeated infection with one of the most virulent haplogroups of crayfish plague agent (Aphanomyces astaci) affects growth or survival of the juvenile marbled crayfish (Procambarus virginalis). Juveniles were exposed to i) two levels of pathogen concentrations, and ii) two different feeding regimes under the higher pathogen concentration. In all performed trials, repeated infection reduced growth rates, while the combination of recurring infection and food limitation significantly increased mortality. The average energy cost of the immune response was estimated at 12.07 J/day for individuals weighing 0.3 grams. Since infections were frequent and pathogen concentrations high, results suggest that marbled crayfish is resistant to A. astaci pathogen and its survival is only affected by adding the stress of food limitation. The survival of almost half of the individuals exposed to high pathogen loads and extreme food limitation indicates that chronic infection by crayfish plague is unlikely to be an important factor impeding invasion success of the marbled crayfish, even under harsh conditions. Our results add to the growing body of evidence that marbled crayfish has potential to become one of the most successful freshwater invaders.

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Comparative transcriptome analysis of noble crayfish and marbled crayfish immune response to Aphanomyces astaci challenges

Cited by 3 publications

References 152 publications

Editorial: Conservation of European Freshwater Crayfish

Editorial: Conservation of European Freshwater Crayfish

Dataset of the de novo assembly and annotation of the marbled crayfish and the noble crayfish hepatopancreas transcriptomes

Recurring infection by crayfish plague pathogen only marginally affects survival and growth of marbled crayfish

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Comparative transcriptome analysis of noble crayfish and marbled crayfish immune response to Aphanomyces astaci challenges

Cited by 3 publications

References 152 publications

Editorial: Conservation of European Freshwater Crayfish

Editorial: Conservation of European Freshwater Crayfish

Dataset of the de novo assembly and annotation of the marbled crayfish and the noble crayfish hepatopancreas transcriptomes

﻿Recurring infection by crayfish plague pathogen only marginally affects survival and growth of marbled crayfish

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Recurring infection by crayfish plague pathogen only marginally affects survival and growth of marbled crayfish