Host genome drives the microbiota enrichment of beneficial microbes in shrimp: exploring the hologenome perspective

Host genome drives the microbiota enrichment of beneficial microbes in shrimp: exploring the hologenome perspective

Abstract Background Pacific Whiteleg shrimp (Litopenaeus vannamei) is an important model for breeding programs to improve global aquaculture productivity. However, the interaction between host genetics and microbiota in enhancing productivity remains poorly understood. We investigated the effect of...

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Main Authors: Fernanda Cornejo-Granados, Luigui Gallardo-Becerra, Sandra Romero-Hidalgo, Alonso A. Lopez-Zavala, Andrés Cota-Huízar, Melany Cervantes-Echeverría, Rogerio R. Sotelo-Mundo, Adrian Ochoa-Leyva
Format: Article
Language:English
Published: BMC 2025-05-01
Series:Animal Microbiome
Subjects:
Microbiota-host interactions
Microbiome
Metagenomics
Breeding
Genetic line
Online Access:https://doi.org/10.1186/s42523-025-00414-y
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Summary:Abstract Background Pacific Whiteleg shrimp (Litopenaeus vannamei) is an important model for breeding programs to improve global aquaculture productivity. However, the interaction between host genetics and microbiota in enhancing productivity remains poorly understood. We investigated the effect of two shrimp genetic lines, Fast-Growth (Gen1) and Disease-Resistant (Gen2), on the microbiota of L. vannamei. Results Using genome-wide SNP microarray analysis, we confirmed that Gen1 and Gen2 represented distinct genetic populations. After confirming that the rearing pond did not significantly influence the microbiota composition, we determined that genetic differences explained 15.8% of the microbiota variability, with a stronger selective pressure in the hepatopancreas than in the intestine. Gen1, which exhibited better farm productivity, fostered a microbiota with greater richness, diversity, and resilience than Gen2, along with a higher abundance of beneficial microbes. Further, we demonstrated that a higher abundance of beneficial microbes was associated with healthier shrimp vs. diseased specimens, suggesting that Gen1 could improve shrimp's health and productivity by promoting beneficial microbes. Finally, we determined that the microbiota of both genetic lines was significantly different from their wild-type counterparts, suggesting farm environments and selective breeding programs strongly alter the natural microbiome. Conclusions This study highlights the importance of exploring the hologenome perspective, where integrating host genetics and microbiome composition can enhance breeding programs and farming practices.
ISSN:2524-4671

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