TY - JOUR
T1 - Structural variation in the gut microbiome associates with host health
AU - Korem, Tal
AU - Godneva, Anastasia
AU - Bar, Noam
AU - Kurilshikov, Alexander
AU - Lotan-Pompan, Maya
AU - Weinberger, Adina
AU - Fu, Jingyuan
AU - Wijmenga, Cisca
AU - Zhernakova, Alexandra
AU - Segal, Eran
N1 - We thank members of the Segal group and the Center for Studies in Physics and Biology for discussions. E.S. is supported by grants from the European Research Council and the Israel Science Foundation. D.Z. is supported by the James S. McDonnell Foundation and the Dan David Prize Scholarship. D.Z. and T.K. were partly supported by the Israeli Ministry of Science and Technology. Lifelines DEEP was funded by: ERC-2012-322698 and NWO-SPI-92-266 to C.W.; ERC-715772 and NWO-178.056 to A.Z.; NWO-864.13.013 and CVON-2012-03 to J.F.
PY - 2019/4/4
Y1 - 2019/4/4
N2 - Differences in the presence of even a few genes between otherwise identical bacterial strains may result in critical phenotypic differences. Here we systematically identify microbial genomic structural variants (SVs) and find them to be prevalent in the human gut microbiome across phyla and to replicate in different cohorts. SVs are enriched for CRISPR-associated and antibiotic-producing functions and depleted from housekeeping genes, suggesting that they have a role in microbial adaptation. We find multiple associations between SVs and host disease risk factors, many of which replicate in an independent cohort. Exploring genes that are clustered in the same SV, we uncover several possible mechanistic links between the microbiome and its host, including a region in Anaerostipes hadrus that encodes a composite inositol catabolism-butyrate biosynthesis pathway, the presence of which is associated with lower host metabolic disease risk. Overall, our results uncover a nascent layer of variability in the microbiome that is associated with microbial adaptation and host health.
AB - Differences in the presence of even a few genes between otherwise identical bacterial strains may result in critical phenotypic differences. Here we systematically identify microbial genomic structural variants (SVs) and find them to be prevalent in the human gut microbiome across phyla and to replicate in different cohorts. SVs are enriched for CRISPR-associated and antibiotic-producing functions and depleted from housekeeping genes, suggesting that they have a role in microbial adaptation. We find multiple associations between SVs and host disease risk factors, many of which replicate in an independent cohort. Exploring genes that are clustered in the same SV, we uncover several possible mechanistic links between the microbiome and its host, including a region in Anaerostipes hadrus that encodes a composite inositol catabolism-butyrate biosynthesis pathway, the presence of which is associated with lower host metabolic disease risk. Overall, our results uncover a nascent layer of variability in the microbiome that is associated with microbial adaptation and host health.
UR - http://www.scopus.com/inward/record.url?scp=85063619329&partnerID=8YFLogxK
U2 - https://doi.org/10.1038/s41586-019-1065-y
DO - https://doi.org/10.1038/s41586-019-1065-y
M3 - مقالة
SN - 0028-0836
VL - 568
SP - 43
EP - 48
JO - Nature
JF - Nature
IS - 7750
ER -