TY - JOUR
T1 - Unexplored microbial diversity from 2,500 food metagenomes and links with the human microbiome
AU - MASTER EU Consortium
AU - Carlino, Niccolò
AU - Blanco-Míguez, Aitor
AU - Punčochář, Michal
AU - Mengoni, Claudia
AU - Pinto, Federica
AU - Tatti, Alessia
AU - Manghi, Paolo
AU - Armanini, Federica
AU - Avagliano, Michele
AU - Barcenilla, Coral
AU - Breselge, Samuel
AU - Cabrera-Rubio, Raul
AU - Calvete-Torre, Inés
AU - Coakley, Mairéad
AU - Cobo-Díaz, José F.
AU - De Filippis, Francesca
AU - Dey, Hrituraj
AU - Leech, John
AU - Klaassens, Eline S.
AU - Knobloch, Stephen
AU - O'Neil, Dominic
AU - Quijada, Narciso M.
AU - Sabater, Carlos
AU - Skírnisdóttir, Sigurlaug
AU - Valentino, Vincenzo
AU - Walsh, Liam
AU - Alvarez-Ordóñez, Avelino
AU - Alvarez, Pablo
AU - Antonielli, Livio
AU - Arendt, Elke
AU - Aubry, Aurelie
AU - Baelum, Jacob
AU - Belanche, Alejandro
AU - Benavent-Gil, Yaiza
AU - Blake, Tony
AU - Bongoni, Radhika
AU - Boyer, Mickael
AU - Brennan, Fiona
AU - Briem, Helgi
AU - Butler, Derek
AU - Carballo, Omar Cristobal
AU - Cardinal, Mireille
AU - Chervaux, Christian
AU - Chopin, Christine
AU - Clotaire, Natallia
AU - Coakley, Mairead
AU - Ikoyi, Israel
AU - Nyhan, Laura
AU - O'Toole, Paul
AU - Zannini, Emanuele
N1 - Publisher Copyright:
© 2024 The Author(s)
PY - 2024/10/3
Y1 - 2024/10/3
N2 - Complex microbiomes are part of the food we eat and influence our own microbiome, but their diversity remains largely unexplored. Here, we generated the open access curatedFoodMetagenomicData (cFMD) resource by integrating 1,950 newly sequenced and 583 public food metagenomes. We produced 10,899 metagenome-assembled genomes spanning 1,036 prokaryotic and 108 eukaryotic species-level genome bins (SGBs), including 320 previously undescribed taxa. Food SGBs displayed significant microbial diversity within and between food categories. Extension to >20,000 human metagenomes revealed that food SGBs accounted on average for 3% of the adult gut microbiome. Strain-level analysis highlighted potential instances of food-to-gut transmission and intestinal colonization (e.g., Lacticaseibacillus paracasei) as well as SGBs with divergent genomic structures in food and humans (e.g., Streptococcus gallolyticus and Limosilactobabillus mucosae). The cFMD expands our knowledge on food microbiomes, their role in shaping the human microbiome, and supports future uses of metagenomics for food quality, safety, and authentication.
AB - Complex microbiomes are part of the food we eat and influence our own microbiome, but their diversity remains largely unexplored. Here, we generated the open access curatedFoodMetagenomicData (cFMD) resource by integrating 1,950 newly sequenced and 583 public food metagenomes. We produced 10,899 metagenome-assembled genomes spanning 1,036 prokaryotic and 108 eukaryotic species-level genome bins (SGBs), including 320 previously undescribed taxa. Food SGBs displayed significant microbial diversity within and between food categories. Extension to >20,000 human metagenomes revealed that food SGBs accounted on average for 3% of the adult gut microbiome. Strain-level analysis highlighted potential instances of food-to-gut transmission and intestinal colonization (e.g., Lacticaseibacillus paracasei) as well as SGBs with divergent genomic structures in food and humans (e.g., Streptococcus gallolyticus and Limosilactobabillus mucosae). The cFMD expands our knowledge on food microbiomes, their role in shaping the human microbiome, and supports future uses of metagenomics for food quality, safety, and authentication.
KW - food
KW - food microbiome
KW - human microbiome
KW - large-scale microbiome analysis
KW - metagenomic assembly
KW - metagenomics
KW - strain-level genomics
KW - unexplored microbial diversity
UR - https://www.scopus.com/pages/publications/85204442573
U2 - 10.1016/j.cell.2024.07.039
DO - 10.1016/j.cell.2024.07.039
M3 - Article
C2 - 39214080
AN - SCOPUS:85204442573
SN - 0092-8674
VL - 187
SP - 5775-5795.e15
JO - Cell
JF - Cell
IS - 20
ER -