selected publications
- Publisher Correction: Microbiota in inflammatory bowel disease: mechanisms of disease and therapeutic opportunities. 2025 GET IT
- Microbiota in inflammatory bowel disease: mechanisms of disease and therapeutic opportunities. Nature reviews. Microbiology. 2025 Review GET IT
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Fungal impacts on Earth's ecosystems.
Nature.
2025
Review
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Times cited: 5 - Fungal symbiont transmitted by free-living mice promotes type 2 immunity. Nature. 2024 Academic Article GET IT
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Colibactin-driven colon cancer requires adhesin-mediated epithelial binding.
Nature.
2024
Academic Article
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Times cited: 12 -
Focus on fungi.
Cell.
2024
Academic Article
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Times cited: 13 -
Recognition and control of neutrophil extracellular trap formation by MICL.
Nature.
2024
Academic Article
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Times cited: 19 - Microbiota metabolism of intestinal amino acids impacts host nutrient homeostasis and physiology. Cell host & microbe. 2024 Academic Article GET IT
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Fungi in cancer.
Nature reviews. Cancer.
2024
Academic Article
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Times cited: 7 - Fungal microbiota sustains lasting immune activation of neutrophils and their progenitors in severe COVID-19. Nature immunology. 2023 Academic Article GET IT
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Selection of cross-reactive T cells by commensal and food-derived yeasts drives cytotoxic TH1 cell responses in Crohn's disease.
Nature medicine.
2023
Academic Article
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Times cited: 30 -
Inflammatory ER stress responses dictate the immunopathogenic progression of systemic candidiasis.
The Journal of clinical investigation.
2023
Academic Article
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Times cited: 7 - Colibactin-induced genotoxicity and colorectal cancer exacerbation critically depends on adhesin-mediated epithelial binding. 2023 GET IT
- Gut epithelium modulates fungal pathogenesis. Science (New York, N.Y.). 2023 Academic Article GET IT
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Immunoglobulins at the interface of the gut mycobiota and anti-fungal immunity.
Seminars in immunology.
2023
Review
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Times cited: 10 - When IL-17 gets on your nerves. Cell. 2023 Academic Article GET IT
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The future of fungi: threats and opportunities.
G3 (Bethesda, Md.).
2022
Academic Article
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Times cited: 18 - A pan-cancer mycobiome analysis reveals fungal involvement in gastrointestinal and lung tumors. Cell. 2022 Academic Article GET IT
- Immune regulation by fungal strain diversity in inflammatory bowel disease. Nature. 2022 Academic Article GET IT
- Mucosal fungi promote gut barrier function and social behavior via Type 17 immunity. Cell. 2022 Academic Article GET IT
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Mycobiota-host immune interactions in IBD: coming out of the shadows.
Nature reviews. Gastroenterology & hepatology.
2022
Review
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Times cited: 25 - Mycobiota-induced IgA antibodies regulate fungal commensalism in the gut and are dysregulated in Crohn's disease. Nature microbiology. 2021 Academic Article GET IT
- Peritoneal Effluent Cell-Free DNA Sequencing in Peritoneal Dialysis Patients With and Without Peritonitis. Kidney medicine. 2021 Academic Article GET IT
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Voices of biotech research.
Nature biotechnology.
2021
Academic Article
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Times cited: 3 -
Human gut mycobiota tune immunity via CARD9-dependent induction of anti-fungal IgG antibodies.
Cell.
2021
Academic Article
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Times cited: 147 -
The cancer microbiome atlas: a pan-cancer comparative analysis to distinguish tissue-resident microbiota from contaminants.
Cell host & microbe.
2021
Academic Article
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Times cited: 135 -
Effects of Intestinal Fungi and Viruses on Immune Responses and Inflammatory Bowel Diseases.
Gastroenterology.
2020
Review
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Times cited: 97 -
Macrophages Maintain Epithelium Integrity by Limiting Fungal Product Absorption.
Cell.
2020
Academic Article
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Times cited: 89 - Editorial overview: Microbiota united-bacteria, fungi and host responses come into focus. Current opinion in microbiology. 2020 Editorial Article GET IT
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From Birth and Throughout Life: Fungal Microbiota in Nutrition and Metabolic Health.
Annual review of nutrition.
2020
Academic Article
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Times cited: 32 -
Fungal Trans-kingdom Dynamics Linked to Responsiveness to Fecal Microbiota Transplantation (FMT) Therapy in Ulcerative Colitis.
Cell host & microbe.
2020
Academic Article
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Times cited: 139 -
Gut mycobiota under scrutiny: fungal symbionts or environmental transients?.
Current opinion in microbiology.
2019
Review
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Times cited: 53 -
Modulation of the fungal mycobiome is regulated by the chitin-binding receptor FIBCD1.
The Journal of experimental medicine.
2019
Academic Article
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Times cited: 22 -
Laboratory mice born to wild mice have natural microbiota and model human immune responses.
Science (New York, N.Y.).
2019
Academic Article
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Times cited: 384 -
Gut Mycobiota in Immunity and Inflammatory Disease.
Immunity.
2019
Review
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Times cited: 183 -
Endocytosis of commensal antigens by intestinal epithelial cells regulates mucosal T cell homeostasis.
Science (New York, N.Y.).
2019
Academic Article
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Times cited: 141 -
Malassezia Is Associated with Crohn's Disease and Exacerbates Colitis in Mouse Models.
Cell host & microbe.
2019
Academic Article
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Times cited: 322 -
Profound mycobiome differences between segregated mouse colonies do not influence Th17 responses to a newly introduced gut fungal commensal.
Fungal genetics and biology : FG & B.
2019
Letter
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Times cited: 15 -
Response to Fungal Dysbiosis by Gut-Resident CX3CR1+ Mononuclear Phagocytes Aggravates Allergic Airway Disease.
Cell host & microbe.
2018
Comment
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Times cited: 99 -
Macrophage interactions with fungi and bacteria in inflammatory bowel disease.
Current opinion in gastroenterology.
2018
Review
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Times cited: 26 -
Anti-α4β7 therapy targets lymphoid aggregates in the gastrointestinal tract of HIV-1-infected individuals.
Science translational medicine.
2018
Academic Article
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Times cited: 63 -
Sensing Microbial Viability through Bacterial RNA Augments T Follicular Helper Cell and Antibody Responses.
Immunity.
2018
Academic Article
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Times cited: 63 -
CX3CR1+ mononuclear phagocytes control immunity to intestinal fungi.
Science (New York, N.Y.).
2018
Academic Article
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Times cited: 234 -
Candidalysin sets off the innate alarm.
Science immunology.
2017
Comment
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Times cited: 10 -
Regulation of inflammation by microbiota interactions with the host.
Nature immunology.
2017
Review
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Times cited: 503 -
Fungal dysbiosis: immunity and interactions at mucosal barriers.
Nature reviews. Immunology.
2017
Review
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Times cited: 296 -
Immunity against fungi.
JCI insight.
2017
Review
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Times cited: 115 -
Single Delivery of High-Diversity Fecal Microbiota Preparation by Colonoscopy Is Safe and Effective in Increasing Microbial Diversity in Active Ulcerative Colitis.
Inflammatory bowel diseases.
2017
Academic Article
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Times cited: 101 -
Immunological Consequences of Intestinal Fungal Dysbiosis.
Cell host & microbe.
2016
Academic Article
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Times cited: 343 -
Poorly Cross-Linked Peptidoglycan in MRSA Due to mecA Induction Activates the Inflammasome and Exacerbates Immunopathology.
Cell host & microbe.
2015
Academic Article
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Times cited: 63 -
Dectin-1 Exerts Dual Control in the Gut.
Cell host & microbe.
2015
Comment
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Times cited: 15 -
The development of innate lymphoid cells requires TOX-dependent generation of a common innate lymphoid cell progenitor.
Nature immunology.
2015
Academic Article
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Times cited: 146 -
Characterization of Bacterial and Fungal Microbiome in Children with Hirschsprung Disease with and without a History of Enterocolitis: A Multicenter Study.
PloS one.
2015
Academic Article
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Times cited: 103 -
Mycobiome: Approaches to analysis of intestinal fungi.
Journal of immunological methods.
2015
Academic Article
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Times cited: 132 -
The mycobiota: interactions between commensal fungi and the host immune system.
Nature reviews. Immunology.
2014
Review
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Times cited: 542 -
Striking a balance: fungal commensalism versus pathogenesis.
Current opinion in microbiology.
2013
Review
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Times cited: 59 -
Interactions between commensal fungi and the C-type lectin receptor Dectin-1 influence colitis.
Science (New York, N.Y.).
2012
Academic Article
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Times cited: 875 -
Dendritic cells produce TSLP that limits the differentiation of Th17 cells, fosters Treg development, and protects against colitis.
Mucosal immunology.
2012
Academic Article
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Times cited: 90 -
Gut CD103+ dendritic cells express indoleamine 2,3-dioxygenase which influences T regulatory/T effector cell balance and oral tolerance induction.
Gut.
2010
Academic Article
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Times cited: 305 -
Inactivation of junctional adhesion molecule-A enhances antitumoral immune response by promoting dendritic cell and T lymphocyte infiltration.
Cancer research.
2010
Academic Article
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Times cited: 26 -
Interleukin-23: linking mesenteric lymph node dendritic cells with Th1 immunity in Crohn's disease.
Gastroenterology.
2009
Editorial Article
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Times cited: 2 -
Comparison of the immunomodulatory properties of three probiotic strains of Lactobacilli using complex culture systems: prediction for in vivo efficacy.
PloS one.
2009
Academic Article
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Times cited: 240 -
Human intestinal epithelial cells promote the differentiation of tolerogenic dendritic cells.
Gut.
2009
Academic Article
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Times cited: 326 -
Intestinal epithelial cells promote colitis-protective regulatory T-cell differentiation through dendritic cell conditioning.
Mucosal immunology.
2009
Academic Article
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Times cited: 291 -
Immunostimulatory oligodeoxynucleotide containing TTTCGTTT motif from Lactobacillus rhamnosus GG DNA potentially suppresses OVA-specific IgE production in mice.
Scandinavian journal of immunology.
2008
Academic Article
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Times cited: 49 -
The yin and yang of intestinal epithelial cells in controlling dendritic cell function.
The Journal of experimental medicine.
2007
Academic Article
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Times cited: 78 -
Strong immunostimulatory activity of AT-oligodeoxynucleotide requires a six-base loop with a self-stabilized 5'-C...G-3' stem structure.
Cellular microbiology.
2006
Academic Article
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Times cited: 43 -
Toll-like receptor 2 is expressed on the intestinal M cells in swine.
Biochemical and biophysical research communications.
2005
Academic Article
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Times cited: 66 -
Strong immunostimulation in murine immune cells by Lactobacillus rhamnosus GG DNA containing novel oligodeoxynucleotide pattern.
Cellular microbiology.
2005
Academic Article
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Times cited: 79 -
Augmentation of T(H)-1 type response by immunoactive AT oligonucleotide from lactic acid bacteria via Toll-like receptor 9 signaling.
Biochemical and biophysical research communications.
2005
Academic Article
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Times cited: 62
