Fungi of the human gut microbiota: Roles and significance

High-resolution mycobiota analysis reveals dynamic intestinal translocation preceding invasive candidiasis

(2020) Bing Zhai et al.   NATURE MEDICINE

Intestinal fungi are causally implicated in microbiome assembly and immune development in mice

(2020) Erik van Tilburg Bernardes et al.   Nature Communications

Spatially distinct physiology of Bacteroides fragilis within the proximal colon of gnotobiotic mice

(2020) Gregory P. Donaldson et al.   Nature Microbiology

Paradoxical gastrointestinal effects of interleukin-17 blockers

(2020) Marine Fauny et al.   ANNALS OF THE RHEUMATIC DISEASES

Gut Bacteria Shape Intestinal Microhabitats Occupied by the Fungus Candida albicans

(2020) Marie-Therese Eckstein et al.   CURRENT BIOLOGY

Diversification of DNA binding specificities enabled SREBP transcription regulators to expand the repertoire of cellular functions that they govern in fungi

(2019) Valentina del Olmo Toledo et al.   PLoS Genetics

Commensal Candida albicans Positively Calibrates Systemic Th17 Immunological Responses

(2019) Tzu-Yu Shao et al.   Cell Host & Microbe

Candida albicans Morphogenesis Programs Control the Balance between Gut Commensalism and Invasive Infection

(2019) Jessica N. Witchley et al.   Cell Host & Microbe

Human Anti-fungal Th17 Immunity and Pathology Rely on Cross-Reactivity against Candida albicans

(2019) Petra Bacher et al.   CELL

Microbial genes and pathways in inflammatory bowel disease

(2019) Melanie Schirmer et al.   NATURE REVIEWS MICROBIOLOGY

Gut mycobiota under scrutiny: fungal symbionts or environmental transients?

(2019) William D Fiers et al.   CURRENT OPINION IN MICROBIOLOGY

Candida albicans dwelling in the mammalian gut

(2019) J Christian Pérez   CURRENT OPINION IN MICROBIOLOGY

Identification of Candida albicans regulatory genes governing mucosal infection

(2018) Juliane Meir et al.   CELLULAR MICROBIOLOGY

Third-generationin situhybridization chain reaction: multiplexed, quantitative, sensitive, versatile, robust

(2018) Harry M. T. Choi et al.   DEVELOPMENT

CX3CR1+mononuclear phagocytes control immunity to intestinal fungi

(2018) Irina Leonardi et al.   SCIENCE

Gut fungal dysbiosis correlates with reduced efficacy of fecal microbiota transplantation in Clostridium difficile infection

(2018) Tao Zuo et al.   Nature Communications

Enterobacteriaceae are essential for the modulation of colitis severity by fungi

(2018) Bruno Sovran et al.   Microbiome

Experimental evolution of a fungal pathogen into a gut symbiont

(2018) Gloria Hoi Wan Tso et al.   SCIENCE

Evolving a pathogen to be protective

(2018) Christophe d'Enfert   SCIENCE

Associations between infant fungal and bacterial dysbiosis and childhood atopic wheeze in a nonindustrialized setting

(2017) Marie-Claire Arrieta et al.   JOURNAL OF ALLERGY AND CLINICAL IMMUNOLOGY

Microbe Profile: Candida albicans: a shape-changing, opportunistic pathogenic fungus of humans

(2017) Neil A. R. Gow et al.   MICROBIOLOGY-SGM

The yeast form of the fungus Candida albicans promotes persistence in the gut of gnotobiotic mice

(2017) Lena Böhm et al.   PLoS Pathogens

The gut mycobiome of the Human Microbiome Project healthy cohort

(2017) Andrea K. Nash et al.   Microbiome

Immunological Consequences of Intestinal Fungal Dysbiosis

(2016) Matthew L. Wheeler et al.   Cell Host & Microbe

The microbiota in adaptive immune homeostasis and disease

(2016) Kenya Honda et al.   NATURE

Neonatal gut microbiota associates with childhood multisensitized atopy and T cell differentiation

(2016) Kei E Fujimura et al.   NATURE MEDICINE

Candida albicans cell-type switching and functional plasticity in the mammalian host

(2016) Suzanne M. Noble et al.   NATURE REVIEWS MICROBIOLOGY

Trained immunity: A program of innate immune memory in health and disease

(2016) M. G. Netea et al.   SCIENCE

Budding off: bringing functional genomics toCandida albicans

(2015) Matthew Z. Anderson et al.   Briefings in Functional Genomics

Fungi inhabiting the healthy human gastrointestinal tract: a diverse and dynamic community

(2015) Heather E. Hallen-Adams et al.   Fungal Ecology

Activation of HIF-1α and LL-37 by commensal bacteria inhibits Candida albicans colonization

(2015) Di Fan et al.   NATURE MEDICINE

The outer mucus layer hosts a distinct intestinal microbial niche

(2015) Hai Li et al.   Nature Communications

Candida albicanscolonization and dissemination from the murine gastrointestinal tract: the influence of morphology and Th17 immunity

(2014) Simon Vautier et al.   CELLULAR MICROBIOLOGY

mTOR- and HIF-1 -mediated aerobic glycolysis as metabolic basis for trained immunity

(2014) S.-C. Cheng et al.   SCIENCE

Epidemiology and risk factors for invasive candidiasis

(2014) Nur Yapar   Therapeutics and Clinical Risk Management

Disruption of the gut microbiome as a risk factor for microbial infections

(2013) Arya Khosravi et al.   CURRENT OPINION IN MICROBIOLOGY

Passage through the mammalian gut triggers a phenotypic switch that promotes Candida albicans commensalism

(2013) Kalyan Pande et al.   NATURE GENETICS

Archaea and Fungi of the Human Gut Microbiome: Correlations with Diet and Bacterial Residents

(2013) Christian Hoffmann et al.   PLoS One

Modulation of Post-Antibiotic Bacterial Community Reassembly and Host Response by Candida albicans

(2013) John R. Erb Downward et al.   Scientific Reports

Candida albicans Commensalism and Pathogenicity Are Intertwined Traits Directed by a Tightly Knit Transcriptional Regulatory Circuit

(2013) J. Christian Pérez et al.   PLOS BIOLOGY

Regulatory Circuits That Enable Proliferation of the Fungus Candida albicans in a Mammalian Host

(2013) J. Christian Pérez et al.   PLoS Pathogens

A Recently Evolved Transcriptional Network Controls Biofilm Development in Candida albicans

(2012) Clarissa J. Nobile et al.   CELL

Normal Adaptation of Candida albicans to the Murine Gastrointestinal Tract Requires Efg1p-Dependent Regulation of Metabolic and Host Defense Genes

(2012) Jessica V. Pierce et al.   EUKARYOTIC CELL

Interactions Between Commensal Fungi and the C-Type Lectin Receptor Dectin-1 Influence Colitis

(2012) I. D. Iliev et al.   SCIENCE

Variation in Candida albicans EFG1 Expression Enables Host-Dependent Changes in Colonizing Fungal Populations

(2012) J. V. Pierce et al.   mBio

Portrait of Candida albicans Adherence Regulators

(2012) Jonathan S. Finkel et al.   PLoS Pathogens

Interplay between the Gastric Bacterial Microbiota and Candida albicans during Postantibiotic Recolonization and Gastritis

(2011) Katie L. Mason et al.   INFECTION AND IMMUNITY

Candida albicans morphogenesis and host defence: discriminating invasion from colonization

(2011) Neil A. R. Gow et al.   NATURE REVIEWS MICROBIOLOGY

A Biphasic Innate Immune MAPK Response Discriminates between the Yeast and Hyphal Forms of Candida albicans in Epithelial Cells

(2010) David L. Moyes et al.   Cell Host & Microbe

Adaptations of Candida albicans for Growth in the Mammalian Intestinal Tract

(2010) Ari Rosenbach et al.   EUKARYOTIC CELL

Mannan-binding lectin deficiency results in unusual antibody production and excessive experimental colitis in response to mannose-expressing mild gut pathogens

(2010) S. Muller et al.   GUT

Systematic screens of a Candida albicans homozygous deletion library decouple morphogenetic switching and pathogenicity

(2010) Suzanne M Noble et al.   NATURE GENETICS

Characterization of the Oral Fungal Microbiome (Mycobiome) in Healthy Individuals

(2010) Mahmoud A. Ghannoum et al.   PLoS Pathogens

An Extensive Circuitry for Cell Wall Regulation in Candida albicans

(2010) Jill R. Blankenship et al.   PLoS Pathogens

Colonization of Mice byCandida albicansIs Promoted by Chemically Induced Colitis and Augments Inflammatory Responses through Galectin‐3

(2008) Samir Jawhara et al.   JOURNAL OF INFECTIOUS DISEASES

Differential Phagocytosis of White versus Opaque Candida albicans by Drosophila and Mouse Phagocytes

(2008) Matthew B. Lohse et al.   PLoS One

Mucosal Damage and Neutropenia Are Required for Candida albicans Dissemination

(2008) Andrew Y. Koh et al.   PLoS Pathogens