| scholarly article | Q13442814 |
| P50 | author | Justin L. Sonnenburg | Q88792770 |
| P2093 | author name string | Donna M Bouley | |
| Jared Honeycutt | |||
| Denise Monack | |||
| Kerwyn Casey Huang | |||
| Mark Smith | |||
| Amanda Jacobson | |||
| Trung Pham | |||
| Will Van Treuren | |||
| Ami S Bhatt | |||
| Jose G Vilches-Moure | |||
| Kali Pruss | |||
| Kyler Lugo | |||
| Manohary Rajendram | |||
| Lilian Lam | |||
| Fiona Tamburini | |||
| Stephen Russell Stabler | |||
| P2860 | cites work | Angiogenins: a new class of microbicidal proteins involved in innate immunity | Q24293270 |
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| Search and clustering orders of magnitude faster than BLAST | Q29547431 | ||
| An improved Greengenes taxonomy with explicit ranks for ecological and evolutionary analyses of bacteria and archaea | Q29617497 | ||
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| Impact of training sets on classification of high-throughput bacterial 16s rRNA gene surveys | Q33946340 | ||
| Mouse background strain profoundly influences Paneth cell function and intestinal microbial composition | Q34182663 | ||
| The role of short-chain fatty acids in the interplay between diet, gut microbiota, and host energy metabolism | Q34355154 | ||
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| A Comprehensive, CRISPR-based Functional Analysis of Essential Genes in Bacteria | Q34528722 | ||
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| Pretreatment of mice with streptomycin provides a Salmonella enterica serovar Typhimurium colitis model that allows analysis of both pathogen and host | Q34935646 | ||
| Diet dominates host genotype in shaping the murine gut microbiota | Q34978394 | ||
| Perspectives on the use of organic acids and short chain fatty acids as antimicrobials | Q35113085 | ||
| Impact of diet and individual variation on intestinal microbiota composition and fermentation products in obese men | Q35157012 | ||
| Precision microbiome reconstitution restores bile acid mediated resistance to Clostridium difficile. | Q35163017 | ||
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| Plasmid virulence gene expression induced by short-chain fatty acids in Salmonella dublin: identification of rpoS-dependent and rpo-S-independent mechanisms | Q35620234 | ||
| Dietary Fiber-Induced Improvement in Glucose Metabolism Is Associated with Increased Abundance of Prevotella | Q35836284 | ||
| Depletion of Butyrate-Producing Clostridia from the Gut Microbiota Drives an Aerobic Luminal Expansion of Salmonella | Q35989778 | ||
| A Dietary Fiber-Deprived Gut Microbiota Degrades the Colonic Mucus Barrier and Enhances Pathogen Susceptibility | Q36198073 | ||
| Respiration of Microbiota-Derived 1,2-propanediol Drives Salmonella Expansion during Colitis. | Q36240466 | ||
| Rapid, precise quantification of bacterial cellular dimensions across a genomic-scale knockout library. | Q36286837 | ||
| Effects of targeted delivery of propionate to the human colon on appetite regulation, body weight maintenance and adiposity in overweight adults | Q36374810 | ||
| Salmonella typhimurium persists within macrophages in the mesenteric lymph nodes of chronically infected Nramp1+/+ mice and can be reactivated by IFNgamma neutralization | Q36399044 | ||
| Host transmission of Salmonella enterica serovar Typhimurium is controlled by virulence factors and indigenous intestinal microbiota | Q36422042 | ||
| T cells help to amplify inflammatory responses induced by Salmonella enterica serotype Typhimurium in the intestinal mucosa. | Q36594054 | ||
| The intestinal fatty acid propionate inhibits Salmonella invasion through the post-translational control of HilD | Q36636799 | ||
| Formate acts as a diffusible signal to induce Salmonella invasion | Q36747272 | ||
| Probiotic bacteria reduce salmonella typhimurium intestinal colonization by competing for iron | Q37118020 | ||
| Salmonella enterica causes more severe inflammatory disease in C57/BL6 Nramp1G169 mice than Sv129S6 mice | Q37161148 | ||
| TLR-7 activation enhances IL-22-mediated colonization resistance against vancomycin-resistant enterococcus. | Q37190661 | ||
| Salmonella Typhimurium utilizes a T6SS-mediated antibacterial weapon to establish in the host gut | Q37213819 | ||
| Microcins mediate competition among Enterobacteriaceae in the inflamed gut. | Q37486385 | ||
| Paneth cells, antimicrobial peptides and maintenance of intestinal homeostasis | Q37855523 | ||
| The Bactericidal Lectin RegIIIβ Prolongs Gut Colonization and Enteropathy in the Streptomycin Mouse Model for Salmonella Diarrhea | Q40362508 | ||
| Genome-guided design of a defined mouse microbiota that confers colonization resistance against Salmonella enterica serovar Typhimurium | Q40442598 | ||
| IFN-γ Hinders Recovery from Mucosal Inflammation during Antibiotic Therapy for Salmonella Gut Infection | Q40601365 | ||
| Acidic pH sensing in the bacterial cytoplasm is required for Salmonella virulence | Q41042251 | ||
| Natural resistance to Salmonella typhimurium in different inbred mouse strains | Q41079990 | ||
| Butyrate modulates bacterial adherence on LS174T human colorectal cells by stimulating mucin secretion and MAPK signaling pathway | Q41927515 | ||
| Butyrate enhances the intestinal barrier by facilitating tight junction assembly via activation of AMP-activated protein kinase in Caco-2 cell monolayers. | Q43067512 | ||
| Invasion of Salmonella enteritidis in avian intestinal epithelial cells in vitro is influenced by short-chain fatty acids | Q44523957 | ||
| Effect of short-chain fatty acids on the growth of Salmonella typhimurium in an in vitro system. | Q44785729 | ||
| The Salmonella pathogenicity island (SPI)-2 and SPI-1 type III secretion systems allow Salmonella serovar typhimurium to trigger colitis via MyD88-dependent and MyD88-independent mechanisms. | Q45232038 | ||
| Association between prior antibiotic therapy and subsequent risk of community-acquired infections: a systematic review. | Q47708451 | ||
| Energy conservation in the decarboxylation of dicarboxylic acids by fermenting bacteria | Q47768451 | ||
| An Oxidative Central Metabolism Enables Salmonella to Utilize Microbiota-Derived Succinate. | Q49943064 | ||
| Antimicrobial peptide-based array for Escherichia coli and Salmonella screening | Q50069137 | ||
| Identification of a new prp locus required for propionate catabolism in Salmonella typhimurium LT2. | Q50139467 | ||
| P433 | issue | 2 | |
| P304 | page(s) | 296-307.e7 | |
| P577 | publication date | 2018-07-26 | |
| P1433 | published in | Cell Host & Microbe | Q5058153 |
| P1476 | title | A Gut Commensal-Produced Metabolite Mediates Colonization Resistance to Salmonella Infection | |
| P478 | volume | 24 |
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