| scholarly article | Q13442814 |
| P50 | author | Maria Vega Flores | Q117259804 |
| Kathryn Crosier | Q117259799 | ||
| Chris J Hall | Q62554929 | ||
| Philip Crosier | Q115705111 | ||
| Stefan H Oehlers | Q44004389 | ||
| P2860 | cites work | Isotretinoin use and the risk of inflammatory bowel disease: a case-control study | Q24621195 |
| Intestinal alkaline phosphatase detoxifies lipopolysaccharide and prevents inflammation in zebrafish in response to the gut microbiota | Q24648039 | ||
| Live imaging of innate immune cell sensing of transformed cells in zebrafish larvae: parallels between tumor initiation and wound inflammation | Q27322639 | ||
| Aberrant mucin assembly in mice causes endoplasmic reticulum stress and spontaneous inflammation resembling ulcerative colitis | Q28472412 | ||
| Characterization of the mononuclear phagocyte system in zebrafish. | Q50524963 | ||
| [Changes in the rat intestinal mucosa in hypervitaminosis A] | Q50922547 | ||
| Suppression of hath1 gene expression directly regulated by hes1 via notch signaling is associated with goblet cell depletion in ulcerative colitis. | Q51545417 | ||
| Differences in goblet cell differentiation between Crohn's disease and ulcerative colitis. | Q51771968 | ||
| Topographical distribution of antimicrobial genes in the zebrafish intestine. | Q54400959 | ||
| Expression of zebrafish cxcl8 (interleukin-8) and its receptors during development and in response to immune stimulation. | Q54452847 | ||
| Development and maturation of the immune system in zebrafish, Danio rerio: a gene expression profiling, in situ hybridization and immunological study. | Q54756091 | ||
| Imaging of nitric oxide in a living vertebrate using a diaminofluorescein probe | Q57220156 | ||
| Differential diagnosis of Crohn's disease of the colon from ulcerative colitis: ultrastructure study with the scanning electron microscope | Q70016722 | ||
| CD4+Foxp3+ regulatory T cell expansion induced by antigen-driven interaction with intestinal epithelial cells independent of local dendritic cells | Q82192899 | ||
| A chemical enterocolitis model in zebrafish larvae that is dependent on microbiota and responsive to pharmacological agents | Q83014456 | ||
| Isotretinoin therapy and inflammatory bowel disease | Q84401767 | ||
| Kita driven expression of oncogenic HRAS leads to early onset and highly penetrant melanoma in zebrafish | Q28476492 | ||
| Microbial colonization induces dynamic temporal and spatial patterns of NF-κB activation in the zebrafish digestive tract | Q28740862 | ||
| Inflammatory bowel disease | Q29615500 | ||
| High-resolution in situ hybridization to whole-mount zebrafish embryos | Q29617529 | ||
| The zebrafish lysozyme C promoter drives myeloid-specific expression in transgenic fish | Q30479482 | ||
| A high-throughput chemically induced inflammation assay in zebrafish | Q30497926 | ||
| Live cell imaging of zebrafish leukocytes | Q33432098 | ||
| Mucosal bacterial microflora and mucus layer thickness in adolescents with inflammatory bowel disease | Q33515830 | ||
| Identification of dendritic antigen-presenting cells in the zebrafish. | Q34115751 | ||
| Distinct signals from the microbiota promote different aspects of zebrafish gut differentiation | Q34539345 | ||
| An intestinal epithelial defect conferring ER stress results in inflammation involving both innate and adaptive immunity. | Q35087828 | ||
| Fusobacterium nucleatum infection of colonic cells stimulates MUC2 mucin and tumor necrosis factor alpha | Q35328976 | ||
| The inflammatory bowel disease (IBD) susceptibility genes NOD1 and NOD2 have conserved anti-bacterial roles in zebrafish | Q35532368 | ||
| Methods for generating and colonizing gnotobiotic zebrafish | Q37001313 | ||
| In vivo imaging of zebrafish digestive organ function using multiple quenched fluorescent reporters. | Q37100266 | ||
| Gut homing receptors on CD8 T cells are retinoic acid dependent and not maintained by liver dendritic or stellate cells. | Q38831737 | ||
| Carboxypeptidase A5 identifies a novel mast cell lineage in the zebrafish providing new insight into mast cell fate determination | Q40069514 | ||
| Retinoic acid-induced glandular differentiation of the oesophagus. | Q41393923 | ||
| Dextran sodium sulfate inhibition of real-time polymerase chain reaction amplification: a poly-A purification solution | Q42140281 | ||
| Effects of water-borne cadmium on the skin of the common carp (Cyprinus carpio). | Q42500031 | ||
| Chemically induced mouse models of intestinal inflammation | Q42510602 | ||
| Discovery of zebrafish (Danio rerio) interleukin-23 alpha (IL-23α) chain, a subunit important for the formation of IL-23, a cytokine involved in the development of Th17 cells and inflammation | Q42690658 | ||
| In vivo analysis of gut function and disease changes in a zebrafish larvae model of inflammatory bowel disease: a feasibility study | Q43175881 | ||
| Oxazolone-induced enterocolitis in zebrafish depends on the composition of the intestinal microbiota. | Q43288046 | ||
| Histology‐based screen for zebrafish mutants with abnormal cell differentiation | Q44632594 | ||
| Colonic expression of MUC2, MUC5AC, and TFF1 in inflammatory bowel disease in children | Q44851505 | ||
| Adenomatous polyposis coli control of retinoic acid biosynthesis is critical for zebrafish intestinal development and differentiation | Q45052867 | ||
| Intestinal epithelial cells promote colitis-protective regulatory T-cell differentiation through dendritic cell conditioning. | Q46040098 | ||
| Intestinal differentiation in zebrafish requires Cdx1b, a functional equivalent of mammalian Cdx2. | Q46357123 | ||
| The effect of retinoic acid and deoxycholic acid on the differentiation of primary human esophageal keratinocytes. | Q46680892 | ||
| Resistin-like molecule beta regulates intestinal mucous secretion and curtails TNBS-induced colitis in mice | Q46733337 | ||
| Eradication of small intestinal bacterial overgrowth in the cystic fibrosis mouse reduces mucus accumulation | Q46872811 | ||
| Solving an enigma: arterial pole development in the zebrafish heart | Q46889055 | ||
| Secreted enteric antimicrobial activity localises to the mucus surface layer | Q50064395 | ||
| P275 | copyright license | Creative Commons Attribution 2.0 Generic | Q19125117 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 4 | |
| P921 | main subject | tretinoin | Q29417 |
| P304 | page(s) | 457-467 | |
| P577 | publication date | 2012-04-19 | |
| P1433 | published in | Disease Models & Mechanisms | Q1524006 |
| P1476 | title | Retinoic acid suppresses intestinal mucus production and exacerbates experimental enterocolitis | |
| P478 | volume | 5 |
| Q38292601 | A toolbox to study epidermal cell types in zebrafish. |
| Q48198039 | A whole animal chemical screen approach to identify modifiers of intestinal neutrophilic inflammation |
| Q36175340 | A zebrafish model of inflammatory lymphangiogenesis |
| Q28295293 | Acne vulgaris, probiotics and the gut-brain-skin axis: from anecdote to translational medicine |
| Q26777430 | Animal models to study acute and chronic intestinal inflammation in mammals |
| Q33627796 | Application of Zebrafish Models in Inflammatory Bowel Disease |
| Q47313645 | Chitin protects gut epithelial barrier in a protochordate model of DSS-induced colitis. |
| Q90290804 | Commensal Microbiota Regulate Vertebrate Innate Immunity-Insights From the Zebrafish |
| Q36253681 | Could a swimming creature inform us on intestinal diseases? Lessons from zebrafish |
| Q34833202 | Dietary cholesterol directly induces acute inflammasome-dependent intestinal inflammation |
| Q47899816 | Effects of retinoids in mouse models of colitis: benefit or danger to the gastrointestinal tract? |
| Q38831347 | Focusing the Spotlight on the Zebrafish Intestine to Illuminate Mechanisms of Colorectal Cancer |
| Q36486032 | Glafenine-induced intestinal injury in zebrafish is ameliorated by μ-opioid signaling via enhancement of Atf6-dependent cellular stress responses |
| Q58587001 | Inducible Intestine-Specific Expression of kras Triggers Intestinal Tumorigenesis In Transgenic Zebrafish |
| Q35903705 | Infection, Inflammation and Healing in Zebrafish: Intestinal Inflammation. |
| Q36594979 | Inflammatory diseases modelling in zebrafish. |
| Q55121561 | Innovative Disease Model: Zebrafish as an In Vivo Platform for Intestinal Disorder and Tumors. |
| Q47285080 | Intestinal epithelial cell-specific RARα depletion results in aberrant epithelial cell homeostasis and underdeveloped immune system |
| Q35077963 | Intestinal upregulation of melanin-concentrating hormone in TNBS-induced enterocolitis in adult zebrafish |
| Q40650466 | Lactoferrin Decreases the Intestinal Inflammation Triggered by a Soybean Meal-Based Diet in Zebrafish. |
| Q38611556 | Passive and Active Microrheology of the Intestinal Fluid of the Larval Zebrafish. |
| Q28273923 | Protective and pro-inflammatory roles of intestinal bacteria |
| Q37628457 | Retinoic Acid and Its Role in Modulating Intestinal Innate Immunity. |
| Q37209191 | The Algal Meroterpene 11-Hydroxy-1'-O-Methylamentadione Ameloriates Dextran Sulfate Sodium-Induced Colitis in Mice |
| Q91920765 | The epg5 knockout zebrafish line: a model to study Vici syndrome |
| Q36096812 | The zebrafish goosepimples/myosin Vb mutant exhibits cellular attributes of human microvillus inclusion disease. |
| Q92133265 | Zebrafish modeling of intestinal injury, bacterial exposures and medications defines epithelial in vivo responses relevant to human inflammatory bowel disease |
| Q40342117 | Zebrafish screens for new colitis treatments - a bottom-up approach |
| Q33854396 | nr3c1 null mutant zebrafish are viable and reveal DNA-binding-independent activities of the glucocorticoid receptor. |
Search more.