Development of the human gastrointestinal tract: twenty years of progress.
about
Breaking down the barriers: the gut microbiome, intestinal permeability and stress-related psychiatric disordersAntibiotics, pediatric dysbiosis, and diseaseEpimorphin expression in intestinal myofibroblasts induces epithelial morphogenesisGata4 and Hnf1alpha are partially required for the expression of specific intestinal genes during developmentImmunologic and Hematological Abnormalities in Necrotizing Enterocolitis.Time-dependent expression of cytochrome p450 epoxygenases during human prenatal developmentSlow transit constipation: a model of human gut dysmotility. Review of possible aetiologies.Physical interaction between GATA-5 and hepatocyte nuclear factor-1alpha results in synergistic activation of the human lactase-phlorizin hydrolase promoter.The gastrointestinal ecosystem: a precarious alliance among epithelium, immunity and microbiota.Differentiation-dependent activation of the human intestinal alkaline phosphatase promoter by HNF-4 in intestinal cells.Human meconium contains significant amounts of alkaline sphingomyelinase, neutral ceramidase, and sphingolipid metabolites.The front line of enteric host defense against unwelcome intrusion of harmful microorganisms: mucins, antimicrobial peptides, and microbiotaGlucocorticoids and microbiota regulate ontogeny of intestinal fucosyltransferase 2 requisite for gut homeostasis.Functional significance of single nucleotide polymorphisms in the lactase gene in diverse US patients and evidence for a novel lactase persistence allele at -13909 in those of European ancestry.Non-neuronal acetylcholine as an endogenous regulator of proliferation and differentiation of Lgr5-positive stem cells in mice.The homeodomain protein CDX2 is an early marker of Barrett's oesophagus.Blimp1/Prdm1 Functions in Opposition to Irf1 to Maintain Neonatal Tolerance during Postnatal Intestinal MaturationPorcine models of digestive disease: the future of large animal translational research.Discovery of a Novel Immune Gene Signature with Profound Prognostic Value in Colorectal Cancer: A Model of Cooperativity Disorientation Created in the Process from Development to Cancer.Antagonistic activities of lactobacilli and bifidobacteria against microbial pathogens.Paneth cell ablation in the presence of Klebsiella pneumoniae induces necrotizing enterocolitis (NEC)-like injury in the small intestine of immature mice.Single-nucleotide promoter polymorphism alters transcription of neuronal nitric oxide synthase exon 1c in infantile hypertrophic pyloric stenosis.Homeostatic control of the crypt-villus axis by the bacterial enterotoxin receptor guanylyl cyclase C restricts the proliferating compartment in intestine.Intestinal mucosal atrophy and adaptationDifferential expression of pancreatic protein and chemosensing receptor mRNAs in NKCC1-null intestineMolecular basis of Barrett's oesophagus and oesophageal adenocarcinomaDevelopment of the infant intestine: implications for nutrition support.An appraisal of the strengths and weaknesses of newborn and juvenile rat models for researching gastrointestinal development.Induction of intestinalization in human esophageal keratinocytes is a multistep processTransplantation of expanded fetal intestinal progenitors contributes to colon regeneration after injury.Role of GATA factors in development, differentiation, and homeostasis of the small intestinal epithelium.Invited review: the preterm pig as a model in pediatric gastroenterology.Corruption of homeostatic mechanisms in the guanylyl cyclase C signaling pathway underlying colorectal tumorigenesisCELL BIOLOGY SYMPOSIUM: Impacts of maternal obesity on placental and gut inflammation and health.Cell cycle related genes up-regulated in human colorectal development predict the overall survival of late-stage colorectal cancer patients.Pharmacokinetics in neonatal prescribing: evidence base, paradigms and the future.Comparing the intestinal transcriptome of Meishan and Large White piglets during late fetal development reveals genes involved in glucose and lipid metabolism and immunity as valuable clues of intestinal maturity.Bacterial Diversity of the Gastric Content of Preterm Infants during Their First Month of Life at the Hospital.The transcription factor FOXA2 suppresses gastric tumorigenesis in vitro and in vivo.The extracellular matrix of the gastrointestinal tract: a regenerative medicine platform.
P2860
Q26777279-ABF69723-7BE6-45CD-9885-F9BA20707AECQ28080536-2CB336FE-F8BE-410B-A4F5-066502D3891FQ28582142-C816D534-17F5-4708-9879-EC98AC3DA90CQ28590698-E6832AD7-636F-48FC-9067-333425C0EEBBQ33424992-06EFCBF7-30A1-4CC9-A5B9-C24135D7A903Q33728246-51CB19ED-921A-48E4-AEC0-F566DA1DC4A3Q33956925-1DCD1FF5-2F3A-4F2A-8AFC-942FEC1EE95BQ34128429-7F007CF7-74CB-428E-A24B-A28E32B1C22CQ34156291-C5D47A90-BAE9-49E6-AB10-0AEA9185B357Q34411607-E41AF67F-5FFB-44E2-9A16-3DA74EFFE3F6Q34599585-F0403920-C3D1-4DB7-AA52-F2B8B3E5E0D4Q34647328-B20182C2-5FA1-43D3-A3B6-4FDC8EF01DC4Q34866909-8DBB357F-270B-45B5-B0E7-B1A520B80AB6Q35020667-7D8B90C6-396C-438B-A95C-AC1822B980E0Q35229057-D0B2B243-D13C-4F48-8ECB-6B36670D0B0AQ35588064-975293E7-DF73-4AEB-876F-2A288C7C19B5Q35687179-1E3090FA-8BA9-489B-9A39-D24D3F874E3FQ35691021-72925425-1D9C-4DFE-97D1-78DB484EF4FBQ35760927-659F84B4-5CB2-49F8-A102-FC4F8B307752Q35890738-41E1AA24-9231-4BFC-A09E-557943D565B9Q36051075-21D703C5-4884-4D2E-8FD4-2DA067E90B2CQ36161288-8D0C3731-B7C3-40A8-94CF-7345DF7F1B57Q36202841-85E55576-5C91-4CCB-8F4D-5717F9FAEB29Q36429803-92CB266C-49A6-4ADC-A12E-B23B346B8AFDQ36578901-4806882D-822C-4DA2-835E-F93FC41BB368Q36662322-CFAE6041-B200-4E35-9048-6EEEAE8276BDQ36765302-E0B3178D-6C15-4A64-B0EF-A5CECF326A45Q37215887-ECE0F9AB-84D6-43B1-B8CA-F5AEA1A14993Q37292684-C1D67012-7564-4A52-B0C7-A880541117CAQ37382294-C15184BA-6F8F-4F65-8C19-D0B56CA72A4CQ37629161-F81780C8-277C-4AD9-8EBC-1E7686F14F72Q37699105-0BC401FC-832F-4ABC-B280-82EC6C547E2EQ37769045-2DD23524-5144-48F0-9F06-CCB626172E89Q38163518-A9AFCAB7-AAF7-4D44-AE9F-053991DF30B0Q38453611-76A9B27E-F7F3-492A-93B7-B2D37321C9F5Q38563371-DC0B22A1-B98E-49B5-A2EE-9721901448FFQ38613754-6BA02C20-55D0-4358-82D2-F7A1FB109B3CQ38811561-F31A1A65-9A08-4A22-9728-8906FE90A2E0Q38965399-45A934F6-1621-45F1-AD57-7B375CF15506Q39429635-997D7CC2-0EB3-45C3-95D9-A4DBFB9E3B3F
P2860
Development of the human gastrointestinal tract: twenty years of progress.
description
1999 nî lūn-bûn
@nan
1999 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի մարտին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Development of the human gastrointestinal tract: twenty years of progress.
@ast
Development of the human gastrointestinal tract: twenty years of progress.
@en
Development of the human gastrointestinal tract: twenty years of progress.
@nl
type
label
Development of the human gastrointestinal tract: twenty years of progress.
@ast
Development of the human gastrointestinal tract: twenty years of progress.
@en
Development of the human gastrointestinal tract: twenty years of progress.
@nl
prefLabel
Development of the human gastrointestinal tract: twenty years of progress.
@ast
Development of the human gastrointestinal tract: twenty years of progress.
@en
Development of the human gastrointestinal tract: twenty years of progress.
@nl
P2093
P1433
P1476
Development of the human gastrointestinal tract: twenty years of progress.
@en
P2093
Montgomery RK
Mulberg AE
P304
P356
10.1016/S0016-5085(99)70193-9
P407
P577
1999-03-01T00:00:00Z