The oligopeptide transporter (Pept-1) in human intestine: biology and function.
about
Mutation screening of two candidate genes from 13q32 in families affected with Bipolar disorder: human peptide transporter (SLC15A1) and human glypican5 (GPC5)The intestinal peptide transporter PEPT1 is involved in food intake regulation in mice fed a high-protein dietPepT1-mediated epithelial transport of dipeptides and cephalexin is enhanced by luminal leptin in the small intestinehPepT1-mediated epithelial transport of bacteria-derived chemotactic peptides enhances neutrophil-epithelial interactionsPeptide transport in the mammary gland: expression and distribution of PEPT2 mRNA and protein.H+-peptide cotransport in the human bile duct epithelium cell line SK-ChA-1.Butyrate transcriptionally enhances peptide transporter PepT1 expression and activity.Gp93, the Drosophila GRP94 ortholog, is required for gut epithelial homeostasis and nutrient assimilation-coupled growth control.Accumulation and oriented transport of ampicillin in Caco-2 cells from its pivaloyloxymethylester prodrug, pivampicillin.Comparison of Growth Performance and Whole-body Amino Acid Composition in Red Seabream (Pagrus major) Fed Free or Dipeptide Form of Phenylalanine.Hormonal regulation of dipeptide transporter (PepT1) in Caco-2 cells with normal and anoxia/reoxygenation management.Regulation of expression of the intestinal oligopeptide transporter (Pept-1) in health and disease.Transport of peptidomimetic drugs by the intestinal Di/tri-peptide transporter, PepT1.Analysing the substrate multispecificity of a proton-coupled oligopeptide transporter using a dipeptide library.Structural biology and function of solute transporters: implications for identifying and designing substrates.The tripeptide KdPT protects from intestinal inflammation and maintains intestinal barrier function.Diurnal expression and function of peptide transporter 1 (PEPT1)MicroRNA-193a-3p Reduces Intestinal Inflammation in Response to Microbiota via Down-regulation of Colonic PepT1The effect of impaired angiogenesis on intestinal function following massive small bowel resection.Interferon-gamma increases hPepT1-mediated uptake of di-tripeptides including the bacterial tripeptide fMLP in polarized intestinal epithelia.The role and pathophysiological relevance of membrane transporter PepT1 in intestinal inflammation and inflammatory bowel disease.Crystal Structures of the Extracellular Domain from PepT1 and PepT2 Provide Novel Insights into Mammalian Peptide TransportChanges of biological functions of dipeptide transporter (PepT1) and hormonal regulation in severe scald rats.Slc15a1 is involved in the transport of synthetic F5-peptide into the seminiferous epithelium in adult rat testes.Regulation of drug transporters in the testis by environmental toxicant cadmium, steroids and cytokines.The oligopeptide transporter hPepT1: gateway to the innate immune response.PepT1-mediated tripeptide KPV uptake reduces intestinal inflammationCritical role of PepT1 in promoting colitis-associated cancer and therapeutic benefits of the anti-inflammatory PepT1-mediated tripeptide KPV in a murine model.Pharmaceutical and pharmacological importance of peptide transporters.Peptide-based enteral formula improves tolerance and clinical outcomes in abdominal surgery patients relative to a whole protein enteral formula.Nutrient sensing in the gastrointestinal tract: possible role for nutrient transporters.Generating human intestinal tissue from pluripotent stem cells in vitro.The Gastrointestinal Tract as a Key Target Organ for the Health-Promoting Effects of Dietary Proanthocyanidins.Suppression of tumour growth by orally administered osteopontin is accompanied by alterations in tumour blood vessels.Intestinal gene expression in pigs: effects of reduced feed intake during weaning and potential impact of dietary components.Circadian clock genes and implications for intestinal nutrient uptake.Peptide absorption after massive proximal small bowel resection: mechanisms of ileal adaptation.Bioactive dietary peptides and amino acids in inflammatory bowel disease.Dietary supplementation of a mixture of Lactobacillus strains enhances performance of broiler chickens raised under heat stress conditions.Regulation of oligopeptide transporter (Pept-1) in experimental diabetes.
P2860
Q24795227-828290A5-70BA-4279-A506-BBFCEA9ABC0BQ27316173-4EF3E7D5-1AF5-402D-94D1-1E3E30DC3DFAQ28364469-3886E0F6-1044-44EF-87B2-8F1A2F9A746BQ28369337-56DF8EDB-2603-4BD9-88B6-EC6A5D8A1862Q33183564-385CFD02-0A5C-4FAD-94D1-6A9FB2CE1C5AQ33183818-2BEAAF60-077C-4851-B5F7-5B211D7043B1Q33346196-B501075B-87DA-4564-833D-D22F8A777B7DQ33695850-D0F5CD72-39FB-473A-9AD0-B728E66C0DE4Q33721961-A6ED4501-0247-498B-A43C-CE798E9929A8Q33884345-F2254253-4067-4139-B9C1-366BAE651D9BQ34188863-BBE4EAFB-BE86-4C09-8E69-472BA9D11EA4Q34270249-6D4B2F86-0909-475F-BE6B-44BB216D5AEBQ34981676-248B9EE6-FBC6-47A3-B854-07AFCD9391C1Q34995844-234670E9-7559-4706-9F4C-CF76A4DFF220Q35027925-7A231E50-2082-46FA-9C81-53A2821879CCQ35168221-1F9B7048-8C67-450C-A9BD-B769747329D9Q35581439-CFBDD7DE-91E0-498B-BD0B-EDCC4663AB93Q35619815-84035E2B-AA22-4BD5-8F8B-2E9B7FFD4CBBQ35629760-26497E5D-0201-4714-98E3-C977114E100EQ35843469-602A30BE-F952-4C12-8E39-94C0C7AC1E89Q35849969-9D16F0C1-BCFA-425B-AF17-3CD50414719FQ36133816-046FF4FC-B1E3-40EC-8146-F90A82A47CFDQ36180536-A8965827-A0B7-40C2-8BF0-3067302F8CCCQ36249950-F898DFF8-413F-4F61-9B94-CB307A7A9B67Q36465187-54D22642-F8AC-4390-91EA-8619D34CA2AEQ36465426-B8FB62A6-01EE-4E66-8B14-AF38AA5FDEC3Q36727430-F21541E3-47C4-4DF2-85CB-AEFA7BCA697BQ37119616-2D4DC244-376C-4A3B-AEB4-85B3215D8D93Q37139860-C1B38079-6AF0-49F7-A750-FB9E5AD7A975Q37369157-03AF201E-E751-43B4-B2F4-4647ED0E86C6Q37458736-8DA63B43-861D-48D5-A1EF-98638F399F19Q37495400-74694480-233F-4096-9E63-9111B46A4B98Q37550376-84EEC3ED-6257-485C-A0A2-37A9CC1CBF04Q37632122-862FF779-C5E6-4F0A-86C0-55018E6FE143Q37931436-0A2073ED-975C-4772-80CF-4D4C876E1483Q37993655-01E75649-0F52-412F-BA73-4F23A4B4DDB1Q38256108-B7DB0F71-F046-490B-9098-D22F49DF62C0Q38287022-94A6DA38-0C9D-42EC-8066-6E04BB96A386Q39000404-647C3320-094F-4624-BA1A-341036D17B8DQ39016552-A77CCFE8-452F-4CD8-B5C4-D167F2650DC1
P2860
The oligopeptide transporter (Pept-1) in human intestine: biology and function.
description
1997 nî lūn-bûn
@nan
1997 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年学术文章
@wuu
1997年学术文章
@zh-cn
1997年学术文章
@zh-hans
1997年学术文章
@zh-my
1997年学术文章
@zh-sg
1997年學術文章
@yue
name
The oligopeptide transporter (Pept-1) in human intestine: biology and function.
@ast
The oligopeptide transporter (Pept-1) in human intestine: biology and function.
@en
The oligopeptide transporter
@nl
type
label
The oligopeptide transporter (Pept-1) in human intestine: biology and function.
@ast
The oligopeptide transporter (Pept-1) in human intestine: biology and function.
@en
The oligopeptide transporter
@nl
prefLabel
The oligopeptide transporter (Pept-1) in human intestine: biology and function.
@ast
The oligopeptide transporter (Pept-1) in human intestine: biology and function.
@en
The oligopeptide transporter
@nl
P1433
P1476
The oligopeptide transporter (Pept-1) in human intestine: biology and function.
@en
P2093
P304
P356
10.1016/S0016-5085(97)70112-4
P407
P577
1997-07-01T00:00:00Z