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Journal Abstract Search

163 related items for PubMed ID: 31062524

  • 1. Sigmoidal kinetics define porcine intestinal segregation of electrogenic monosaccharide transport systems as having multiple transporter population involvement.
    Subramaniam M, Enns CB, Loewen ME.
    Physiol Rep; 2019 May; 7(9):e14090. PubMed ID: 31062524
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  • 6. Review: A species comparison of the kinetic homogeneous and heterogeneous organization of sodium-dependent glucose transport systems along the intestine.
    Subramaniam M, Loewen ME.
    Comp Biochem Physiol A Mol Integr Physiol; 2023 Nov; 285():111492. PubMed ID: 37536429
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  • 7. Degree of SGLT1 phosphorylation is associated with but does not determine segment-specific glucose transport features in the porcine small intestines.
    Klinger S, Lange P, Brandt E, Hustedt K, Schröder B, Breves G, Herrmann J.
    Physiol Rep; 2018 Jan; 6(1):. PubMed ID: 29333720
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  • 8. D-glucose and L-leucine transport by human intestinal brush-border membrane vesicles.
    Harig JM, Barry JA, Rajendran VM, Soergel KH, Ramaswamy K.
    Am J Physiol; 1989 Mar; 256(3 Pt 1):G618-23. PubMed ID: 2923218
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  • 9. Kinetic constants for intestinal transport of four monosaccharides determined under conditions of variable effective resistance of the unstirred water layer.
    Thomson AB.
    J Membr Biol; 1979 Oct 15; 50(2):141-63. PubMed ID: 501734
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  • 10. Expression of mRNA for glucose transport proteins in jejunum, liver, kidney and skeletal muscle of pigs.
    Aschenbach JR, Steglich K, Gäbel G, Honscha KU.
    J Physiol Biochem; 2009 Sep 15; 65(3):251-66. PubMed ID: 20119820
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  • 11. The effects of streptozotocin diabetes on sodium-glucose transporter (SGLT1) expression and function in rat jejunal and ileal villus-attached enterocytes.
    Debnam ES, Smith MW, Sharp PA, Srai SK, Turvey A, Keable SJ.
    Pflugers Arch; 1995 Jun 15; 430(2):151-9. PubMed ID: 7675626
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  • 12. Lipopolysaccharide induces inhibition of galactose intestinal transport in rabbits in vitro.
    Amador P, Marca MC, García-Herrera J, Lostao MP, Guillén N, de la Osada J, Rodríguez-Yoldi MJ.
    Cell Physiol Biochem; 2008 Jun 15; 22(5-6):715-24. PubMed ID: 19088453
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  • 13. A single amino acid change converts the sugar sensor SGLT3 into a sugar transporter.
    Bianchi L, Díez-Sampedro A.
    PLoS One; 2010 Apr 20; 5(4):e10241. PubMed ID: 20421923
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  • 14. Diurnal rhythmicity in glucose uptake is mediated by temporal periodicity in the expression of the sodium-glucose cotransporter (SGLT1).
    Balakrishnan A, Stearns AT, Rounds J, Irani J, Giuffrida M, Rhoads DB, Ashley SW, Tavakkolizadeh A.
    Surgery; 2008 Jun 20; 143(6):813-8. PubMed ID: 18549898
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  • 18. Isocal and Portagen alter intestinal uptake of sugars but not mucosal surface area in rabbits with an intact intestinal tract and following ileal resection.
    Thomson AB, Keelan M.
    Clin Invest Med; 1987 Nov 20; 10(6):520-9. PubMed ID: 3440339
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  • 19. Aboral changes in D-glucose transport by human intestinal brush-border membrane vesicles.
    Bluett MK, Abumrad NN, Arab N, Ghishan FK.
    Biochem J; 1986 Jul 01; 237(1):229-34. PubMed ID: 3800877
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  • 20. Angiotensin II exerts dual actions on sodium-glucose transporter 1-mediated transport in the human jejunal mucosa.
    Casselbrant A, Malinauskas M, Marschall HU, Wallenius V, Fändriks L.
    Scand J Gastroenterol; 2015 Jul 01; 50(9):1068-75. PubMed ID: 25861809
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