ライフサイエンスコーパス: transcellular transport

1 known about the design of CPPs for efficient transcellular transport.

2 le the collecting duct primarily facilitates transcellular transport.

3 ugh epithelial tight junctions and protected transcellular transport.

4 y that would complement known differences in transcellular transport.

5 lt in overcoming this barrier and increasing transcellular transport across it.

6 n in mouse cortical collecting duct (CCD) by transcellular transport across type B intercalated cells

7 scytosis, which enables transendothelial and transcellular transport and a relatively uniform distrib

8 This protein is thought to function in the transcellular transport and enterohepatic circulation of

9 s, we examined whether lyso-PC regulates the transcellular transport and metabolism of cationic amino

10 e examined whether TGF-beta(1) regulates the transcellular transport and metabolism of L-arginine by

11 , we examined whether thrombin regulates the transcellular transport and metabolism of L-ornithine by

12 ese include intracellular chain association, transcellular transport and secretion, proteolytic proce

13 ansport mechanism consisting of endocytosis, transcellular transport, and exocytosis.

14 Transcellular transport in proximal and distal segments

15 tudied by measuring the [(3) H]-taurocholate transcellular transport in stable Madin-Darby canine kid

16 METHODS AND We demonstrate that transcellular transport mechanisms substantially contrib

17 (i.e., apical to basolateral) Na+-dependent transcellular transport of [3H]taurocholate.

18 Here, we report on transcellular transport of a CPP, designated the CL pept

19 Transcellular transport of agonist-conjugated HAuNS was

20 as well as caveolae-mediated endocytosis and transcellular transport of albumin and uptake of cholera

21 First, we demonstrated active transcellular transport of both digoxin and quinidine in

22 Dental enamel formation depends upon the transcellular transport of Ca(2+) by ameloblasts, but li

23 In this study, we visualized the transcellular transport of fluorescent organic cation an

24 Since transcellular transport of HIV across an intact colonic

25 polyamine synthesis, we examined whether the transcellular transport of L-ornithine, the cationic ami

26 sis and SMC mitogenesis are dependent on the transcellular transport of L-ornithine.

27 diated cell association, internalization and transcellular transport of molecular IgG.

28 eolin and Rabankyrin-5 associated uptake and transcellular transport of nanoparticles across the AEC

29 ic properties of glia that may contribute to transcellular transport of potassium.

30 In summary, the transcellular transport of proteins across the podocyte

31 Moreover, in Caco-2 cells transcellular transport of the known OATP2B1 substrate a

32 ntisense radiopharmaceuticals, providing the transcellular transport of these molecules is enabled wi

33 ent abilities to facilitate paracellular and transcellular transport of water and solutes.

34 h FcRn-independent paracellular, rather than transcellular, transport of antibodies.

35 hin the embryo occur through a sophisticated transcellular transport pathway causing the proteolytic

36 The FcRn-IgG transcellular transport pathway may provide a general de

37 In summary, our results suggest distinct transcellular transport pathways for organic cations and

38 s on the cross-talk between paracellular and transcellular transport pathways.

39 cale pipet to differentiate paracellular and transcellular transport processes at high spatial resolu

40 ondrial metabolism and biogenesis as well as transcellular transport processes involved in countercur

41 and regions and generate a primary urine by transcellular transport rather than filtration, which is

42 e phosphate absorption in the gut, an active transcellular transport requiring the Na(+) /phosphate c

43 here are important differences in the Ca(2+) transcellular transport systems used by secretory- and m

44 ntestinal barrier by the paracellular or the transcellular transport systems with several implication

45 f the passive flow of counter ions to active transcellular transport, thereby controlling net transep