ライフサイエンスコーパス: reabsorb

1 g of glucose per day, almost all of which is reabsorbed.

2 produces circular intermediates which can be reabsorbed.

3 E7.5, the defective embryos were completely reabsorbed.

4 the bile, and in a form that is less easily reabsorbed.

5 The renal proximal tubule reabsorbs 90% of the filtered glucose load through the N

6 e injection site indicating that iron is not reabsorbed across the surface convolutions of the proxim

7 carbonate has been assumed to be the species reabsorbed along the nephron as required to maintain the

8 sorption of fluid from the fetal lung and in reabsorbing alveolar fluid in the injured adult lung.

9 Unlike other mammals, they efficiently reabsorb amino acids from urine, periodically activate m

10 ercome the innate capacity of plant roots to reabsorb amino acids.

11 o whole-body edema, and the proximal tubules reabsorbed and accumulated VDBP-GFP that leaked through

12 ately 30% of daily calorie intake), which is reabsorbed and returned to the systemic circulation by t

13 ted into the small intestine are efficiently reabsorbed and reutilized.

14 BAs are AQ6 secreted in the small intestine, reabsorbed, and transported back to the liver, where the

15 In the kidney, SGLT1 reabsorbed approximately 3% of the filtered glucose unde

16 secrete acid into the tubule lumen, thereby reabsorbing approximately 80% of the filtered HCO3- as w

17 tating vectorial water transport, and yet it reabsorbs approximately 8 liters of fluid daily.

18 Within the enterohepatic circulation, reabsorbed bile acids act as FXR agonists.

19 Osteoclasts (OCs) function to reabsorb bone and are responsible for the bone loss asso

20 nd alpha(1) -microglobulin (alpha(1) -m) are reabsorbed by 'high' efficiency uptake kinetics and 50-f

21 lbumin and a(1) -microglobulin (a(1) -m) are reabsorbed by 'high' efficiency uptake kinetics and 50-f

22 roximal tubule most of the filtered HCO3- is reabsorbed by an electrogenic Na/HCO3 cotransporter loca

23 In the distal tubule, however, calcium is reabsorbed by channels and transporters, the activity or

24 plasma protein pass the renal filter and are reabsorbed by proximal tubular cells, but it is not clea

25 were secreted into the primary filtrate and reabsorbed by proximal tubular cells, resulting in serum

26 pted, suggesting that secreted testin may be reabsorbed by testicular cells in vivo.

27 st of the filtered thymidine is likely to be reabsorbed by the kidney.

28 Almost all the filtered blood glucose is reabsorbed by the kidneys.

29 eely filtered through the glomerulus and are reabsorbed by the proximal tubule.

30 The proportion of Fab reabsorbed by the proximal tubules increased as pI incre

31 idney, and approximately 370 mug of iron are reabsorbed daily from the glomerular filtrate by kidney

32 lnt11-deficient mice were unable to properly reabsorb DBP from the urine.

33 frequently emerge and may persist or become reabsorbed during interphase.

34 incipal route for apical Na(+) entry in many reabsorbing epithelia.

35 The kidney maintains fluid homeostasis by reabsorbing essential compounds and excreting waste.

36 respectively; moreover, the amount of sodium reabsorbed fell from 16+/-1.7 to 8.5+/-1.1 mmol/min (all

37 proximal tubular epithelia and functions to reabsorb filtered phosphate and sodium.

38 Kidneys contribute to glucose homeostasis by reabsorbing filtered glucose in the proximal tubules via

39 ocytic receptor in the proximal tubules that reabsorbs filtered proteins in the kidneys.

40 The ability to reabsorb fluid from the alveolar space was a marker of l

41 findings suggest that glucose and 3-O-MG are reabsorbed from bile after entry at the hepatocyte, acco

42 At birth water is rapidly reabsorbed from the distal lung in preparation for alveo

43 maturation stage so that the proteins can be reabsorbed from the hardening enamel.

44 inase-I, which increases availability of the reabsorbed glucose for intracellular metabolism.

45 Hyperglycemia increases the filtered and reabsorbed glucose up to two- to three-fold.

46 show that mucosal surfaces that express FcRn reabsorb IgG and explain a mechanism by which IgG may ac

47 tratubular availability of Na(+) that can be reabsorbed in exchange for K(+) secreted.

48 oremia to insure delivery of Na+ (previously reabsorbed in proximal tubule and loop of Henle) to the

49 of an unstable compartment, which is rapidly reabsorbed in the absence of GBF1 activity.

50 the bile duct are constantly recycled, being reabsorbed in the intestine by the apical sodium-depende

51 However, Me-4FDG was not reabsorbed in the kidney in Glut2(-/-) mice.

52 Excreted urate is reabsorbed in the kidney mainly by URAT1 antiporter, a k

53 Approximately 98% of the filtered calcium is reabsorbed in the nephron, and this process is tightly c

54 ricted by the ease with which the Cl- can be reabsorbed in the proximal portions of the nephron.

55 o distal exchange sites of sodium previously reabsorbed in the proximal tubule and loop of Henle; and

56 ids (NEFA) in urine are bound to albumin and reabsorbed in the proximal tubule through receptor-media

57 Most of the filtered calcium is reabsorbed in the proximal tubule, primarily by paracell

58 In the kidney, magnesium is reabsorbed in the proximal tubule, the thick ascending l

59 on of phlorizin determined the amount of FDG reabsorbed in the proximal tubules to be 56%+/-9.15%.

60 ely filtered at the kidney glomerulus and is reabsorbed in the renal tubule by the action of the apic

61 Sodium is reabsorbed in this segment through the actions of the Na

62 tions, 78 +/- 6% of the filtered glucose was reabsorbed in WT mice compared with no reabsorption in S

63 t, the ratio of oxygen consumption to sodium reabsorbed increased dramatically from 0.33+/-0.07 to 0.

64 e early proximal tubule, and is subsequently reabsorbed into blood.

65 an ATP-sensitive K+ channel that 'recycles' reabsorbed K+ back to the tubule lumen.

66 a zebrafish model showed impaired ability to reabsorb low molecular weight dextran.

67 tive distal nephron, where filtered Na(+) is reabsorbed mainly via the epithelial Na(+) channel (ENaC

68 The proximal convoluted tubule (PCT) reabsorbs most of the filtered bicarbonate.

69 thick ascending limb as they are involved in reabsorbing Na(+), K(+), and Cl(-) from a progressively

70 enal cells of the thick ascending limb (TAL) reabsorb NaCl via the apical Na(+)/K(+)/2Cl(-) co-transp

71 lial cells of the thick ascending limb (TAL) reabsorb NaCl via the apical Na(+)/K(+)/2Cl(-) co-transp

72 basal and vasopressin-stimulated capacity to reabsorb NaCl.

73 In kidney thick ascending limbs, calcium is reabsorbed paracellularly through a meshwork of CLDN16 a

74 lly examined GA growth rate in patients with reabsorbed PEDs.

75 itical role in phosphate (Pi) homeostasis by reabsorbing Pi via sodium-dependent Pi cotransporters.

76 ight the role of the proximal tubule (PT) in reabsorbing, processing, and transcytosing urinary album

77 there is an organ or cell type in flies that reabsorbs proteins.

78 Lung fluid is reabsorbed rapidly at birth to permit alveolar respirati

79 ight intercellular junctions and to actively reabsorb sodium.

80 lar permeability may prevent the backflow of reabsorbed sodium to the tubular lumen along a steep ele

81 important role in preventing the backflow of reabsorbed solutes and water to the tubular lumen, as we

82 ate from the blood or coelom and selectively reabsorbs solutes, such as sugars, proteins, ions, and w

83 Analysis of net secreted and net reabsorbed subsets revealed that hydrophilic ionized com

84 issions, yet its hydrated products gradually reabsorb substantial amounts of atmospheric CO(2) (carbo

85 Proximal tubule cells, crucial for reabsorbing sugars, ions, and amino acids, are highly su

86 icrobial enzymes to sorafenib, which is then reabsorbed, supporting its persistence in the systemic c

87 Failure to reabsorb the primary cilium induces cellular senescence.

88 e, thus creating a local osmotic gradient to reabsorb the water fraction of the edema fluid from the

89 l medulla, electrolytes, water, and urea are reabsorbed through the concerted actions of solute carri

90 ding limb (TAL) of Henle's loop, chloride is reabsorbed transcellularly, whereas sodium reabsorption

91 ts that ~75% of normally filtered albumin is reabsorbed via cubilin; however, megalin-mediated uptake

92 collecting duct provides an exit pathway for reabsorbed water.

93 Ions such as Na(+) and Cl(-) get reabsorbed whereas primary saliva flows through the sali

94 etinol-binding protein 4 (RBP4) are normally reabsorbed with 'very high' efficiency uptake kinetics a

95 etinol-binding protein 4 (RBP4) are normally reabsorbed with 'very high' efficiency uptake kinetics a