ライフサイエンスコーパス: Malpighian tubule

1 expected complexity in the physiology of the Malpighian tubule.

2 in-dependent detoxification by desert locust Malpighian tubules.

3 results in the absence of stem cells in the Malpighian tubules.

4 tis, larval male gonads, adult intestine and Malpighian tubules.

5 e basal surfaces of the digestive system and Malpighian tubules.

6 tanding of the development and physiology of Malpighian tubules.

7 the corpus allatum (CA), gastric cecum, and malpighian tubules.

8 ead, ovaries, gut, cuticle plus fat body and malpighian tubules.

9 ses in tissues such as the gut, trachea, and malpighian tubules.

10 increase the rate of fluid secretion by the malpighian tubules.

11 heral nervous systems, and the ureter of the Malpighian tubules.

12 h same manner as they alter the shape of the Malpighian tubules.

13 constrictions and for the elongation of the Malpighian tubules.

14 ion and homeostasis of the Drosophila renal (Malpighian) tubule.

15 y MFS2 as a key Pi transporter in fly renal (Malpighian) tubules.

16 cell types, including the posterior hindgut, Malpighian tubules, anal plate, garland cells, and a sub

17 Malpighian tubules, analogous to vertebrate nephrons, pl

18 amily, perform osmolyte transport within the Malpighian tubule and hindgut.

19 preventing osmolyte accumulation within the Malpighian tubule and hindgut.

20 phila causes lethal abnormalities in muscle, Malpighian tubule and trachea formation.

21 Finally, we highlight the use of the Malpighian tubules and hindgut as accessible models of h

22 , composed of the kidneys in mammals and the Malpighian tubules and hindgut in insects, can increase

23 a recent surge in interest, research on the Malpighian tubules and hindgut of Drosophila have uncove

24 adult Drosophila renal system, consisting of Malpighian tubules and nephrocytes, which shares similar

25 ins two organ systems acting in concert: the Malpighian tubules and the hindgut perform essential rol

26 ulate fluid secretion from the renal organs (Malpighian tubules) and hindgut contractions by activati

27 heral tissues such as the epidermis, midgut, Malpighian tubules, and fat body, i.e., tissues known to

28 er alimentary canal (salivary gland, midgut, Malpighian tubules, and hindgut), we have verified the e

29 ed in the nervous tissue of the synganglion, Malpighian tubules, and muscle.

30 developing midgut endoderm, the hindgut and Malpighian tubules, and the epidermis and central nervou

31 f their organs, in which part of their renal/Malpighian tubules are bound to the surface of the rectu

32 ted that several differentiated cells in the malpighian tubules arise from these stem cells.

33 as of various tubules (e.g., nephric ducts, Malpighian tubules), as it is driven by cell rearrangeme

34 leptophragmata, in the distal region of the Malpighian tubules associated with the rectal complex.

35 NO-stimulated fluid secretion in Drosophila Malpighian tubules, both when applied in the form of a N

36 e invaginating posterior midgut, evaginating Malpighian tubule buds, elongating hindgut, invaginating

37 Specifically, wal affects evagination of the Malpighian tubule buds, fas and thr affect bud extension

38 The renal (Malpighian) tubules can secrete fluid faster on a per-ce

39 Ultrastructural examination of larval Malpighian tubule cells depleted for NS1 showed a loss o

40 showing highly abundant expression in adult Malpighian tubules, ClC-c, did not impact depolarization

41 s of ALAT1 or ALAT2 in fat body, thorax, and Malpighian tubules compared with dsRNA firefly luciferas

42 Further analysis of the role of cv-c in the Malpighian tubules demonstrates that its activity is req

43 In Diptera, Malpighian tubules derive from ectodermal cells that eva

44 genes, into a genetic pathway that controls Malpighian tubule development.

45 In Drosophila, the renal (Malpighian) tubule displays the highest per-cell transpo

46 al trunk of larval tracheal airways or adult Malpighian tubules, downregulation of Yki signaling trig

47 cv-c activity, tubulogenesis in the renal or Malpighian tubules fails and they collapse into a cyst-l

48 adult eye, larval salivary glands and larval Malpighian tubules for each of three different chromosom

49 cules in the salivary glands, midgut, ovary, Malpighian tubules, haemolymph and the tick cell line IR

50 Cells of Chironomus salivary glands and Malpighian tubules have junctions of the "septate" kind.

51 Adult Drosophila Malpighian tubules have low rates of cell turnover but a

52 gans such as the mammalian kidney and insect Malpighian tubule/hindgut requires a region of hypertoni

53 epolarize the transepithelial voltage of the malpighian tubule in concentrations of less than 10(-9)

54 The kidneys in vertebrates and the malpighian tubules in Drosophila accomplish these functi

55 The Drosophila Malpighian tubule is a model system for studying genetic

56 The Malpighian tubule is a particularly excellent model to s

57 a stable boundary between midgut and hindgut/Malpighian tubules is not established during early embry

58 gh byn is not expressed in the midgut or the Malpighian tubules, it is required for the formation of

59 urprisingly strong reduction also in gut and Malpighian tubules (kidney) volume.

60 the endodermal midgut and ectodermal hindgut/Malpighian tubules, maintain populations of dividing ste

61 nd one novel gene, walrus (wal), that affect Malpighian tubule morphogenesis.

62 The Malpighian tubules (MT), of chill susceptible Drosophila

63 Mas-DH by incubating it in vitro with larval Malpighian tubules (Mt), the target organ of the hormone

64 Like other insects, secretion by mosquito Malpighian tubules (MTs) is driven by the V-type H(+)-AT

65 to the peri-ureter region of the kidney-like Malpighian tubules (MTs).

66 Malpighian tubules mutant for raw or rib are wider and s

67 ic bud and metanephric mesoderm, whereas the malpighian tubules of Drosophila develop from the hindgu

68 ts expression was high in the integument and Malpighian tubules of last instar larvae and adults.

69 rease cAMP production and fluid secretion in Malpighian tubules of several insect species.

70 hat strongly inhibits fluid secretion by the Malpighian tubules of this insect.

71 nhibits a Kir channel cloned from the renal (Malpighian) tubules of Aedes aegypti (AeKir1).

72 Together, these data show that beetle Malpighian tubules operate by a fundamentally different

73 ypti body parts (head, thorax, abdomen, gut, Malpighian tubules, ovaries), gut regions (crop, provent

74 otting revealed low levels of readthrough in malpighian tubules, ovary, and testis but abundant readt

75 c pathways in mosquito fat body, midgut, and Malpighian tubules prior to and after blood feeding.

76 ost abundantly expressed in the adult renal (Malpighian) tubule rather than in neuronal tissues.

77 r, some secretory epithelia (choroid plexus, Malpighian tubule, rectal gland, etc.) have "backwards"

78 origin of stem cells found in the excretory Malpighian tubules ('renal stem cells') has not been est

79 itzi, and that it is distributed in ovaries, malpighian tubules, salivary glands and midguts of the t

80 ing the two hormones (Urinate, Urn8) reduces Malpighian tubule secretion and restricts organismal flu

81 FS2 increased fly life span, suggesting that Malpighian tubule stones are a key element whereby high

82 od (hemolymph) Pi and decreases formation of Malpighian tubule stones in flies cultured on high Pi me

83 les induces expression of MFS2 and increases Malpighian tubule stones suggesting that bnl is the endo

84 ce fluid secretion or depolarizations in the malpighian tubules suggest that there may be more than o

85 three main tissues - the transporting renal (Malpighian) tubules, the reabsorptive hindgut and the en

86 is the only endogenous insect ADF acting on Malpighian tubules to be sequenced, and the first coleop

87 cently, multipotent stem cells in Drosophila malpighian tubules were identified, and it was demonstra

88 Expression is high in gut, ovaries, and Malpighian tubules where immunofluorescence microscopy r

89 es the formation of zinc storage granules in Malpighian tubules, where 3-hydroxykynurenine and xanthu

90 tected in clock-containing tissues including Malpighian tubules, where it mediates both light-depende