ライフサイエンスコーパス: visual transduction

1 ds and cones, ROS-GC plays a central role in visual transduction.

2 the mechanism underlying the recovery of rod visual transduction.

3 f rhodopsin, which could reduce the speed of visual transduction.

4 nd disrupt the cGMP signaling pathway during visual transduction.

5 is the central effector enzyme in vertebrate visual transduction.

6 photoreceptor rhodopsin in the first step of visual transduction.

7 in regulating the activation and lifetime of visual transduction.

8 calcium-binding protein thought to regulate visual transduction.

9 it as a key element in the recovery phase of visual transduction.

10 d in the activation/inactivation pathways of visual transduction.

11 s were identified with 8 of them involved in visual transduction.

12 nding and activation of proteins involved in visual transduction and desensitization.

13 mechanism of the ROS-GC system that affects visual transduction and is likely to affect the course o

14 ebrates, the rod and cone channels mediating visual transduction and the channel mediating olfactory

15 Visual transduction captures widespread interest because

16 We propose that PKC inhibits the visual transduction cascade at the G-protein and/or PLC

17 isubunit enzyme that plays a key role in the visual transduction cascade in rod and cone photorecepto

18 The shutoff mechanisms of the rod visual transduction cascade involve G-protein-coupled re

19 ls are critical components of the vertebrate visual transduction cascade involved in converting light

20 esterase (PDE) is the effector enzyme in the visual transduction cascade of vertebrate photoreceptor

21 ian rhythm on the expression and function of visual transduction cascade regulators in diurnal zebraf

22 The central enzyme of the visual transduction cascade, cGMP phosphodiesterase (PDE

23 which plays a role in the termination of the visual transduction cascade, is one of several photorece

24 entral role in the turning on and off of the visual transduction cascade, since binding of PDE6 gamma

25 esterase 6 (PDE6), an effector enzyme of the visual transduction cascade.

26 esterase (PDE6) is the central enzyme in the visual transduction cascade.

27 ly) is the effector enzyme in the vertebrate visual transduction cascade.

28 E6) is the effector enzyme in the vertebrate visual transduction cascade.

29 ion as the effector enzyme in the vertebrate visual transduction cascade.

30 serve as effector enzymes in the vertebrate visual transduction cascade.

31 he effector enzyme in the G protein-mediated visual transduction cascade.

32 in alpha-subunit (Gtalpha) in the vertebrate visual transduction cascade.

33 are required for calcium conductance in the visual transduction cascade.

34 tein that plays a key role in the vertebrate visual transduction cascade.

35 y experiments localized multiple proteins of visual transduction cascades to tissues housing light-pr

36 ion channels, direct homologues of TRP, the visual transduction channel of flies, was discovered dur

37 pathway found in vertebrate rods and cones, visual transduction in cephalopod (squid, octopus, cuttl

38 Visual transduction in Drosophila is a G protein-coupled

39 The phosphoinositide cascade mediates visual transduction in invertebrate photoreceptors.

40 embrane (TM) helices, form the first step in visual transduction in most organisms.

41 he cGMP phosphodiesterase (PDE6) involved in visual transduction in photoreceptor cells contains two

42 ion and the lifetime of activated PDE during visual transduction in photoreceptor cells.

43 much of which is due to the slow process of visual transduction in photoreceptors.

44 Visual transduction in retinal photoreceptors operates t

45 The central effector of visual transduction in retinal rod photoreceptors, cGMP

46 ion and inactivation kinetics of PDE6 during visual transduction in rod photoreceptors.

47 Visual transduction in the Drosophila compound eye funct

48 photoreceptors are the primary initiator of visual transduction in the human retina.

49 action) and PDE6 (responsible for regulating visual transduction in vertebrate photoreceptors) are st

50 t deprotonation of the Schiff base and rapid visual transduction in vertebrate visual pigments.

51 it opens the door to fundamental studies of visual transduction in-vivo and to more specific clinica

52 A key step in visual transduction is the light-induced conformational

53 that the mechanism of arrestin quenching of visual transduction is via steric exclusion of transduci

54 ozyme (PDE6, the central effector enzyme for visual transduction) is poorly understood.

55 odopsin (Rh), a prototypical class A GPCR of visual transduction, is also capable of forming dimers a

56 Rod cGMP-phosphodiesterase, a key enzyme in visual transduction, is important for retinal integrity

57 Cyclic GMP serves as the second messenger in visual transduction, linking photon absorption by rhodop

58 the pathway is linked specifically with the visual transduction machinery in the secondary neurons o

59 he extent to which two previously identified visual transduction mutations suppressed rdgB retinal de

60 oxygen delivery, consistent with a defect in visual transduction observed in both models.

61 In photoreceptor cells, visual transduction occurs through photoexcitation of rh

62 protein (rdgB), a protein implicated in the visual transduction pathway in flies.

63 eptors is a central regulatory enzyme in the visual transduction pathway of vertebrate vision.

64 that signals downstream of rhodopsin in the visual transduction pathway.

65 anges in the reaction yields that affect the visual transduction pathway.

66 hat are largely independent of the canonical visual transduction pathway.

67 ty changes, beginning at the first stages of visual transduction, permit neurons with modest dynamic

68 ations in approximately 300 genes, affecting visual transduction, photoreceptor morphogenesis, and tr

69 ther because of excessive stimulation of the visual transduction (phototransduction) cascade, or thro

70 Although visual transduction processes are well understood in the

71 es revealed expression of genes encoding key visual transduction proteins in light-organ tissues, inc

72 peristalsis, blood flow, neuroendosecretion, visual transduction, smooth muscle relaxation, and micro

73 The visual transduction system was used as a model to invest

74 As the central effector of visual transduction, the regulation of photoreceptor pho

75 ntributes to the sophisticated regulation in visual transduction through interaction with Pgamma.

76 o gain a better understanding of its role in visual transduction, we produced transgenic knock-in mic

77 ation of rhodopsin, the GPCR responsible for visual transduction, we report studies on the three-dime

78 ng the classical TRP required for Drosophila visual transduction, we uncovered structural requirement