ライフサイエンスコーパス: vertebrate photoreceptor

1 ially generate pathogenic effects within the vertebrate photoreceptor.

2 ht-sensing cilium, the outer segment, of the vertebrate photoreceptor.

3 ing cilium (called the outer segment) of the vertebrate photoreceptor.

4 all-trans configuration in both rod and cone vertebrate photoreceptors.

5 actions for the formation and maintenance of vertebrate photoreceptors.

6 nonmotile cilia or for sensory cilia such as vertebrate photoreceptors.

7 tivation of the phototransduction cascade in vertebrate photoreceptors.

8 gment extension and IFT protein recycling in vertebrate photoreceptors.

9 only recognized phototransduction pathway in vertebrate photoreceptors.

10 entration ([Ca2+]i) in the inner segments of vertebrate photoreceptors.

11 by glutamate, the likely neurotransmitter of vertebrate photoreceptors.

12 in mediates a local function at this site in vertebrate photoreceptors.

13 lerating the GTP hydrolysis of G alpha(t) in vertebrate photoreceptors.

14 TPase accelerating protein for G(alpha t) in vertebrate photoreceptors.

15 otal role in the terminal differentiation of vertebrate photoreceptors.

16 eaches in a manner almost identical to other vertebrate photoreceptors.

17 visual perception and the dark adaptation of vertebrate photoreceptors after bright light exposure re

18 nvelope component of the syne gene family in vertebrate photoreceptors also result in the misposition

19 red for rapid recovery of light responses in vertebrate photoreceptors and the only mammalian RGS pro

20 Vertebrate photoreceptors are among the most metabolical

21 Vertebrate photoreceptors are categorized into two broad

22 The light-detecting outer segments of vertebrate photoreceptors are cilia.

23 Cyclic nucleotide-gated (CNG) channels in vertebrate photoreceptors are crucial for transducing li

24 The cyclic GMP-gated cationic channels of vertebrate photoreceptors are essential for visual photo

25 is currently thought that visual pigments in vertebrate photoreceptors are regenerated exclusively th

26 Vertebrate photoreceptors are thought to adapt to light

27 In the retina of warm-blooded vertebrates, photoreceptors are specified many days befo

28 nsible for regulating visual transduction in vertebrate photoreceptors) are structurally similar but

29 A major unsolved question in vertebrate photoreceptor biology is the mechanism of rho

30 nels shapes the light response properties of vertebrate photoreceptors, but the regulation of rod cou

31 lating the duration of the light response in vertebrate photoreceptors by activating the GTPase activ

32 in the termination of the light response in vertebrate photoreceptors by binding selectively to ligh

33 fied by the cilia-based outer segment of the vertebrate photoreceptor cell and the microvilli-based r

34 The vertebrate photoreceptor cell contains an elaborate cili

35 ght-sensitive outer segment organelle of the vertebrate photoreceptor cell is a modified cilium fille

36 The outer segment of a vertebrate photoreceptor cell represents the most elabor

37 Vertebrate photoreceptor cells are the basic sensory app

38 Vertebrate photoreceptor cells can signal the absorption

39 inactivation of the G-protein transducin in vertebrate photoreceptor cells during their recovery fro

40 esterase (PDE) is the key effector enzyme of vertebrate photoreceptor cells that regulates the level

41 In vertebrate photoreceptor cells, rapid recovery from ligh

42 In vertebrate photoreceptor cells, transducin mediates sign

43 aspects of transport in specialized cilia of vertebrate photoreceptor cells.

44 the photoresponse during visual signaling in vertebrate photoreceptor cells.

45 eric G-protein mediating visual signaling in vertebrate photoreceptor cells.

46 e effector enzyme, cGMP phosphodiesterase in vertebrate photoreceptor cells.

47 Cyclic AMP regulates melatonin synthesis in vertebrate photoreceptor cells.

48 enzyme in the visual transduction cascade of vertebrate photoreceptor cells.

49 f cGMP on transduction of a visual signal in vertebrate photoreceptor cells.

50 r enzyme that regulates the level of cGMP in vertebrate photoreceptor cells.

51 cal for efficient rhodopsin transport to the vertebrate photoreceptor ciliary outer segment.

52 Vertebrate photoreceptors contain large numbers of close

53 gnaling and transcription factors that drive vertebrate photoreceptor development and discuss how the

54 we report that functionally active RGS9 from vertebrate photoreceptors exists as a tight complex with

55 r results reveal that MCU is dispensable for vertebrate photoreceptor function, consistent with its l

56 de-gated (CNG) channels in outer segments of vertebrate photoreceptors generate electrical signals in

57 in protein, Otx2, is a critical regulator of vertebrate photoreceptor genesis.

58 Vertebrate photoreceptors have a modified cilium compose

59 Vertebrate photoreceptors have been studied for well ove

60 f ciliary proteins, including those found in vertebrate photoreceptors, have been uncovered and linke

61 buted among the six classes conserved across vertebrates - photoreceptor, horizontal, bipolar, amacri

62 In vertebrate photoreceptors IFT is required for the early

63 tal mechanisms that modulate the function of vertebrate photoreceptors in health and disease.

64 ions corresponding to levels in dark-adapted vertebrate photoreceptors inhibit the ability of GCAPs t

65 Vertebrate photoreceptors initiate vision via a G-protei

66 The light-sensitive outer segment of the vertebrate photoreceptor is a highly modified primary ci

67 Light adaptation in vertebrate photoreceptors is commonly attributed to a fe

68 Phototransduction machinery in vertebrate photoreceptors is contained within the membra

69 However, light activation of vertebrate photoreceptors leads to activation of a cGMP-

70 rtant recent advance in the understanding of vertebrate photoreceptor light adaptation has come from

71 In vertebrate photoreceptors, light activates a signaling c

72 Vertebrate photoreceptor neurons have a high demand for

73 traspanin protein family required for normal vertebrate photoreceptor outer segment (OS) architecture

74 ripherin-2/rds is required for biogenesis of vertebrate photoreceptor outer segment organelles.

75 In vertebrate photoreceptor outer segments, numerous reacti

76 In vertebrate photoreceptors, photoexcited rhodopsin intera

77 However, the role of retrograde IFT in vertebrate photoreceptors remains unclear.

78 The continuous function of vertebrate photoreceptors requires regeneration of their

79 ntrinsic and extrinsic factors that regulate vertebrate photoreceptor specification and differentiati

80 Darkness serves as a stimulus for vertebrate photoreceptors; they are actively depolarized

81 Calcium enters the outer segment of a vertebrate photoreceptor through a cGMP-gated channel an

82 control the recovery of the photoresponse in vertebrate photoreceptors, through their molecular inter

83 this circuit resembles information flow from vertebrate photoreceptors to 'OFF' bipolar and 'ON' bipo

84 rities and potential evolutionary origins of vertebrate photoreceptor types, we analyzed single-cell

85 These data indicate that all vertebrate photoreceptors use the evolutionary conserved

86 oreceptor guanylate cyclase (GC) in bleached vertebrate photoreceptors when [Ca2+]free decreases but