ライフサイエンスコーパス: axonal guidance

1 body beta-lobe midline crossing, a metric of axonal guidance.

2 ember of the semaphorin family, important in axonal guidance.

3 2 mediates both precrossing and postcrossing axonal guidance.

4 ins involved in neuronal differentiation and axonal guidance.

5 ludes Dock, an adaptor protein important for axonal guidance.

6 t a critical role for L1CAM in corticospinal axonal guidance.

7 etermination, male copulatory structures and axonal guidance.

8 e developmental vascular assembly and direct axonal guidance.

9 P61F and the unidentified phosphoproteins in axonal guidance.

10 midal neuron differentiation, migration, and axonal guidance.

11 ction suggesting a function of glycolysis in axonal guidance.

12 a Drosophila snx6 mutant displays defects in axonal guidance.

13 igodendrocytes and is a critical receptor in axonal guidance.

14 that physical cues can play crucial role in axonal guidance.

15 s system development and function, including axonal guidance.

16 e-synaptic functions, MEK-ERK signaling, and axonal guidance.

17 s such as cell migration, wound healing, and axonal guidance.

18 location to endosomes, AChR localization and axonal guidance.

19 glia and Vim(+) radial glia may aid in early axonal guidance.

20 member of the semaphorin family important in axonal guidance.

21 ying critical roles in neuronal survival and axonal guidance.

22 e importance of modifier genes in vertebrate axonal guidance.

23 ograde transport and microtubule function in axonal guidance.

24 e common signaling events in plexin-mediated axonal guidance.

25 r, and semaphorin 3A (Sema3A), a mediator of axonal guidance.

26 family receptors are conserved regulators of axonal guidance.

27 lays a crucial role in Semaphorin3a-mediated axonal guidance.

28 D413G) affects protein localization, impairs axonal guidance activity and induces mild phototransduct

29 nal determinants, including those engaged in axonal guidance and adhesion.

30 netrin-1, a molecule that may be involved in axonal guidance and cell migration, our results suggest

31 ariety of developmental processes, including axonal guidance and cell migration.

32 eby regulating the actin-cytoskeleton during axonal guidance and cell migration.

33 ith a dual function of the unplugged gene in axonal guidance and cell motility.

34 function seems to be mediated by G proteins, axonal guidance and cell survival may be G protein-indep

35 propose that biological factors relating to axonal guidance and command neuron functions contribute

36 microdevices specifically designed to study axonal guidance and compare them with the conventional a

37 Pa-En2 both contribute toward the control of axonal guidance and confirmed that Pa-En1 has the paralo

38 at consists of growth factor, cell adhesion, axonal guidance and cytoskeletal modifying molecules tha

39 lopmental delay, and short stature, and that axonal guidance and dendritic projection defects as well

40 system, where it regulates processes such as axonal guidance and elongation.

41 The cell adhesion molecule L1 regulates axonal guidance and fasciculation during development.

42 redominant sulfated structure that regulates axonal guidance and growth in the adult nervous system.

43 Axonal growth cones mediate axonal guidance and growth regulation.

44 fically type IV, are important regulators of axonal guidance and have been increasingly implicated in

45 he Slits are secreted proteins with roles in axonal guidance and leukocyte migration.

46 molecules L1 and CHL1, which are crucial for axonal guidance and maintenance of neural circuits, for

47 o stress, including pathways associated with axonal guidance and myelination.

48 hese miRNAs are associated with dysregulated axonal guidance and netrin signaling.

49 rticipates in cytoskeleton remodeling during axonal guidance and neuronal migration.

50 Hippocampal axonal guidance and peripheral nerve myelination were no

51 hat the Slit proteins, which are involved in axonal guidance and related developmental processes in n

52 rin receptor expressed in BCs, controls both axonal guidance and subcellular target recognition.

53 ns, suggesting a role for these receptors in axonal guidance and synapse formation during neuronal de

54 mproper pathway activation causes defects in axonal guidance and synaptic growth, whereas loss-of-fun

55 s neuronal migration, cytoskeletal dynamics, axonal guidance and synaptic plasticity among others.

56 Axonal guidance and synaptic specification depends on sp

57 f sexually dimorphic circuits by influencing axonal guidance and synaptogenesis.

58 Axonal guidance and vascular patterning share several gu

59 iferation, cell specification, migration and axonal guidance); and (iv) combined hypoplasia and atrop

60 Semaphorins play an essential role in axonal guidance, and emerging evidence points to diverse

61 gnaling cascades that regulate angiogenesis, axonal guidance, and neuronal plasticity.

62 ellular functions in mammalian cells such as axonal guidance, apoptosis, and chemotaxis.

63 th neurodegenerative diseases are related to axonal guidance, apoptosis, and inflammation, therefore,

64 nsitive events such as neurite extension and axonal guidance are driven by Ca(2+) signals that are pr

65 NT and Hedgehog signaling, neurogenesis, and axonal guidance as direct EN1 transcriptional targets.

66 mple, neuronal proliferation, migration, and axonal guidance as well as postnatal plasticity.

67 To develop a better understanding of axonal guidance at the molecular level, we purified prot

68 To develop a better understanding of axonal guidance at the molecular level, we used the SH2

69 erse array of physiologic processes, such as axonal guidance, bone remodeling, and immune cell develo

70 tant role of furin in development, including axonal guidance, cardiogenesis, and maintenance of stem

71 nriched for genes involved in cell adhesion, axonal guidance, cell surface receptor expression and ac

72 ns reveals enrichment of genes implicated in axonal guidance, cell-cell adhesion, neuronal morphogene

73 adaptor protein that functions in Drosophila axonal guidance, consists of three tandem Src homology 3

74 The axonal guidance cue netrin-1 serves a critical role in n

75 tly, the anti-inflammatory properties of the axonal guidance cue netrin-1 were reported.

76 Using live imaging, we demonstrate that the axonal guidance cue Slit and its receptor Robo are both

77 h ephrinB3 being a developmentally important axonal guidance cue whose expression in mature oligodend

78 lapse elicited by Semaphorin 3A (Sema3A), an axonal guidance cue.

79 Axonal guidance cues (AGC) are molecules that guide the

80 are known to act as diffusible and repellant axonal guidance cues during nervous system development.

81 show that axonal guidance cues in the CNS can be manipulated to en

82 The axonal guidance cues that organize this precise projecti

83 s can dramatically change their responses to axonal guidance cues, but the physiological signals that

84 We utilized antibodies against axonal guidance cues, such as the cell surface glycoprot

85 ng developmental switch in responsiveness to axonal guidance cues.

86 he PFP or the corpus callosum make different axonal guidance decisions in the same anatomical region

87 Yet models examining the molecular basis for axonal guidance defects in developing human neurons have

88 Remarkably, the axonal guidance defects observed in B3gnt1, ISPD, and dy

89 r movement-like deficits are associated with axonal guidance defects of two identified groups of comm

90 te into retinal circuitry but exhibit severe axonal guidance defects.

91 ys a significant role in neuronal migration, axonal guidance, dendrite outgrowth, and synapse formati

92 indicating upregulation of genes involved in axonal guidance, dendritic maturation and synaptic funct

93 The cell adhesion molecule L1 mediates axonal guidance during neural development and mutations

94 tivation of Plexin (Plex) receptors provides axonal guidance during neuronal development.

95 glion cells, which in turn respond by making axonal guidance errors at the optic chiasm.

96 s play a crucial role in the transduction of axonal guidance events elicited by semaphorin proteins.

97 receptor, with homology to cell adhesion and axonal guidance factors, that is implicated in planar po

98 ma-2b signaling that mediates mechanosensory axonal guidance, fasciculation, and synaptic target sele

99 mily and confirms that both the cellular and axonal guidance functions of C. elegans unc-5 have been

100 sets annotated for neurotrophin pathways and axonal guidance functions.

101 s with CasL), but requires MICAL for certain axonal guidance functions.

102 in cell migration, tissue morphogenesis, and axonal guidance in many different systems.

103 l surface and secreted proteins that provide axonal guidance in neuronal tissues and regulate cell mo

104 ays a critical role in neuronal survival and axonal guidance in the developing murine hippocampus and

105 ial for growth, cell fate determination, and axonal guidance in the developing nervous system.

106 ntrol integrins, the actin cytoskeleton, and axonal guidance in the extending neurite.

107 tor Neogenin are thought to be regulators of axonal guidance in the nervous system.

108 ive renewed perspective on the mechanisms of axonal guidance in the spinal cord that provide for a di

109 egulates among others neuronal outgrowth and axonal guidance in vertebrates and invertebrates.

110 Other responding genes included axonal guidance, inflammation (AMPK, NFKB, APK/JNK signa

111 Axonal guidance involves extrinsic molecular cues that b

112 eating using micro-heater confirmed that the axonal guidance is caused by shallow temperature-gradien

113 Axonal guidance is key to the formation of neuronal circ

114 inal ganglion cell (RGC) differentiation and axonal guidance is required for a functional visual syst

115 The role of vesicular traffic in axonal guidance is still largely unknown.

116 thway, best known for its role in regulating axonal guidance, is essential for proper gonad formation

117 ght to have little molecular relationship to axonal guidance mechanisms active embryonically.

118 We propose an axonal guidance model in which different guidance cues a

119 We show here that repulsive axonal guidance molecule a (RGMa) acts to prevent regrow

120 s along the PSPB, as well as to a failure of axonal guidance molecule expression, including Sema3c an

121 pe of the semaphorin family, is an important axonal guidance molecule in vitro and in vivo.

122 hat in two rat models of liver fibrosis, the axonal guidance molecule neuropilin-1 (NRP-1) was upregu

123 e regulates local expression of netrin-1, an axonal guidance molecule that activates resolution, and

124 Semaphorin 3B (SEMA3B) is a secreted axonal guidance molecule that is expressed during develo

125 demonstrate that Semaphorin 4C (Sema4C), an axonal guidance molecule, plays a crucial role in B cell

126 roblast growth factor receptor 1 (FGFR1) and axonal guidance molecules known as neuropilins (NRPs).

127 Tumor release of neurotrophic factors and axonal guidance molecules likely directs axons toward th

128 We found that the axonal guidance molecules Sema3A and Sema3D were highly

129 The association of axonal guidance molecules with drug-induced reorganizati

130 Semaphorins were originally identified as axonal guidance molecules, but they also control process

131 pression of select members of this family of axonal guidance molecules, implicating Ephs, ephrins in

132 for a novel role for Netrins, best known as axonal guidance molecules, in modulating the morphogenet

133 Several of its members act as axonal guidance molecules.

134 ed PI3 kinase signaling and induced specific axonal guidance molecules.

135 nriched in genes involved in cell migration, axonal guidance, neurogenesis, and regulation of transcr

136 ase family that includes receptors signaling axonal guidance, neuronal bundling, and angiogenesis.

137 Eph family receptor tyrosine kinases signal axonal guidance, neuronal bundling, and angiogenesis; ye

138 mbrane protein that plays important roles in axonal guidance, neuronal development, and angiogenesis.

139 ificant pathways involved neuronal function (axonal guidance, neuronal systems, and L1 cell adhesion

140 pocampal development exemplified by abnormal axonal guidance of dentate gyrus granule and mossy cells

141 adaptor protein that is known to function in axonal guidance paradigms in the fly including proper de

142 in inflammation, mitochondrial function and axonal guidance pathways, suggesting its regulation on m

143 differentiation, synaptic transmission, and axonal guidance, processes fundamental to brain developm

144 partners, we have identified the Roundabout axonal guidance receptor Robo2 and its ligands Slit2 and

145 EphA4 is a negative axonal guidance regulator during development.

146 RT-qPCR also showed enhanced stem cell and axonal guidance related gene expression (Bmp2, GDNF, and

147 in mature neurons, but its potential role in axonal guidance remains elusive.

148 Eph and ephrins have been shown to regulate axonal guidance, segmentation, cell migration, and angio

149 altered transcripts are implicated in GR and axonal guidance signaling in dentate gyrus and dopamine

150 orin Signaling in Neurons," a member of the "Axonal Guidance Signaling System." At 1 week postinjecti

151 analysis also indicated an upregulation of "Axonal Guidance Signaling" pathway.

152 tory response and identified novel pathways, axonal guidance signaling, synaptic transmission, eIF2 a

153 involved in neuronal functions, for example, axonal guidance signaling.

154 e, various intracellular effectors transduce axonal guidance signals by remodeling the cytoskeleton.

155 system, regulates the response of neurons to axonal guidance signals.

156 to address specific questions extending from axonal guidance, synapse formation, or axonal transport

157 These proteins mediate axonal guidance, synapse targeting, and other neuronal w

158 h dysregulation of brain mRNAs and miRNAs in axonal guidance, synaptic plasticity, mitochondria funct

159 eys and mammals suggest that the UNC5-Netrin axonal guidance system may play a role in limiting axona

160 implicates a function for DCC in additional axonal guidance systems not predicted from the knockout

161 ighlight genes related to synaptogenesis and axonal guidance, thus also implicating differences in in

162 lar matrix production, bone/joint formation, axonal guidance, vascular development, cell proliferatio

163 o understand mechanisms of OEC migration and axonal guidance, we injected lamina propria OECs 1 mm ro