ライフサイエンスコーパス: nerve cord

1 e from DBL-1-expressing cells in the ventral nerve cord.

2 ory systems and sends outputs to the ventral nerve cord.

3 itation of descending neurons in the ventral nerve cord.

4 corazonin (Crz) neuropeptide in the ventral nerve cord.

5 cells have axons descending into the ventral nerve cord.

6 ns project across the midline of the ventral nerve cord.

7 n an adjacent tissue: the floor plate of the nerve cord.

8 pression during metamorphosis of the ventral nerve cord.

9 projection from the cell body to the ventral nerve cord.

10 ns from motor neurons located in the ventral nerve cord.

11 nts driving expression in the eye, brain and nerve cord.

12 bl-1, in both the hypodermis and the ventral nerve cord.

13 Mint-1 also regulates GLR-1 abundance in the nerve cord.

14 ient length to achieve proper sealing of the nerve cord.

15 andful of 5-HT(1crust)ir cells in the entire nerve cord.

16 ressed in lateral regions of the presumptive nerve cord.

17 urons projected caudally through the ventral nerve cord.

18 transmitter usage map for the entire ventral nerve cord.

19 ion of POU genes in the Drosophila embryonic nerve cord.

20 reased the abundance of GLR-1 in the ventral nerve cord.

21 ntally iterated sets of cells in the ventral nerve cord.

22 posterior peripheral nerves from the dorsal nerve cord.

23 fic ascending neurons, LSANs, in the ventral nerve cord.

24 auses axon patterning defects in the ventral nerve cord.

25 of neuronal differentiation in the metazoan nerve cord.

26 y linking the olfactory lobe and the ventral nerve cord.

27 llows for direct application of drugs to the nerve cord.

28 e, corresponding with the developing ventral nerve cord.

29 nding of axons that extend along the ventral nerve cord.

30 indication of segmentation in the amphioxus nerve cord.

31 e for fictive swimming in the isolated leech nerve cord.

32 es from abnormal positions along the ventral nerve cord.

33 d in only 168 cells in the brain and ventral nerve cord.

34 cicle and resume migration toward the dorsal nerve cord.

35 intersegmental interactions conveyed by the nerve cord.

36 subsets of neurons in the brain and ventral nerve cord.

37 mulate in punctate structures in the ventral nerve cord.

38 ates including a notochord and hollow dorsal nerve cord.

39 lex, and in a subset of cells of the ventral nerve cord.

40 used for direct application of drugs to the nerve cord.

41 siently in the embryonic ectoderm and dorsal nerve cord.

42 nergic and serotonergic cells of the ventral nerve cord.

43 for the 33 CNS ganglia comprising the leech nerve cord.

44 r in the subesophageal region of the ventral nerve cord.

45 s stalling and failing to extend through the nerve cord.

46 ions that inadvertently targeted the ventral nerve cord.

47 neurons at specific locations in the ventral nerve cord.

48 I) through hugin+ SEZ neurons to the ventral nerve cord.

49 rks for the neuromeres of the larval ventral nerve cord.

50 s clustered throughout the brain and ventral nerve cord.

51 e discs and causes invasion into the ventral nerve cord.

52 m the brain to motor circuits in the ventral nerve cord.

53 rborize throughout the brain and the ventral nerve cord.

54 ng Yki activity in the central brain/ventral nerve cord.

55 DDs receive cholinergic inputs in the dorsal nerve cord.

56 te of motor programs executed in the ventral nerve cord.

57 ion in the late larval central brain/ventral nerve cord.

58 targeting of neurons in the brain or ventral nerve cord.

59 ther Zn nor Pb was detectable in the ventral nerve cord.

60 ind), a gene essential for patterning of the nerve cord.

61 aros/Hunchback proteins do in the Drosophila nerve cord.

62 ges (notopodia) and project into the ventral nerve cord.

63 d corpus allatum and travel down the ventral nerve cord.

64 n that resides at the midline of the ventral nerve cord.

65 at a different phase angle, also in isolated nerve cords.

66 at various stages to isolated larval ventral nerve cords.

67 ms, either swimming or crawling, in isolated nerve cords.

68 rrested cell movement, as measured in living nerve cords.

69 urons in three adjacent segments of isolated nerve cords.

70 tend axons along both the dorsal and ventral nerve cords.

71 system, including the nerve ring and dorsal nerve cords.

72 in the head, pharynx, and dorsal and ventral nerve cords.

73 are present along the midline of the ventral nerve cord (2 to 3 dorsal and 1 to 2 ventral cells per n

74 mbles vertebrates in having a dorsal, hollow nerve cord, a notochord and somites.

75 In the Drosophila ventral nerve cord, a small number of neurons express the LIM-ho

76 In the Drosophila nerve cord, a subset of neurons expresses the neuropepti

77 ventral nerve cord and ventral to the dorsal nerve cord, above the regions where synapses form.

78 et of the doomed CCAP neurons in the ventral nerve cord also expressed the neuropeptide bursicon and

79 These data indicate that Drosophila nerve cord amine receptors are coupled to reflexive beha

80 idgut, dorsal vessel, midline of the ventral nerve cord, amnioserosa and the amnioproctodeal invagina

81 In the developing nerve cord, AmphiNotch is first expressed in the posteri

82 level of somite 7 to the anterior end of the nerve cord (amphioxus) or (2) discontinuous expression w

83 ndings suggest that anemotaxis involves both nerve cord and brain circuits.

84 In this study, we identified few ventral nerve cord and brain octopaminergic neurons expressing a

85 t axon guidance along the C. elegans ventral nerve cord and cause distinct functional defects in sens

86 g usp-46 have decreased GLR-1 in the ventral nerve cord and corresponding defects in GLR-1-dependent

87 rthropods is the opposite orientation of the nerve cord and heart.

88 s resemble those from the Drosophila ventral nerve cord and indicate that in vertebrates a low level

89 ablished by surface glia, which ensheath the nerve cord and insulate it against the potassium-rich he

90 ylcholine (ACh) and GABA are released in the nerve cord and mediate fast neuromuscular excitation and

91 In the Drosophila nerve cord and mouse spinal cord, commissural axons are

92 NID-1 is concentrated laterally, between the nerve cord and muscles, whereas CLE-1 is concentrated do

93 eceptor, 5-HT1crust, throughout the crayfish nerve cord and on abdominal superficial flexor muscles.

94 system comprises the central brain, ventral nerve cord and optic lobe.

95 d by oppositely directed condensation of the nerve cord and relocation of the heart in the two lines.

96 tion of these motoneurons within the ventral nerve cord and targeting to specific muscles.

97 rconnect different neuromeres of the ventral nerve cord and the brain.

98 cific molecular markers, position within the nerve cord and the effect of eagle loss-of-function muta

99 nt with the evolution of the chordate dorsal nerve cord and the insect ventral nerve cord from a long

100 CLE-1 is concentrated dorsal to the ventral nerve cord and ventral to the dorsal nerve cord, above t

101 is concentrated along the dorsal and ventral nerve cords and in the synapse-rich nerve ring.

102 can drive brain-profile proliferation in the nerve cord, and can reprogram developing wing discs into

103 o be expressed in the anterior brain, caudal nerve cord, and in parts of the brain associated with th

104 ed by the position of ganglia in the ventral nerve cord, and is involved in the morphogenesis of segm

105 F10 mRNA was detected in the brain, nerve cord, and midgut, and the mRNA levels in the nervo

106 sed in the neurons of the developing ventral nerve cord, and nrx IV mutants show crossing and circlin

107 , visceral, and somatic muscles, the ventral nerve cord, and the larval photoreceptor system.

108 reases the abundance of GLR-1 in the ventral nerve cord, and this effect is further enhanced by coexp

109 tive excitatory motor neurons in the ventral nerve cord appear to be cholinergic: the DA and DB neuro

110 ead to defects in the maintenance of ventral nerve cord architecture.

111 euron types and fasciculation of the ventral nerve cord are defective.

112 ition, at least 5 of 51 fru+ lineages in the nerve cord are dimorphic.

113 Most neurons of the adult Drosophila ventral nerve cord arise from a burst of neurogenesis during the

114 raxial mesoderm is formed bilaterally to the nerve cord as a result of primitive streak and tail-bud

115 onal series of photoreceptors in the ventral nerve cord as well as photoreceptors that are located in

116 nd may use an existing network of peripheral nerve cords as guideposts for key branching decisions.

117 d its specific electrical synapse within the nerve cord, as shown by restored conduction of impulses

118 gnaling to drive the CE required for ventral nerve cord assembly in C. elegans.

119 nuclei of Drosophila melanogaster's ventral nerve cord at the late embryonic stage.

120 xtended supernumerary branches to the dorsal nerve cord at the same time the previously formed axons

121 , the fiber that took over as largest in the nerve cord became the most heavily myelinated and was id

122 bryonic period of cell death and the ventral nerve cord becomes massively hypertrophic.

123 e locked to the swimming rhythm expressed in nerve cord-body wall preparations and, at a different ph

124 growth cone follows cues in the left ventral nerve cord bundle provided by the PVPR and PVQL axons.

125 of the PVPR neuron pioneers the left ventral nerve cord bundle, providing a path for the embryonic ex

126 nding of growth cones along the left ventral nerve cord bundle.

127 ynaptic to cholinergic neurons in the dorsal nerve cord but do not remodel.

128 found in the normal vnd/NK-2 pattern in the nerve cord but not in part of the cephalic region.

129 linergic motor neuron classes of the ventral nerve cord can be subdivided into subclasses along the a

130 ls transmitted from rostral segments via the nerve cord can initiate peristalsis in "empty" caudal se

131 a or neurons, including those located in the nerve cord, causes a similar phenotype.

132 cells and/or processes present in the radial nerve cords, circumoral nerve ring, digestive system (e.

133 distribution, including expression in radial nerve cords, circumoral nerve ring, digestive system, tu

134 actile status of muscles back to the central nerve cord, completely rescues early-stage motor defects

135 lts in significant shortening of the ventral nerve cord, compression of the glia and extracellular ma

136 illing, whereas DHR3 is required for ventral nerve cord condensation and betaFTZ-F1 is required for p

137 dRCC1 mutant nerve cords contain abnormally large cells with compartm

138 zed dorsally in the anteriormost part of the nerve cord corresponding to the diencephalon.

139 We image both brain and ventral nerve cord, covering the entire CNS at 2 or 5 Hz with tw

140 In many isolated whole nerve cords, DE-3 bursting progressed in an anterior to

141 ral nerve cord defective (vnd), intermediate nerve cord defective (ind), muscle segment homeodomain (

142 is of the developing CNS and include ventral nerve cord defective (vnd), intermediate nerve cord defe

143 Dichaete functions in parallel with ventral nerve cord defective and intermediate neuroblasts defect

144 rily conserved transcription factors ventral nerve cord defective and intermediate neuroblasts defect

145 e that Dichaete acts in concert with ventral nerve cord defective and intermediate neuroblasts defect

146 The Drosophila melanogaster ventral nerve cord derives from neural progenitor cells called n

147 pected, but is also expressed during ventral nerve cord development in the embryo and in larval imagi

148 n haemocytes and the VNC and that defects in nerve cord development prevent haemocyte migration along

149 a localized source of FGF3 in the developing nerve cord directs notochord intercalation through non-M

150 eurosecretory neurons of the lobster ventral nerve cord display a period of suppressed spike generati

151 ion: the newly regenerated brain and ventral nerve cords do not re-establish proper connections.

152 blished that the giant axons of the crayfish nerve cord drive tail-flip escape responses.

153 addition to the H-cells, within the ventral nerve cord during development.

154 rons extend axons from the ventral to dorsal nerve cord during the L2 stage.

155 hat excretory organs, coelomic cavities, and nerve cords evolved after xenacoelomorphs separated from

156 In cultured nerve cord explants from the crayfish (Procambarus clark

157 terize a restricted subset of neurons in the nerve cord expressing the Maf transcription factor Traff

158 Nerve cord expression occurs in a few cells approximatel

159 mLhx2 and ap are expressed in the respective nerve cords, eyes, olfactory organs, brain, and limbs.

160 eurodegeneration, seen as bulges and gaps in nerve cords followed by loss of neurons, occurs after in

161 ate dorsal nerve cord and the insect ventral nerve cord from a longitudinal nerve cord in a common bi

162 penetrated large axons in the nerve roots of nerve cords from adult leeches with dye-filled (Alexa Fl

163 specific neurons, fusion of adjacent ventral nerve cord ganglia and aberrant axon scaffold organizati

164 se neurons release octopamine in the ventral nerve cord ganglia and, most likely, convey information

165 lasts reactivate from quiescence and ventral nerve cord glia expand their membranes.

166 to their spatial organization in the ventral nerve cord, glial cells of the brain populate the brain

167 The Drosophila ventral nerve cord has been a central model system for studying

168 In normal amphioxus, the nerve cord has only a slight anterior swelling, the cere

169 nsect ventral nerve cord from a longitudinal nerve cord in a common bilaterian ancestor.

170 By recording calcium signals in the ventral nerve cord in singing flies, we found that one neural po

171 rtant role in the development of the ventral nerve cord in the anterior- and posterior-most part of t

172 t pairs of bi-lateral neurons in the ventral nerve cord in the larvae.

173 e discovery of fossilized brains and ventral nerve cords in lower and mid-Cambrian arthropods has led

174 ht pairs of bilateral neurons in the ventral nerve cord; in adult, the number of Crz-producing neuron

175 n with toluidine blue studies of the ventral nerve cord indicated a high likelihood that cells in the

176 ed that NO was generated within 30 min after nerve cord injury.

177 th an anterior brain attached to two ventral nerve cords interconnected by multiple commissures.

178 e and a process longitudinally along ventral nerve cord interneurons.

179 These genes divide the ventral nerve cord into three columns along the dorsal-ventral a

180 homologous to mouse Hoxb-1) in the amphioxus nerve cord is also extended anteriorly.

181 The vast majority of the adult fly ventral nerve cord is composed of 34 hemilineages, which are clu

182 rgic/tyraminergic neurons within the ventral nerve cord is sufficient to trigger proper larval locomo

183 ene expression in neuroblasts of the ventral nerve cord is the sum of partial patterns.

184 hanges in extracellular dopamine in a single nerve cord isolated from a Drosophila larva.

185 on of AmphiHox-1 expression in the amphioxus nerve cord, it does not alter the expression of AmphiHox

186 pentamerous symmetry and lack a longitudinal nerve cord, it has not been clear how the roles of the c

187 through the segmental ganglia comprising the nerve cord; its terminal arbors invade each hemi-ganglio

188 essed in a single interneuron in the ventral nerve cord, known as PVT.

189 regeneration of the AVM axon to the ventral nerve cord lacks the deterministic precision of initial

190 In the Drosophila embryonic ventral nerve cord, many axons still cross the midline in the ab

191 as an evolutionarily conserved mechanism of nerve cord morphogenesis and reveal a role for SAX-3/Rob

192 In the ventral nerve cord, most glial cells are formed by a relatively

193 l distinct neuron classes, including ventral nerve cord motor neurons, head motor neurons, and mechan

194 between the cephalic ganglia and the ventral nerve cords, neurally derived signals promote the differ

195 During development of the Drosophila nerve cord, neuroblast 7-3 gives rise to a pair of mitot

196 and PI3-kinase activation, brain and ventral nerve cord neuroblasts reactivate from quiescence and ve

197 ts that require Notch signaling, rather than nerve cord neuroblasts, the formation of which is inhibi

198 otonal and multidendritic class III) and six nerve cord neuron types involved in anemotaxis.

199 utant animals, the axons of specific ventral nerve cord neurons do not respect the ventral midline bo

200 pathways provide structured input to ventral nerve cord neurons in a manner consistent with their act

201 e development of apterous-expressing ventral nerve cord neurons to rescue the SP response.

202 CapI-Wnt1, as well as in a subset of ventral nerve cord neurons, anterior gut tissue, and mesoderm.

203 Cholinergic ventral nerve cord neurons, which innervate the same muscles as

204 We also find that the larval ventral nerve cord neuropil is rich in glutamatergic synapses, w

205 well-studied neuronal lineage in the ventral nerve cord, Notch signaling specifies sib fate to one of

206 ivation in the brain, but not in the ventral nerve cord octopaminergic neurons, triggers an egg-layin

207 Analysis in the Drosophila ventral nerve cord of a slit allele (slit-UC) that cannot be cle

208 on position postembryonically in the ventral nerve cord of C. elegans.

209 the glutamate receptor GLR-1 in the ventral nerve cord of C. elegans.

210 the glutamate receptor GLR-1 in the ventral nerve cord of Caenorhabditis elegans.

211 inal tracts along the midline in the ventral nerve cord of Drosophila embryo.

212 We have studied astrogenesis in the ventral nerve cord of Drosophila larvae, where astrocytes exhibi

213 ctivity in circuit assembly in the embryonic nerve cord of Drosophila.

214 In the ventral nerve cord of fruit flies, neurons from the same hemilin

215 The ventral nerve cord of holometabolous insects is reorganized duri

216 line is a source of signals that pattern the nerve cord of insect embryos.

217 We severed the ventral nerve cord of leeches in midbody and then made video and

218 ricted expression profile is observed in the nerve cord of other vertebrates as well as of the cephal

219 The ventral nerve cord of Tetraconata contains a comparably low numb

220 During neurogenesis in the ventral nerve cord of the Drosophila embryo, Notch signaling par

221 In the ventral nerve cord of the Drosophila embryo, Wg is non-autonomou

222 axonal connections between brain and ventral nerve cord of the first-instar Drosophila larva.

223 opeptide Corazonin (Crz) gene in the ventral nerve cord of the larval CNS undergo programmed death wi

224 been previously demonstrated in the ventral nerve cord of the leech Hirudo medicinalis Specifically,

225 rated in the ancestral chordate and that the nerve cord of the proximate invertebrate ancestor of the

226 otonin-immunoreactive neurons in the ventral nerve cord of Zygentoma (Thermobia domestica, Lepisma sa

227 The ventral and dorsal nerve cords of a single nematode were reconstructed half

228 sicon was purified from homogenates of 2,850 nerve cords of the cockroach Periplaneta americana by us

229 Development of the segmented central nerve cords of vertebrates and invertebrates requires co

230 xus concentrated in the anterior, along with nerve cords on both the dorsal and ventral side.

231 dominal hemisegment of the embryonic ventral nerve cord, only three survive into larval life, and the

232 evious studies have focused on the embryonic nerve cord or adult-specific compartments to establish t

233 In the entire isolated nerve cord or in the single ganglion, DA induced slow an

234 ide of the cascade identified in the ventral nerve cord or that redundancy exists at the level of fat

235 in proteins required for maintaining ventral nerve cord organization in Caenorhabditis elegans.

236 holog hbl-1 as a let-7 target in the ventral nerve cord, our findings show that let-7 acts in at leas

237 (Robo) receptors are conserved regulators of nerve cord patterning.

238 these include the cephalic ganglia, ventral nerve cords, photoreceptors, and the posterior digestive

239 te that unc-3 and unc-30 function in ventral nerve cord pioneering and that enu-1, fax-1, unc-42 and

240 Finally, repeated drug stimulation of a nerve cord preparation that is postsynaptic to the brain

241 ommissural neurons in the developing ventral nerve cord produces defasciculated axon bundles that do

242 ontrast, dopaminergic neurons of the ventral nerve cord promote copulation persistence and extend cop

243 coordination occurs in leeches with severed nerve cords, refuting earlier conclusions that sensory f

244 transcripts mark the lateral regions of the nerve cord, remarkably similar to Pax6 expression in the

245 lecules is an essential component of ventral nerve cord reorganization, we used antibodies selective

246 ly found in the anterior part of the ventral nerve cord, represented by the gnathal and thoracic neur

247 ses to the head along the dorsal and ventral nerve cords, respectively.

248 nd affect formation of the gonad and ventral nerve cord-resulting in sterile, uncoordinated animals-w

249 ost studied neuronal pairs in the Drosophila nerve cord, RP2/sib, has a complicated migratory route.

250 ons with dendrites in matching layers of the nerve cord send axons that converge to respective brain

251 integrin at the membrane rescues the ventral nerve cord shortening, peripheral glial compression, and

252 y in 5-HT(1crust)ir is great, but individual nerve cords show a consistent level of labeling between

253 tes expression of the endogenous gene in the nerve cord, somites, and notochord.

254 g larval development, the density of ventral nerve cord synapses containing the GLR-1 glutamate recep

255 tes, has a later embryo with a dorsal hollow nerve cord that elongates posteriorly from a tail bud.

256 These additional cells in the ventral nerve cord that express Mas-AT during the pupal and phar

257 entify a pair of interneurons in the ventral nerve cord that is activated by stimulation of mechanose

258 UNC-6-expressing interneurons in the ventral nerve cord, the circumferential processes extend only fr

259 ell-studied neuronal lineages in the ventral nerve cord, the Notch (N) signaling interacts with the a

260 middle pair of midline glias of the ventral nerve cord, the oenocyte clusters, and all tracheal cell

261 In the Drosophila ventral nerve cord, the six Tv neurons express the neuropeptide

262 vate a novel class of neurons in the ventral nerve cord to cause activation of P1 neurons, male-speci

263 e that Nedd4 acts with Comm in the embryonic nerve cord to downregulate Robo1 levels.

264 otor neurons (MNs) in the C. elegans ventral nerve cord to select and maintain their unique terminal

265 longitudinal track reaching from the ventral nerve cord to the "tip" of the brain.

266 s in both the ellipsoid body and the ventral nerve cord, two regions involved in motor control, resul

267 ter of DSX-expressing neurons in the ventral nerve cord undergoes female-specific cell death that is

268 e induced fictive crawling in isolated whole nerve cords using dopamine (DA) and blocked descending i

269 GRASP) to show that pr1 cells in the ventral nerve cord (VNC) are required for the nociceptive respon

270 Here we show that CE is involved in ventral nerve cord (VNC) assembly in Caenorhabditis elegans.

271 he anteroposterior (A/P) axis in the ventral nerve cord (VNC) in Caenorhabditis elegans.

272 The Drosophila ventral nerve cord (VNC) is composed of thousands of neurons bor

273 R-1 are decreased at synapses in the ventral nerve cord (VNC) of animals with mutations in the AP2 su

274 and target recognition, axons in the ventral nerve cord (VNC) of Caenorhabditis elegans require the p

275 utamate receptors at synapses in the ventral nerve cord (VNC) of Caenorhabditis elegans.

276 essing cells (Ap-let neurons) in the ventral nerve cord (VNC) of Drosophila larvae co-express numerou

277 standard average shape atlas for the ventral nerve cord (VNC) of Drosophila melanogaster.

278 nergic varicosities in the brain and ventral nerve cord (VNC) of the larval Drosophila CNS.

279 The Drosophila ventral nerve cord (VNC) receives and processes descending signa

280 ithin each segment of the Drosophila ventral nerve cord (VNC), each of two serotonergic neurons tiles

281 died neuronal pair in the Drosophila ventral nerve cord (VNC), has a complex migration route.

282 meobox gene targets in the posterior ventral nerve cord (VNC), including BX-C genes and their TALE co

283 oracic and abdominal neuromeres, the ventral nerve cord (VNC), to provide an anatomical description o

284 ld a 3D digital map of the adult fly ventral nerve cord (VNC), we are confronted with a similar probl

285 rphogenesis of the Drosophila embryo Ventral Nerve Cord (VNC), we observe that a tight control of JNK

286 e major migratory route is along the ventral nerve cord (VNC), where haemocytes are required for the

287 ensation in the embryonic Drosophila ventral nerve cord (VNC).

288 itudinally projecting axons into the ventral nerve cord (VNC).

289 ts widespread glial responses in the ventral nerve cord (VNC).

290 Corazonin [Crz] neuropeptide in the ventral nerve cord [VNC])-where only neurites are pruned or enti

291 at-4), the abundance of GLR-1 in the ventral nerve cord was increased.

292 rns of programmed cell deaths in the ventral nerve cord, we identified mutations in the gene pag-3, w

293 neurons within each ganglion of the ventral nerve cord, we identified several other immunoreactive c

294 h brain lobe, whereas neurons in the ventral nerve cord were no longer detectable.

295 itory in the Drosophila third-instar ventral nerve cord where there already exists considerable under

296 crossing defects in the Drosophila embryonic nerve cord, which can be rescued by introduction of exog

297 r, expression extends to dorsal cells in the nerve cord, which may include precursors of sensory neur

298 he neural tube extends in the tail to form a nerve cord, while the endodermal strand fails to enter t

299 of injured AVM neurons regrow to the ventral nerve cord with over 60% reliability in adult animals.

300 e developing Drosophila melanogaster ventral nerve cord, with the Olig2(+) cells behaving as ganglion