ライフサイエンスコーパス: pharynx

1 d within the Caenorhabditis elegans foregut (pharynx).

2 ad NG detected (75 urogenital, 83 rectum, 72 pharynx).

3 to eradicate Neisseria gonorrhoeae from the pharynx.

4 muscles of face, mouth, tongue, larynx, and pharynx.

5 trains and H. haemolyticus isolated from the pharynx.

6 ells, specifically inhibited regrowth of the pharynx.

7 is a bacterium that resides within the human pharynx.

8 t-2 is localized mainly to the intestine and pharynx.

9 an primordia to completely separate from the pharynx.

10 to an FGF8-soaked bead placed dorsal to the pharynx.

11 specification of some of the neurons in the pharynx.

12 etected in RIP, PQR, and PDA or -B or in the pharynx.

13 not sufficient, for tooth initiation in the pharynx.

14 xcessively large particles from entering the pharynx.

15 morphogenesis of the Caenorhabditis elegans pharynx.

16 stance and gentamicin's poor efficacy at the pharynx.

17 atic H. influenzae colonization of the human pharynx.

18 reflect the known functional domains of the pharynx.

19 cells modulate FGF8 signaling in the caudal pharynx.

20 ntext that there may be excess tissue in the pharynx.

21 therto assumed based on position deep in the pharynx.

22 wall muscle and to the posterior half of the pharynx.

23 oblem is deposition of adipose tissue in the pharynx.

24 olved in the development and function of the pharynx.

25 cartilage patterning in the zebrafish larval pharynx.

26 function of other nicotinic receptors in the pharynx.

27 behavioral responses in the adult and dauer pharynx.

28 nase (MEK) 4 whose promoter is active in the pharynx.

29 dvanced through the rostral trachea into the pharynx.

30 ion of FGF-2 and similar FGFs in the ventral pharynx.

31 strips in the presence or absence of ventral pharynx.

32 f the thymus/parathyroid primordium from the pharynx.

33 pharynx and heart and that of Nkx2.3 in the pharynx.

34 the trunk into repetitive arrays of ventral pharynx.

35 ntire body surface and expands deep into the pharynx.

36 failed to eradicate N. gonorrhoeae from the pharynx.

37 he lateral border of the tongue and the oral pharynx.

38 stance and gentamicin's poor efficacy at the pharynx.

39 destroyed the integrity of the intestine and pharynx.

40 iated molecules are present in the patient's pharynx.

41 to a defect in neuromuscular control of the pharynx.

42 h thymus fate specification extends into the pharynx.

43 to homeostasis abnormalities in the head and pharynx.

44 etected (217 urogenital site, 249 rectum, 63 pharynx); 13.1% infected females and 71.8% MSM were urog

45 detected (75 urogenital site, 83 rectum, 72 pharynx); 9.4% infected females and 67.3% MSM were uroge

46 lected results were highly concordant at the pharynx (95%, kappa 0.85), rectum (99%, kappa 0.97), ure

47 Through the contraction of the worm's pharynx, a bacterial suspension is sucked into the phary

48 hibits pumping of the Caenorhabditis elegans pharynx, a myogenic muscular pump for feeding, and found

49 s via rhythmic contractions (pumping) of the pharynx, a neuromuscular feeding organ.

50 Eight drivers labeled neurons of the pharynx, a taste organ, and three labeled neurons of the

51 -the counting of extra cells of the anterior pharynx--a quantitative technique that can be used to de

52 tantially as cells in the nervous system and pharynx adopt their terminal fates; (ii) multilineage pr

53 hat FGF8 signaling is elevated in the caudal pharynx after cardiac neural crest ablation.

54 ved N. gonorrhoeae positivity of 8.1% in the pharynx and 7.9% in the rectum and C. trachomatis positi

55 ved N. gonorrhoeae positivity of 8.1% in the pharynx and 7.9% in the rectum and C.trachomatis positiv

56 and C.trachomatis positivity of 2.0% in the pharynx and 8.7% in the rectum.

57 and C. trachomatis positivity of 2.0% in the pharynx and 8.7% in the rectum.

58 rs of the oral and nasal cavity, larynx, and pharynx and accounts for approximately 350,000 deaths pe

59 echanically couples the buccal cavity to the pharynx and anterior epidermis ("Epithelialization"), an

60 t take a stereotype path rostrally along the pharynx and are thought to reach their target sites via

61 l crest cells (CNCC) migrate into the caudal pharynx and arterial pole of the heart to form the outfl

62 ermal precursor, giving rise to cells of the pharynx and body muscle among others, while its sister E

63 35-null mutation fail to generate MS-derived pharynx and body muscle, and instead generate ectopic PA

64 embles in flexible polymers that connect the pharynx and body-wall-muscle basement membranes.

65 am-negative bacteria that colonize the human pharynx and can cause respiratory tract infections, such

66 A set of nerve rings encircling the pharynx and connected to the brain and connectives const

67 h fluoroscopy was used for assessment of the pharynx and esophagus.

68 Anterior definitive endoderm, the future pharynx and foregut lining, emerges from the anterior pr

69 arized along the AP axis, such as the brain, pharynx and gut.

70 Electromyographic responses recorded from pharynx and hand were used as a measure of cortico-motor

71 ion of Nkx2.6 overlaps that of Nkx2.5 in the pharynx and heart and that of Nkx2.3 in the pharynx.

72 n of 120 kDa whose promoter is active in the pharynx and intestine of C. elegans.

73 ival, increases functional healthspan of the pharynx and intestine, and enhances nervous system healt

74 ely related species that colonizes the human pharynx and is considered to be nonpathogenic.

75 ows younger ages at diagnosis of oral cavity/pharynx and kidney cancers, possibly reflecting accelera

76 m the mucosal epithelium in the oral cavity, pharynx and larynx and are known collectively as head an

77 for oral cavity cancers and primary CRT for pharynx and larynx cancers.

78 n, aerosols could, if inhaled, settle in the pharynx and later be swallowed.

79 ng down chs-2 by RNAi caused a defect in the pharynx and led to L1 larval arrest, indicating that chi

80 a ceh-51 null mutation arrest as larvae with pharynx and muscle defects, although these tissues appea

81 tbx-35 results in the generation of ectopic pharynx and muscle tissue.

82 the detection of cancers of the oral cavity, pharynx and oesophagus.

83 ected stream projects along the floor of the pharynx and reaches as far rostrally as the floor of the

84 AT-2/betaPAT-3 integrin was activated in the pharynx and recruited high levels of collagen in an appa

85 sed order of clinician and self-samples from pharynx and rectum, plus first catch urine (MSM) and vul

86 FGF-8 and BMP-2 are present in the ventral pharynx and secondary heart field/outflow myocardium, re

87 n in polarizing epithelial cells of the gut, pharynx and sensory neurons.

88 es as a receptor for GAS colonization of the pharynx and support the potential efficacy of disrupting

89 y may alter the mechanical properties of the pharynx and the role of obesity in the pathogenesis of s

90 The ability to cause infection at both the pharynx and the skin ("generalist" strains) is correlate

91 wed: lips and oral cavity (n = 46 [93%]) and pharynx and vestibule of the nose (n = 26 [53%]).

92 of the compact formation (which supplies the pharynx) and to the loose formation (larynx), whereas th

93 ase predominantly affecting the oral cavity, pharynx, and conjunctiva.

94 (MS) shows the presence of AF1 in the head, pharynx, and dorsal and ventral nerve cords.

95 CPL-1::GFP) was expressed in the hypodermis, pharynx, and gonad.

96 rough the midline of the developing face and pharynx, and its participation in formation of a single

97 sms-1 isoform is expressed in the C. elegans pharynx, and its transgene rescues the sms-1 mutant phen

98 euronal cell groups innervating soft palate, pharynx, and larynx as well as diaphragm, intercostal, a

99 oordinated development of the mouth, tongue, pharynx, and larynx as well as the cranial nerves that c

100 ting the dilator muscles of the soft palate, pharynx, and larynx, but abnormal respiratory mechanics

101 squamous cell carcinomas of the oral cavity, pharynx, and larynx.

102 tes including the oral cavity, nasal cavity, pharynx, and larynx.

103 ) human tissues from the oral cavity, larynx-pharynx, and lymph nodes using 16S rRNA sequencing.

104 e hindbrain, enter the gut mesenchyme at the pharynx, and migrate as strands of cells to the terminal

105 activity in the intestine, body-wall muscle, pharynx, and neurons of wild-type animals.

106 ia can result from dysfunction at the mouth, pharynx, and oesophagus and may predispose individuals t

107 denocarcinoma of the small intestine, of the pharynx, and of the esophagus.

108 f its organs are incorporated into the adult pharynx, and several drivers of this clade are expressed

109 The use of swabs to culture nostrils, pharynx, and skin surface of various anatomical sites is

110 assembly was placed spanning from stomach to pharynx, and subjects were studied for 2 hours after a h

111 in diverse tissues including the intestine, pharynx, and the rectal valve.

112 g1 gland cells located adjacent to M4 in the pharynx, and these defects can be partially rescued by M

113 nd N. gonorrhoeae at three sites (anorectum, pharynx, and urethral/cervix) every four months using se

114 rkers in the ectoderm, mesoderm and endoderm/pharynx; and a Morphogenesis strain that expresses marke

115 ion"), and (3) a concomitant movement of the pharynx anteriorly and the epidermis of the mouth poster

116 separation of these organ primordia from the pharynx are poorly understood.

117 s are expressed in the ventral region of the pharynx at early stages of embryogenesis.

118 ells, which migrate into the caudal, ventral pharynx at stage 14, block a signal from the ventral pha

119 ed, resulting in the maintenance of a thymus-pharynx attachment and a subsequent inability of the thy

120 dermis of the mouth posteriorly to bring the pharynx, buccal cavity, and mouth into close apposition

121 ng odds ratios for cancer of the oral cavity/pharynx but not larynx cancer suggests additional factor

122 validated in the OncoArray study of oral and pharynx cancer (5,205 cases and 3,232 controls of Europe

123 s additional factors specific to oral cavity/pharynx cancer.

124 consumption, alcohol abuse or both, whereas pharynx cancers are increasingly attributed to infection

125 The excessive adipose tissue in the pharynx causes both the intubation and respiratory obstr

126 s primarily mesodermal cell types, including pharynx cells, body muscles and coelomocytes.

127 stomeres in C. elegans develop into foregut (pharynx) cells in response to the selector gene PHA-4/Fo

128 , such as lung, urinary bladder, oral cavity/pharynx, colorectal, pancreatic, uterine corpus, and liv

129 nges the idea that the ancestral gnathostome pharynx conformed to a morphologically complete ancestra

130 tivity downregulating Fgf8 expression in the pharynx, decreasing cell survival during mandibular outg

131 ess) pathway components, including posterior pharynx defect (POP-1)/TCF, APC related/adenomatosis pol

132 omposed of presenilin (PS1 or PS2), anterior pharynx defect-1 (APH-1), nicastrin (NCT) and PEN-2 and

133 on coordinated gene expression, mediated by pharynx defective (PHA)-4/FoxA in combination with addit

134 homolog (PSNEN, alias, Pen-2), and anterior pharynx defective 1 (APH-1), the four components of the

135 Presenilin Enhancer 2 (PEN-2), and Anterior Pharynx Defective 1 (APH1) are the essential subunits of

136 sed of presenilin, nicastrin (NCT), anterior pharynx defective 1 and PEN-2.

137 ar (EC) domain, presenilin-1 (PS1), anterior pharynx defective 1, and presenilin enhancer 2 in the tr

138 esenilins (PS1 and PS2), nicastrin, anterior pharynx defective phenotype 1 (APH-1), and PS enhancer 2

139 APH-1 (anterior pharynx defective) along with nicastrin and PEN-2 (prese

140 other membrane proteins [nicastrin, anterior pharynx defective-1 (APH-1), and presenilin enhancer-2 (

141 n enhanced clearance of Abeta in an anterior pharynx-defective (APH)-1alpha/-1beta-dependent manner.

142 sed of presenilin, nicastrin (NCT), anterior pharynx-defective 1 (APH-1), and presenilin enhancer 2 (

143 plex consisting of presenilin (PS), anterior pharynx-defective 1 (APH-1), nicastrin (NCT), and presen

144 plex components: PS1, nicastrin and anterior pharynx-defective 1 (APH1) but not presenilin enhancer 2

145 castrin, presenilin enhancer 2, and anterior pharynx-defective 1 that mediates the intramembrane prot

146 n and the accessory proteins APH-1 (anterior pharynx-defective 1) and nicastrin, triggers the endopro

147 se complex, composed of presenilin, anterior-pharynx-defective 1, nicastrin, and presenilin enhancer

148 nilin (PS); nicastrin (Nct); APH-1 (anterior pharynx-defective-1); and presenilin enhancer-2 (PEN-2).

149 pment of the Caenorhabditis elegans foregut (pharynx) depends on coordinated gene expression, mediate

150 pha-1 has long been considered essential for pharynx development on the basis of its mutant phenotype

151 The embryonic pharynx develops from a ball of cells into a linear tube

152 restingly, in the double-mutant embryos, the pharynx did not form properly.

153 4 years), anal (difference = 4), oral cavity/pharynx (difference = 2), and kidney cancers (difference

154 For tumors of the lip, oral cavity and pharynx, digestive organs, respiratory tract, female gen

155 In knockout embryos, the pharynx does not form, embryos fail to elongate, and end

156 tract, the point where the outflow joins the pharynx does not move caudally as it normally should, th

157 nesis, apical constriction in the retracting pharynx drives involution of the adjacent neuroectoderm.

158 Both genes are expressed in the pharynx during early mandibular outgrowth and later in t

159 The pharynx either locked in pumping at half the pacing freq

160 ialization of the second pair of jaws in the pharynx, enhances the ability of fishes to process hard

161 ers: lip and oral cavity; nasopharynx; other pharynx; esophageal; stomach; colon and rectum; liver; g

162 nesis, conserved molecular programs regulate pharynx, esophagus, liver, and pancreas development in t

163 ding cancers of the larynx, oral cavity, and pharynx, esophagus, pancreas, kidney, bladder, and lung;

164 ses bulbar, muscle weaknesses (face, tongue, pharynx, etc) and reduced response to conventional immun

165 In telomerase-positive human pharynx FaDu tumor cells, paclitaxel caused telomere ero

166 ty (SCC1), larynx (SCC5), tongue (OSC19) and pharynx (FaDu), with grape seed proanthocyanidins (GSPs)

167 x1 gene-dosage requirements in the embryonic pharynx for fourth PAA development.

168 zothiazepine S107, establishing the nematode pharynx for studying specific CPVT mutations and for dru

169 ae because VAV-1 function is required in the pharynx for synchronous contraction of the musculature.

170 ed a pulling force exerted by the elongating pharynx (foregut) on the anterior epidermis during C. el

171 the cells that contribute to the C. elegans pharynx formation.

172 Ventral pharynx from intact embryos at a stage when neural crest

173 Ventral pharynx from neural crest-ablated embryos continued to s

174 csq-1 deletion impaired pharynx function and caused missed pumps during 3.7 Hz p

175 These results demonstrate that the pharynx generates a myogenic rhythm in the presence of t

176 r B. phm-2(lf) mutant worms have an abnormal pharynx grinder, which allows live bacteria to accumulat

177 mutants display morphogenetic defects in the pharynx, gut, and muscle quadrants, in addition to the d

178 n neural crest-derived cells had reached the pharynx had no effect on myocardial calcium transients.

179 The nematode pharynx has a potassium channel with unusual properties,

180 ly, ulcerative lesions also developed at the pharynx, histo-pathologic findings of which were not dif

181 eous SCC, including those of the oral cavity/pharynx (HR, 5.60; 95% CI, 4.18-7.50) and lung (HR, 1.66

182 ransmitted from outside the pharynx into the pharynx in a manner analogous to how the mammalian auton

183 PEB-1 is also detected outside the pharynx in cells surrounding the rectum and vulva, as we

184 Whether tooth formation deep inside the pharynx in extant vertebrates continues to require exter

185 n most pharyngeal cell types and outside the pharynx in the hypodermis, hindgut, and vulva.

186 xpressed in epithelial cells of the skin and pharynx in the p63+/+ mouse, it is undetectable in these

187 ns as a receptor for GAS colonization of the pharynx in vivo.

188 s with microspheres show that the C. elegans pharynx, in combination with the buccal cavity, is tuned

189 We show that SMA-3 Smad is expressed in pharynx, intestine and hypodermis, as has been previousl

190 nd that fibulin-1C has specific roles during pharynx, intestine, gonad and muscle morphogenesis, bein

191 ghly specialized non-endodermal cells of the pharynx into fully differentiated intestinal cells in in

192 ignal is likely transmitted from outside the pharynx into the pharynx in a manner analogous to how th

193 Asymptomatic carriage of GAS in the human pharynx is commonplace and a potential reservoir for GAS

194 ith the separation of the primordia from the pharynx is disrupted, resulting in the maintenance of a

195 abditis elegans as a novel tool, because its pharynx is evolutionarily related to the vertebrate hear

196 The C. elegans pharynx is produced from the embryonic blastomeres ABa a

197 ene expression in the Caenorhabditis elegans pharynx is regulated in part by organ-specific signals,

198 ion assay in which ejection of the planarian pharynx is selectively induced by brief exposure of anim

199 A remarkable feature of the larval pharynx is that some of its organs are incorporated into

200 The pharynx is the primary reservoir for strains of group A

201 e defect in C. elegans feeding behavior: the pharynx is unable to pump rapidly in the presence of foo

202 nt regions (e.g., the tip of the head vs the pharynx) is processed in different regions of the suboes

203 , the risks of cancer in the oral cavity and pharynx, kidney, thyroid, colon, leukemia, lung, melanom

204 malignancy that may involve the oral cavity, pharynx, larynx, and paranasal sinuses.

205 including those of the lung, oral cavity and pharynx, larynx, and, to a lesser extent, bladder.

206 Alcohol causes cancers of the oral cavity, pharynx, larynx, oesophagus, and liver, and causes a sma

207 l (Mo12) motor nuclei innervate jaw, facial, pharynx/larynx/esophagus, and tongue muscles, respective

208 ke was associated with reduced risk of oral, pharynx, liver, colon, prostate, endometrial cancer and

209 olytic streptococcal infection affecting the pharynx, lower lip, and gingiva of a healthy 19-year-old

210 bers to the face, mouth, tongue, larynx, and pharynx motoneurons.

211 of the AVR-15 ivermectin-binding channel on pharynx muscle, is to target AVR-14 and AVR-15, which ar

212 te cats, the pharyngeal (0.5-1.0 ml water in pharynx (N=6)) or esophageal (1-3 ml air in esophagus (N

213 an- and patient-collected specimens from the pharynx (n=93), rectum (n=88), endocervix/vagina (n=89),

214 arcinomas (HNSCC), including oral cavity and pharynx (OC/P) cancers.

215 uld predict that during nasal breathing, the pharynx of a tracheostomized patient would be exposed to

216 and adult stages and along the length of the pharynx of adult worms, as well as the cyclic expression

217 specifically expressed in the gonads and the pharynx of adult worms.

218 e expression in bacteria inoculated into the pharynx of baboons.

219 l drivers of this clade are expressed in the pharynx of both larvae and adults.

220 introduced CPVT inducing mutations into the pharynx of Caenorhabditis elegans, which we previously e

221 The pharynx of the nematode Caenorhabditis elegans is a simp

222 and adolescents and colonize the tonsils and pharynx of up to 20% of healthy children.

223 ively patterned structures that line the oro-pharynx of vertebrates.

224 versed the deleterious effect of the ventral pharynx on myocardial calcium transients and proliferati

225 When pharynx-only infections were excluded, the sensitivity o

226 e conclude that introduction of GAS into the pharynx or into deep tissues results in rapid induction

227 rectal gonorrhea underwent swabbing from the pharynx or rectum 7 and 14 days following treatment.

228 oedema (defined as swelling of lips, tongue, pharynx, or face during ACE inhibitor use and no swellin

229 esult of breast cancer; cancers of the lung, pharynx, or intrathoracic organs; other cancer; respirat

230 squamous cell carcinoma of the oral cavity, pharynx, or larynx.

231 jor risk factor for cancers of the mouth and pharynx (oral cancer), but the differential risks by bev

232 averaged across the rostral, mid- and caudal pharynx (P < 0.001).

233 ell types, while expression in the posterior pharynx persists throughout development.

234 er eight are carried asymptomatically in the pharynx, possibly modulating meningococcal and gonococca

235 ies provide the first description of how the pharynx primordium develops into an epithelial tube, and

236 3 was observed at gap junctions in the adult pharynx, providing supporting evidence that innexins are

237 thritis in women, and in extragenital sites (pharynx, rectum, conjunctiva and, rarely, systemically)

238 sed order of clinician and self-samples from pharynx, rectum, plus first catch urine (FCU) in MSM and

239 was positive in 26%, 31%, 61% and 3% in the pharynx, rectum, urethra/urine, and endocervix/vagina pa

240 To identify genes required for pharynx regeneration, we performed an RNAi screen of 356

241 adiotherapy, though proven in the larynx and pharynx, remains controversial in OCC.

242 hem in muscle tissue, motor neurons, and the pharynx, reveal that these peptides have potent bioactiv

243 n microscopic reconstruction of the anterior pharynx revealed evidence for synapses from I2 onto musc

244 x, a bacterial suspension is sucked into the pharynx's lumen.

245 outinely treated with radiotherapy (oral and pharynx, salivary gland, rectum, anus, larynx, lung, sof

246 Nrf and Skn-1 proteins, and suggest that the pharynx selector function of CncB is highly conserved on

247 analyzed voltage dynamics across the entire pharynx, showing uniform depolarization but compartmenta

248 = 11.5), liver (SIR = 3.6), oral cavity and pharynx (SIR = 2.6), respiratory (SIR = 2.6), leukemia (

249 At the oral pharynx site, differences in bacteria were distinct, wit

250 4.68; 95% CI, 3.81 to 5.70), oral cavity and pharynx (SMR = 3.66; 95% CI, 3.16 to 4.22), and larynx (

251 ression, but our analysis of regulation of a pharynx specific promoter suggests otherwise.

252 ormalized for grams of protein for nasal and pharynx specimens and for mL-gram of protein for sputum.

253 a, SW1736 thyroid, DU-145 prostate, and FADU pharynx-squamous sarcoma) as well as the P-388 murine ly

254 Keywords: Head/Neck, Oncology, Pharynx, Staging (C) RSNA, 2020.

255 s of markers for the original differentiated pharynx state; hence, there is no apparent requirement f

256 pression extended to the lateral side of the pharynx, suggesting a compensatory function of Nkx2.5 in

257 le N. meningitidis is primarily found in the pharynx, suggesting that ecological interactions extend

258 deaths'), and later deaths with an atrophied pharynx (termed 'p deaths').

259 just prior to or just after hatching with a pharynx that appears fully formed but is not properly at

260 ctional neuron in the Caenorhabditis elegans pharynx that can both stimulate peristaltic contractions

261 lts in elevated FGF8 signaling in the caudal pharynx that disrupts secondary heart field development.

262 found that myocardium cultured with ventral pharynx that had not yet contacted neural crest cells ha

263 including the development of a supernumerary pharynx (the feeding organ of the animal) and the produc

264 changes in body wall muscles (BWMs), in the pharynx, the feeding organ [where Arch(D95N) showed appr

265 Abnormalities in the anatomy of the pharynx, the physiology of the upper airway muscle dilat

266 CT detected (217 urogenital, 249 rectum, 63 pharynx).There was no difference in sensitivities betwee

267 Selective amputation of the pharynx therefore permits the identification of genes re

268 m underlining the blood meal uptake into the pharynx through the mouth and how ticks prevent mixing t

269 ted, vaccinated cattle was restricted to the pharynx throughout both the early and the persistent pha

270 ults show that the entropy of the C. elegans pharynx tissues increases as the animal ages, but a shar

271 between hypodermal cells, and failure of the pharynx to attach to the anterior of the animal.

272 acellular recording techniques of C. elegans pharynx to characterize them.

273 anterior heart field (AHF) migrate from the pharynx to contribute to the early myocardium of the out

274 necting sugar-sensitive taste neurons in the pharynx to neural circuits that control the drive to ing

275 the origin of an elongate elasmobranch-like pharynx to the chondrichthyan stem-group, rather than it

276 pening of endodermal pouches and connect the pharynx to the exterior.

277 itoring the entire pressure profile from the pharynx to the stomach along with pressure topography pl

278 icities of the rhythms range from subsecond (pharynx) to seconds (gonadal sheath) to minutes (defecat

279 draws bacteria suspended in liquid into its pharynx, traps the bacteria, and ejects the liquid.

280 ts to relate these properties to GAS skin or pharynx tropism and invasiveness are of great interest.

281 Among neurons expressing drivers in the pharynx, two projection patterns can be distinguished in

282 P4-mediated bacterial adherence to pharynx, type II alveolar, and bronchial epithelial cell

283 The C. elegans pharynx undergoes elongation and morphogenesis to its ch

284 ex is linked to branchiomotor neurons of the pharynx via a glutamatergic interneuronal system.

285 The potency of ivermectin on the pharynx was greater than at any of the GluCl subunits ex

286 l cells were largely missing, and the mutant pharynx was markedly dilated.

287 at stage 14, block a signal from the ventral pharynx, we cultured stage 12 chick heart tube or myocar

288 of Nkx2.5 and Nkx2.6 in the formation of the pharynx, we generated and analyzed Nkx2.5 and Nkx2.6 dou

289 inspiration of the rostral, mid-, and caudal pharynx were analyzed for airway size and pharyngeal wal

290 genioglossus muscle and markedly dilated the pharynx, whereas saline had no effect.

291 asses of corpse: early deaths with a swollen pharynx (which we call 'P deaths'), and later deaths wit

292 The C. elegans pharynx, which is an epithelial tube in which cells pola

293 y is normally expressed in precursors of the pharynx, which separates endoderm from ectoderm.

294 tomacanthus had an osteichthyan-like compact pharynx with a bony operculum helping constrain the orig

295 ized by local growth of the bacterium in the pharynx with pseudomembrane formation or, less commonly,

296 data suggest that PHA-4 and DAF-12 endow the pharynx with transcriptional plasticity to respond to di

297 ansion of MyoR and Tbx1 expression along the pharynx, with RA limiting the expansion of MyoR.

298 restriction of this sensory receptor to the pharynx, within the oral cavity.

299 % of tests were 3-site (urethra, rectum, and pharynx), yielding the highest rates of CT (GC) detectio

300 % of tests were 3-site (urethra, rectum, and pharynx), yielding the highest rates of CT (GC) detectio