ライフサイエンスコーパス: vascular system

1 s limited to a few cell diameters around the vascular system.

2 ally because of collapsed xylem cells in the vascular system.

3 hatics that only subsequently connect to the vascular system.

4 e between the tumor microenvironment and the vascular system.

5 r to pass into the brain parenchyma from the vascular system.

6 ical and surgical manipulation of the cardio-vascular system.

7 elective entry of water and solutes into the vascular system.

8 harmacological manipulation of the lymphatic vascular system.

9 xpressed RFO3 restricts FOM infection of the vascular system.

10 y acting on plasma ACE, plasma renin and the vascular system.

11 moved from one tissue to another through the vascular system.

12 tant risk factor for medical maladies of the vascular system.

13 o- and antiangiogenic factors throughout the vascular system.

14 ntribute to the long-range patterning of the vascular system.

15 ed in endothelial cells and in the zebrafish vascular system.

16 complex molecular networks that regulate the vascular system.

17 sicaceae hosts and proliferates in the plant vascular system.

18 for a comprehensive and detailed view of the vascular system.

19 fine tuning of the hemostatic balance in the vascular system.

20 en it was inoculated directly into the plant vascular system.

21 h these early signals to shape the embryonic vascular system.

22 n inherited blinding disorder of the retinal vascular system.

23 in (MGP), a regulator of BMP function in the vascular system.

24 HSCs home to bone marrow through the vascular system.

25 l roles in promoting oxidative stress in the vascular system.

26 r endothelial growth factor and Notch in the vascular system.

27 for the maintenance of the integrity of the vascular system.

28 m for the heart and, as of recently, for the vascular system.

29 ment, and failure to establish the embryonic vascular system.

30 onnective tissue such as skin, lung, and the vascular system.

31 en are delivered to the brain cells from the vascular system.

32 ed with autoregulatory changes of the neural-vascular system.

33 entry into, but not for exit from, the host vascular system.

34 cluding the intestine, urinary tract and the vascular system.

35 onic patterning of the developing vertebrate vascular system.

36 ing eye, olfactory epithelium, inner ear and vascular system.

37 rested in imaging of the pediatric heart and vascular system.

38 ow ADAMTS13 activity is regulated within the vascular system.

39 vely low levels of telokin expression in the vascular system.

40 plicated to control early development of the vascular system.

41 direct observation of aqueous flow into the vascular system.

42 is expressed by endothelial tip cells of the vascular system.

43 elial cells controlling morphogenesis of the vascular system.

44 g extract through opposing activities on the vascular system.

45 distinct from the phloem in the rest of the vascular system.

46 spread of viral infection through the plant vascular system.

47 ine vibrissae in the absence of a functional vascular system.

48 61 in the development and homeostasis of the vascular system.

49 cell and long-distance transport through the vascular system.

50 issa organ cultures, which lack a functional vascular system.

51 toms by reducing titers of free virus in the vascular system.

52 le in the development of the earliest hemato-vascular system.

53 growth factor (PDGF)-induced effects in the vascular system.

54 E, followed by subsequent clearance from the vascular system.

55 rved along the ICM and within the developing vascular system.

56 f SK contributes to the action of S1P in the vascular system.

57 s that LYVE-1 has functions beyond the lymph vascular system.

58 the immune response and on the cells of the vascular system.

59 hat little, if any, complex moved out of the vascular system.

60 id cells and abnormal differentiation of the vascular system.

61 ogy in humans involving dysregulation of the vascular system.

62 regulation of the autophagic pathway in the vascular system.

63 for several pathogenic microbes to the plant vascular system.

64 bending) and the water pressure in the plant vascular system.

65 allow embolisms to be viewed directly in the vascular system.

66 for establishing a continuous and efficient vascular system.

67 of rapamycin signaling and autophagy in the vascular system.

68 protein ligand important for maintaining the vascular system.

69 ned by a hierarchical, segmentally-organized vascular system.

70 he developmental tool kit for the vertebrate vascular system.

71 stem development or the establishment of the vascular system.

72 innovations, including the endothelium-based vascular system.

73 hly complex metabolic space within the plant vascular system.

74 rtant step in the formation of the embryonic vascular system.

75 us, anti-pathogen sentinel that monitors the vascular system.

76 Gata2a functions more broadly throughout the vascular system.

77 indicates that GA12 moves through the plant vascular system.

78 or the separation of the lymphatic and blood vascular systems.

79 olling cell guidance in nervous, immune, and vascular systems.

80 t8 is primarily expressed in the nervous and vascular systems.

81 s, lungs, brain, gastrointestinal tract, and vascular systems.

82 t role in the development of the nervous and vascular systems.

83 regulatory role in the skeletal, immune, and vascular systems.

84 ways have been recognized that regulate both vascular systems.

85 gly, they are shared between the nervous and vascular systems.

86 ctivities in inflammatory, neurological, and vascular systems.

87 ing mechanisms are incompletely clarified in vascular systems.

88 l relationship between the hematopoietic and vascular systems.

89 actions in the mammalian nervous, immune and vascular systems.

90 for the elaboration of the shoot, root, and vascular systems.

91 conservation of the mammalian hemostatic and vascular systems.

92 in the separation of the blood and lymphatic vascular systems.

93 peptide hormone with numerous effects in the vascular systems.

94 acellular free diffusion into and out of the vascular system [1].

95 , septic arthritis (one), cellulitis (six)], vascular system [18; septic thrombophlebitis (nine), inf

96 tified tumor suppressor U19/Eaf2 also caused vascular system abnormalities and aspermatogenesis, sugg

97 We propose that the shoot vascular system acts as the site of root-derived Pi stre

98 s and to demonstrate their navigation in the vascular system after administration of contrast materia

99 is translocated downward in the host plant's vascular system against the direction of the transpirati

100 hat is based on optimal space filling by the vascular system along with trade-offs between hydraulic

101 ted that AACT1 is primarily expressed in the vascular system and AACT2 is highly expressed in root ti

102 rtistatin is a neuropeptide expressed in the vascular system and atherosclerotic plaques that regulat

103 rocess, in particular the involvement of the vascular system and ethylene.

104 estrates cellular events after injury to the vascular system and extravasation of blood into surround

105 skeletal system with other systems, ie, the vascular system and homeostatic controls of adipogenesis

106 le of cranial blood vessels in the trigemino-vascular system and in cortical spreading depression.

107 c oxide (NO) is a regulatory molecule in the vascular system and its inhibition due to endothelial in

108 The cardiac lymphatic vascular system and its potentially critical functions i

109 PHB1 is highly expressed in the vascular system and knockdown of PHB1 in endothelial cel

110 ing in a constant state of disruption of the vascular system and leading to recurrent episodes of isc

111 mor suppressor pVHL in the regulation of the vascular system and normal spermatogenesis.

112 lied with carbon for photosynthesis from the vascular system and not from stomata.

113 Using the vascular system and organs of a plant, we manufactured o

114 e for Notch1 in suppressing neoplasia in the vascular system and provide a model by which to explore

115 understanding of the plasticity of the brain vascular system and provide novel insights into the mole

116 Endothelial cells (ECs) line the mammalian vascular system and respond to the hemodynamic stimulus

117 ogenous dissemination of tumor cells via the vascular system and significantly limit prognosis of pat

118 play an important role in maintenance of the vascular system and the repair after injury.

119 We evaluated the role of the renal vascular system and the Rho-A/Rho-kinase pathway in the

120 ibe the changing properties of the pulmonary vascular system and the right ventricle, as well as thei

121 have worked to understand the biology of the vascular system and to incorporate their findings into n

122 begin to unravel the origin of two distinct vascular systems and demonstrate how early left-right mo

123 s cannot ignore certain complexities of real vascular systems and indicate the need to discover new p

124 g their diverse protective roles relevant to vascular systems and their relation to aspirin and stati

125 yos fail to develop a branched and lumenized vascular system, and CASZ1-depleted human endothelial ce

126 s in theanine loading and unloading from the vascular system, and in targeting to sink tissues.

127 atal hypoxia on the development of the renal vascular system, and possible underlying cellular and io

128 The plant vascular system, and specifically the phloem, plays a pi

129 pical meristems, lateral root primordia, the vascular system, and the concave side of the apical hook

130 ow (submicromolar) concentrations within the vascular system, and the often multifaceted nature of th

131 in the separation of the blood and lymphatic vascular systems, and the lymphatic valves.

132 In the vascular system angiotensin II (Ang II) causes vasoconst

133 A widely debated model based on vascular system architecture fails this test, and we sug

134 and complete responders, where parts of the vascular system are occluded for the first and the whole

135 se the equations governing blood flow in the vascular system are well understood and can be solved wi

136 ess after immunization indicate that the two vascular systems are in synchrony and engage in cross-ta

137 Intricate neuronal, lymphatic, immune, and vascular systems are integrated into the intestine and a

138 l roles in maturation and homeostasis of the vascular system as well as in immune cell trafficking.

139 cent findings on the role of kindlins in the vascular system, as well as new studies that have begun

140 We therefore analysed the vascular system at early and late symptomatic time point

141 receptors with pivotal roles not only in the vascular system but also in the nervous system and durin

142 only govern the development of the coronary vascular system but also promote the growth of the adult

143 rgans took place via the blood and lymphatic vascular systems but not via neuronal transmission.

144 1) guides the development of the nervous and vascular systems, but its role in the mature brain remai

145 cess in which the virions enter and exit the vascular system by two different mechanisms, and it is t

146 c compounds, carbohydrates and fibers of the vascular system, CaCO(3) crystals, and minerals (Fe, Ca,

147 inate from the primary tumor and survive the vascular system can eventually extravasate across the en

148 und to be associated with or involved in the vascular system, carotenoid biosynthesis, transcriptiona

149 d after redox flow batteries, this synthetic vascular system combines the functions of hydraulic forc

150 .19-1.52; P < 0.0001), other diseases of the vascular system (deep venous thrombosis/pulmonary emboli

151 tors could provide a molecular basis for the vascular system defects exhibited by G alpha(13) knockou

152 Development of the vascular system depends on the highly coordinated action

153 t function as mechanotransducers involved in vascular system development and touch sensing, respectiv

154 1 receptor is essential for both nervous and vascular system development.

155 rstanding of molecular mechanisms underlying vascular system development.

156 In mammals, the lymphatic vascular system develops by budding of lymphatic progeni

157 We conclude that a functional vascular system develops gradually and that specialized

158 sac and the eye choriocapillaris and hyaloid vascular systems, develops at least in part via hemovasc

159 ften designed to first "navigate" the body's vascular system, "dock" at the tumor sites, and then "ac

160 ression pattern of MIR395 transcripts in the vascular system does not appear to overlap with the expr

161 These pathways shape the vascular system during development and during postnatal

162 s for the development of a stable and mature vascular system during embryonic development.

163 ay that exists between buds, zooids, and the vascular system during takeover.

164 In the vascular system, evidence supports the AT1 R being a mec

165 he principal energy storage depot and, where vascular systems exist, as a means of energy transport.

166 nents of the blood vessels that comprise the vascular system; facilitate blood flow; and regulate per

167 al xylem Cd transport, the phloem is a major vascular system for long-distance source to sink transpo

168 Plant viruses utilize the vascular system for systemic movement.

169 ction with the evolution of a more efficient vascular system for the transport of water, composed of

170 In the vascular system, forces produced by blood flow are criti

171 ndothelial cell (EC) lining of the pulmonary vascular system forms a semipermeable barrier between bl

172 provide the basis for understanding how the vascular system forms and assumes its complicated stereo

173 ate that the PD-1-PD-L1 pathway protects the vascular system from severe CD8 T cell-mediated damage d

174 e in endothelial cells within the developing vascular system from very early stages in vasculogenesis

175 nificantly less is known about the lymphatic vascular system given the difficulties in seeing, no les

176 ronary circulation, now in 2001 nearly every vascular system has been explored as a site for endovasc

177 scular disturbance; however, the role of the vascular system has not been well characterized in the c

178 es through the phloem, the specialized plant vascular system, has been shown to strictly depend on th

179 S1P receptors in the vascular system have been characterized primarily in mam

180 n and growth of cells from the lymphatic and vascular systems have increased our understanding of the

181 endothelial cells in these high permeability vascular systems have very low beta-catenin signaling co

182 vealed that hyperamylinemia also affects the vascular system, heart, and kidneys.

183 ntial for development and maintenance of the vascular system; however, the role of Tie1 in developmen

184 the developmental regression of the hyaloid vascular system (HVS) in the mouse eye.

185 The hyaloid vascular system (HVS) is a transient network nourishing

186 The hyaloid vascular system (HVS) is known to have an important role

187 regulates mural cell biology in the hyaloid vascular system (HVS) of the developing eye.

188 The mode of development of the human hyaloid vascular system (HVS) remains unclear.

189 nderstanding of the functional roles of this vascular system in health and disease.

190 opment and phenotypic characteristics of the vascular system in human prenatal skin.

191 ts reveal an important role of the cutaneous vascular system in mediating ultraviolet-B-induced skin

192 duced lesions of the skin and changes to the vascular system in order to transfer this knowledge to p

193 The important role of the lymphatic vascular system in pathological conditions such as infla

194 ent of water and solutes into and out of the vascular system in roots.

195 n of various skin lesions and lesions of the vascular system in some subgroups of SARS-CoV-2-positive

196 To characterize the biologic role of the vascular system in the mediation of ultraviolet-B-induce

197 on level and a predominant role of the plant vascular system in this process.

198 ring inflammation of the central nervous and vascular system in vivo.

199 The heart is the central organ of the vascular system in which endothelium function is critica

200 portance as the source of one of three major vascular systems in the mammalian conceptus, little is k

201 need for such fine-tuning in the developing vascular system, in situ hybridization revealed a striki

202 density lipoprotein cholesterol protects the vascular system includes hemorheology, the study of bloo

203 model of interdependence between neural and vascular systems includes VEGF, with its dual roles as a

204 which has numerous protective effects in the vascular system including vasodilation, antiadhesion, an

205 s affects not just the valve, but the entire vascular system, including the left ventricle (LV) and s

206 cilitate desiccation and resurrection of the vascular system, including xylem conduits containing pec

207 The development of the vascular system is a complex process that involves commu

208 The lymphatic vascular system is a hierarchically organized complex ne

209 The establishment and maintenance of the vascular system is critical for embryonic development an

210 The formation of the vascular system is essential for embryonic development a

211 The lymphatic vascular system is essential for lipid absorption, fluid

212 The vascular system is locally specialized to accommodate wi

213 The development of the vertebrate vascular system is mediated by both genetic patterning o

214 heir guidance functions are conserved in the vascular system is still incompletely understood.

215 indicates that the function of VEGF-B in the vascular system is to act as a "survival," rather than a

216 of the function and biology of the lymphatic vascular system, it is clear that the lymphatic system p

217 d functional similarities with the lymphatic vascular system, it is unknown whether the SC is a blood

218 ction of organs such as the lung, kidney and vascular system, little is known about the molecular mec

219 hip models of numerous tissues including the vascular system, lungs, gut and blood-brain barrier.

220 The beneficial role of estrogen in the vascular system may be due, in part, through reduction o

221 or markers adjacent to a typical leaky tumor vascular system may have large antitumor effects at the

222 The lymphatic vascular system mediates fluid homeostasis, immune defen

223 ing studies showed that Gd(1) remains in the vascular system much longer than anticipated but is clea

224 In analogy to the vascular system, NO might directly induce relaxation of

225 e changes may have beneficial effects on the vascular system not apparent from traditional risk facto

226 o follow nondestructively the development of vascular system obstructions subsequent to inoculation o

227 ymmetrical organ system corresponding to the vascular system of extant arthropods.

228 The vascular system of grapevine (Vitis spp.) has been repor

229 sophagus, gastrointestinal tract, vagina and vascular system of humans.

230 e find that MIR395 loci are expressed in the vascular system of roots and leaves and root tips.

231 l progenitor cells, damage to the developing vascular system of the brain, and altered cellular posit

232 The vascular system of the cerebral cortex is derived from t

233 shion: two promote expression throughout the vascular system of the plant, whereas the third function

234 e XBAT32 gene is expressed abundantly in the vascular system of the primary root, but not in newly fo

235 mitigate increasing hydraulic tension in the vascular system of trees during the diel cycle of transp

236 important role in the hydraulic function of vascular systems of both herbaceous and woody plants, bu

237 The two vascular systems of our body are the blood and lymphatic

238 ively), which was validated for the coronary vascular systems of the heart.

239 e scaling law was also shown to apply to the vascular systems of the lung, mesentery, muscle, eye, an

240 lar systems: either endothelial cells in the vascular system or epithelial cells in all other organs.

241 rmation in nonepithelial tissues such as the vascular system or heart is poorly understood.

242 ascular development directly from within the vascular system or indirectly from nonvascular cells.

243 l gradient (Deltapsip,night) along the plant vascular system overnight.

244 epithelial cells and remnants of the hyaloid vascular system; posterior lens capsule destruction with

245 l, in which either the nervous system or the vascular system precedes developmentally and then instru

246 In the vascular system, redox reactions help regulate key physi

247 ors are well known, the roles of PHDs in the vascular system remain to be established.

248 circulating GABA and its significance on the vascular system remains unknown.

249 In addition, generation of the coronary vascular system represents a complex system for analysis

250 Formation of the vascular system requires differentiation and patterning

251 able to show that formation of a functional vascular system requires glutaredoxin 2-dependent revers

252 Activity of this enhancer in the heart and vascular system requires the combined actions of the Mef

253 Diseases of the vascular system result from a complex mixture of genetic

254 e the lymphatic system drains into the blood vascular system, resulting in a platelet plug that, with

255 The plant vascular system serves as a conduit for delivery of both

256 The neural and vascular systems share common guidance cues that have di

257 In addition, the hyaloid vascular system showed hyaloid hypercellularity consisti

258 e intra- and extra-cellular compartments and vascular systems significantly differ, the presence of p

259 xpressed in cells of the developing coronary vascular system, specifically in the proepicardium, migr

260 In plants, the vascular system, specifically the phloem, functions in d

261 safe, in particular to treat diseases of the vascular system, such as atherosclerosis.

262 Changes in the intestinal lymphatic vascular system, such as lymphatic obstruction, are char

263 c precursors during early development of the vascular system suggested the possibility of a common ye

264 bined with a computer model of the patient's vascular system that accounted for marker clearance, hem

265 r and normal cells that are both nested in a vascular system that changes its structure according to

266 hanisms, and it is the viral exit out of the vascular system that involves PME.

267 The intestine is supported by a complex vascular system that undergoes dynamic and transient dai

268 contribute to abnormal development of fetal vascular systems that may lead to postnatal diseases.

269 hared pathophysiology between the brain, the vascular system, the CNS control of the heart and associ

270 In the vascular system, the endothelial-expressed lncRNAs (eg,

271 of several systems and organs, including the vascular system, the lungs, and the kidneys.

272 Within the vascular system, the mucin-type transmembrane glycoprote

273 licated in every stage of development of the vascular system, the vascular defects seen in talpid(3)

274 may alter cancer cell interactions with the vascular systems through altered vesiculation and TF she

275 esult of an increase in the leakiness of the vascular system to air seeding.

276 aterials used in its construction enable the vascular system to be created with complex form factors

277 gnals from the site of infection through the vascular system to distal (systemic) tissues.

278 The addition of its vascular system to documented digestive and nervous syst

279 ebrates, require the development of a closed vascular system to ensure the delivery of nutrients to,

280 RNA mutant embryos uniquely sensitizes their vascular system to environmental perturbations.

281 receptors play a dominant role in the murine vascular system to mediate vasodilation.

282 x of alfalfa and was distributed through the vascular system to the leaves.

283 e transport of small molecules from the bone vascular system to the osteocytes occurs within minutes.

284 rving the hydraulic integrity of the plant's vascular system under early stages of drought stress.

285 he role of Cav-1 in SMC proliferation in the vascular system using Cav-1 -/- mice.

286 rchitectural and functional features of both vascular systems using a mouse model of de novo carcinom

287 llowing pathogens to enter the nutrient-rich vascular system (vertical phloem and inter-connected rad

288 ly, the systemic spread of the virus via the vascular system was associated with massive infection of

289 ship between the embryonic hematopoietic and vascular systems, we investigated the establishment of c

290 ed series of three-dimensional images of the vascular system were collected beginning shortly after t

291 d reduction of germ cells and a disorganized vascular system were observed in testes of WNT4 transgen

292 Cs have a unique migration route through the vascular system which offers easy accessibility.

293 s localized to companion cells of the leaf's vascular system, which supports its role in the systemic

294 ction, coagulation is initiated on the donor vascular system, while the procoagulant characteristics

295 rry) fish, which allows visualization of the vascular system with the Tg(tp1:gfp) Notch reporter line

296 ew perspectives on disease mechanisms in the vascular system with therapeutic implications for disord

297 Formation of the vascular system within organs requires the balanced acti

298 The liver has a unique vascular system within the gastrointestinal tract, as th

299 However, it remains unknown which tissues or vascular systems, xylem or phloem, mediate PC translocat

300 for the function of the lungs, kidneys, and vascular system, yet little is known about epithelial tu