ライフサイエンスコーパス: serpentine

1 divergent climates and substrates (including serpentine).

2 odifier Knickkopf and the chitin deacetylase Serpentine.

3 ts accumulated up to 3-fold higher levels of serpentine.

4 dehydration of hydrous minerals, principally serpentine.

5 control: Crumbs, Uninflatable, Kune-Kune and Serpentine.

6 at attributes relative to inferred shifts to serpentine.

7 to remove from designs that contain turns or serpentines.

8 re designed and 3D printed in titanium as 2D serpentine, 3D spiral, and 3D serpentine columns, of equ

9 antibodies targeting mammalian AAV capsids, serpentine AAV (SAAV) was evaluated as a potential alter

10 primate population, and one such example is serpentine AAV (SAAV).

11 ed vindoline, catharanthine, ajmalicine, and serpentine accumulation.

12 , providing numerous candidate mutations for serpentine adaptation.

13 uited to overcome the multiple challenges of serpentine adaptation.

14 t point to a polygenic, multitrait basis for serpentine adaptation.

15 We first demonstrate that serpentine-adapted plants exhibit dramatically altered e

16 ionation, implying closed system conditions, serpentine alteration by seawater led to the formation o

17 Serpentine alteration is recognized as an important proc

18 entinization in the mantle wedge and shallow serpentine alteration to authigenic clays by seawater.

19 concentrator designs (a rectangular maze, a serpentine and a filament-filled helix, the last perform

20 atform for de novo biosynthesis of two MIAs, serpentine and alstonine, in baker's yeast Saccharomyces

21 rse Mg-rich silicates (for example, olivine, serpentine and augite) under thermochemical conditions t

22 host plants across a mosaic of low-resource serpentine and high-resource nonserpentine soils.

23 However, given the Tl-poor nature of serpentine and lawsonite fluids, simultaneous melting of

24 ptation, we pooled DNA from individuals from serpentine and nonserpentine soils and sequenced each 'g

25 cite, and a 75% reduction in the contents of serpentine and olivine.

26 tection, are printed into fully-connected 3D serpentine and spherical sensors capable of spatially re

27 bonates are higher than those for antigorite serpentine and they are markedly lower than those for H(

28 he epidermal cells, but major TIAs including serpentine and vindoline are localised instead in idiobl

29 ortantly, such complex channel geometries as serpentine and Y-mixers can be designed, printed, and in

30 ptimally configured 2D/3D structures such as serpentines and helical coils of conventional materials.

31 n Fe(II) and Mg, forms both abiotic methane, serpentine, and high-surface-area smectite clays.

32 tion of bare environments preceded shifts to serpentine, and may serve as an evolutionary precursor t

33 mulating various scales of dispersal for 240 serpentine annual plant communities that experienced a l

34 the dynamics of experimental communities of serpentine annual plants.

35 Alstonine and serpentine are pentacyclic indoloquinolizidine alkaloids

36 (WB), the boron atoms are linked in parallel serpentine arrays, with tungsten atoms in between.

37 outputs extract alkalinity from olivine and serpentine as Mg(OH)(2) and Mg(3)Si(2)O(6)(OH)(2), which

38 Serpentine barrens represent extreme hazards for plant c

39 The stretchable device features a serpentine bilayer of gold mesh and gold-doped graphene

40 Subsequent to the evolution of a serpentine body and carnivory, snakes evolved a highly s

41 between tooth and bone, periosteal reaction, serpentine bone resorption, abscess formation, and root

42 Fluid inclusion contents are dominated by serpentine, brucite, and magnetite, as well as CH(4(g))

43 cells generically and reversibly form large serpentine "cables" as they proliferate.

44 njection of a specific inhibitor of the cAR1 serpentine cAMP receptor almost completely prevents the

45 ry rapidly by extracellular cAMP through the serpentine cAMP receptor cAR1, with Dd-STAT tyrosine pho

46 y cAMP pulses, a process that is mediated by serpentine cAMP receptors (cARs).

47 The chemoattractant cAMP, acting through serpentine cAMP receptors, results in a rapid and transi

48 , double layer) engender fluid flow within a serpentine channel containing a long array of the asymme

49 t moderate sample consumption by employing a serpentine channel design, resulting in a dead time of l

50 A serpentine channel has been patterned with a sol-gel fil

51 The innovative serpentine channel is particularly useful for the Dean d

52 The total volume of the sample serpentine channel used for the microdialysis was 1 micr

53 The turns in the serpentine channel were asymmetrically tapered to minimi

54 by fabricating a 400-mm-long, fully enclosed serpentine channel with a rectangular cross-section of 0

55 The main flow is through the serpentine channel, allowing the majority of the sample

56 ography (MEKC) separations in a 19.6-cm-long serpentine channel, the peptides were rapidly sampled in

57 th plasmid DNA continuously flowed through a serpentine channel, the side walls of which also serving

58 The pressure drop across this 3D-printed SS serpentine channels is measured for air flow and compare

59 mic microdialyzer utilizing two mirror-image serpentine channels, which sandwich a regenerated cellul

60 iched between two chips having micromachined serpentine channels.

61 We use a novel mAb specific for serpentine chemokine-like receptor 1 (CMKLR1) to evaluat

62 data revealed alteration minerals including serpentine, chlorite, Mg-carbonate in fractured bedrock,

63 ypical Ni bearing phases (i.e., two types of serpentines, chlorite, smectite, goethite, and hematite)

64 SC is characterized by amoeboid/serpentine choroiditis lesions on CFP, with hypo-autoflu

65 ots indicated higher efficiencies for the 3D serpentine chromatographic columns with higher aspect ra

66 Serpentine clay minerals are found in many geological se

67 r results to a previous study of independent serpentine colonizations in the closely related diploid

68 Use of the 3D serpentine column at a higher flow rate, as compared to

69 Gradient RPLC separations with the 3D serpentine column resulted in an average 15% and 82% (8

70 Isocratic RPLC separations with the 3D serpentine column resulted in an average 23% and 245% (8

71 titanium as 2D serpentine, 3D spiral, and 3D serpentine columns, of equal length and i.d.

72 l plates as compared to the 3D spiral and 2D serpentine columns, respectively.

73 capacity as compared to the 3D spiral and 2D serpentine columns, respectively.

74 alysis, we show that the cerastecins adopt a serpentine configuration in the central vault of the Msb

75 Serpentine cord formation in BACTEC 12B medium was evalu

76 In defined circumstances, serpentine cording and cross-barring can be used for rap

77 Mycobacterium tuberculosis often exhibits serpentine cording when grown in liquid medium, whereas

78 and examined for the presence or absence of serpentine cording.

79 irulence is correlated with the formation of serpentine cords, a morphology that was first noted by K

80 ish, which involves the formation of massive serpentine cords, abscesses, and rapid larval death.

81 R variant involved the massive production of serpentine cords, absent during S-variant infection, and

82 mediate-depth seismicity, which are based on serpentine dehydration and embrittlement of altered slab

83 A problem with failure by serpentine dehydration is that the volume change accompa

84 ically delineates the boundary for efficient serpentine dehydration.

85 paration channels are chemically etched in a serpentine design to 21-cm total length.

86 Using a serpentine design, a 10 m column with an approximately s

87 extended ion path lengths and using compact serpentine designs.

88 LHR showed that this rate is dictated by the serpentine domain and the cytoplasmic tail.

89 e receptors and interact with the receptor's serpentine domain.

90 difference in rate is dictated mostly by the serpentine domain.

91 ) based on wavy-structured Kapton film and a serpentine electrode on stretchable substrates is presen

92 Microfluidic devices with a 23 cm long, serpentine electrophoretic separation channel and integr

93 in Mimulus guttatus and the closely related, serpentine endemic Mimulus nudatus, and compare them to

94 o genes putatively involved in adaptation to serpentine environments, IREG1 and NRAMP4, whereas no su

95 the field ("bareness"), which is greater in serpentine environments, is conserved across soil-type s

96 promotes lumenal secretion of Vermiform and Serpentine, extracellular matrix modifier proteins that

97 dite Mg(3)(Si(2)O(5))(OH)(4), a polymorph of serpentine family, with the new compounds derived by sub

98 er mass transport at U-turns of the tortuous serpentine flow channel of the cell.

99 electrode assembly electrolyzer with single serpentine flow channels, the acid humidification method

100 o-amyloid complex structure, which adopted a serpentine fold.

101 Isotopic properties of serpentine from the approximately 3.8 Ga Isua Supracrust

102 wingless/wnt morphogens that are detected by serpentine fz receptors.

103 Serpentine Galphai-linked receptors support rapid adhesi

104 actin bundles zippered together or exhibited serpentine gliding along the coverslip.

105 manipulated plant diversity in a California serpentine grassland and found that many plant species f

106 between tooth and bone, periosteal reaction, serpentine grooving surrounding teeth (considered a sign

107 ic rocks produces serpentinites, composed of serpentine group minerals and varying amounts of brucite

108 the colony morphology and abolished classic serpentine growth (cording), the most profound effect of

109 bidopsis arenosa adapted to a multichallenge serpentine habitat in the Austrian Alps.

110 e of Mg(OH)2 (brucite), Mg2CO3 and iron-rich serpentine have all been proposed to exist on the surfac

111 Chemoattractant receptors of the serpentine, heterotrimeric Galphai protein-linked family

112 t an innovative approach to fabricating long serpentine, high-aspect-ratio submillimeter channels mad

113 etermining the root-specific accumulation of serpentine in C. roseus plants.

114 ttlement, beyond the stability of antigorite serpentine in subduction zones.

115 red to control the presence of Knickkopf and Serpentine in the extracellular matrix.

116 tracheal size-control proteins Vermiform and Serpentine in the tracheal lumen.

117 Leveraging a fivefold replicated serpentine invasion, we assess selection on SNPs and str

118 These results suggest that amorphization of serpentine is an unlikely mechanism for generating deep-

119 This serpentine is most likely to reside in a set of major fr

120 material structures that exploit bimaterial serpentine lattices with micrometer feature sizes as the

121 restricted to the vicinity of the medulla's serpentine layer and found throughout the medulla; (b) n

122 ive phloem of ash trunks or branches, making serpentine-like galleries filled with larval frass.

123 rge ventral scales suggesting characteristic serpentine locomotion, yet retains small prehensile limb

124 Haphazardly arranged serpentine low-signal-intensity structures, often associ

125 In succession, serpentine (<100 km depth), lawsonite (100-250 km depth)

126 The LFAM device consists of a serpentine main channel, through which most of a sample

127 The device consists of four serpentine main channels, and each channel contains an a

128 A new serpentine medulla (Sm) interneuron family contains more

129 gous mutations in the coding sequence of the serpentine melanocortin 4 receptor (MC4R) are the most f

130 zygous mutations in the coding region of the serpentine Melanocortin 4 receptor are the most common g

131 tretchable structures (e.g., buckled shapes, serpentine mesh layouts, kirigami designs, among others)

132 example, glauconite-nontronite), Fe- and Mg-serpentine, Mg-Fe-Ca-carbonate and probable Fe-sulphide

133 Serpentine microchannels are known for their effective p

134 This study explores square serpentine microchannels, a geometry that has recently g

135 with diffractive optics was combined with a serpentine microfluidic channel geometry designed to pro

136 ied by multifunctional devices, including 3D serpentine microfluidic channels, microfluidic valves, a

137 ly of particle trains on the centerline of a serpentine microfluidic device with a nearly circular cr

138 tion yields hisingerite as the dominant iron serpentine mineral at comparatively low temperature and

139 al and petrological models show the dominant serpentine mineral is antigorite.

140 However, the frictional strengths of serpentine minerals are too high to satisfy the limitati

141 lc is forming as a result of the reaction of serpentine minerals with silica-saturated hydrothermal f

142 The alteration of olivine-rich rocks to serpentine minerals, (hydr)oxides, and aqueous hydrogen

143 microfluidic mixers: a Y channel mixer, a 3D serpentine mixer, and a vortex mixer.

144 In the serpentine mixer, OCT image analysis revealed that the m

145 d velocity profiles at various points in the serpentine mixer.

146 After passing through a serpentine mixing channel, bacterial particles were dete

147 within cellulose thread substrates serve as serpentine mixing medium, requiring no special preparati

148 agar was thought to improve traction for the serpentine movement of the S. hyodysenteriae and for the

149 ing plants growing on serpentine (S) and non-serpentine (NS) soils, respectively.

150 The initial sample consists predominantly of serpentine, olivine, and layered double hydroxides (LDH,

151 more closely match the color of their native serpentine or nonserpentine soil type than the opposing

152 Serpentine, or linear irregular, vessels were most commo

153 pentine ribbons (HSPR), which refer to a GET serpentine partially overlapping with a gold serpentine

154 ential fields and moved losslessly through a serpentine path including 44 "U" turns using TWs.

155 compression and multiple passes through the serpentine path provides the basis for a highly desirabl

156 ely 1094 m over 81 passes through the 13.5 m serpentine path) and was facilitated by the introduction

157 (trapped) cells ahead of them by choosing a serpentine path.

158 traveling waves (TWs) to move ions over long serpentine paths that can be further lengthened by routi

159 multilevel SLIM possessing multiple stacked serpentine paths.

160 ion induced sequential muscle activation via serpentine-patterned muscle circuits, leading to coordin

161 laser micromachining manufactures flexible, serpentine patterns in the graft's elastomeric layer.

162 onolayers were first formed through a single serpentine poly(dimethylsiloxane) microchannel; (ii) a s

163 essive devolatilization of carbonate-bearing serpentine-polymorph chrysotile, with in situ electrical

164 ext of substantial gene flow from nearby off-serpentine populations of A. arenosa, as well as from A.

165 cluding fusiform/dolichoectatic, dissecting, serpentine, posttraumatic, mycotic and giant aneurysms w

166 number, elevation, soil characteristics, and serpentine presence.

167 Recently, a serpentine protein Smoothened (Smo) has been proposed as

168 ase A (PKA)-dependent phosphorylation of the serpentine protein Smoothened (Smo) leads to Ci activati

169 pression under free-running conditions; (iv) Serpentine receptor 10 (SR10) has a 24 h transcriptional

170 Multiple Serpentine Receptor B (SRB) chemosensory receptors regul

171 but distinct from, the previously described serpentine receptor class a (sra) family and shows a dif

172 have identified a chemosensory gene family, serpentine receptor class ab (srab), which exists in bot

173 at disrupts the adjacent chemoreceptor genes serpentine receptor class g (srg)-36 and -37.

174 ent chemoattractant for cells expressing the serpentine receptor CMKLR1 (chemokine-like receptor 1),

175 , extracellular cAMP through activation of a serpentine receptor family.

176 rity in all three systems is mediated by the serpentine receptor Frizzled and a number of additional

177 We show that the mast cell-expressed orphan serpentine receptor mCCRL2 is not required for expressio

178 that inhibits Hh signaling by targeting the serpentine receptor Smoothened (SMO), has produced promi

179 key elements of a general mechanism for the serpentine receptor switch.

180 C5L2 is an enigmatic serpentine receptor that is co-expressed with the C5a re

181 eceptor that acts together with the Frizzled serpentine receptor to initiate Wnt signal transduction.

182 e findings show that acquired mutations in a serpentine receptor with features of a G protein-coupled

183 rtussis toxin (PTX) is a potent inhibitor of serpentine receptor-associated inhibitory trimeric guani

184 (ER) to prevent maturation of Frizzled (Fz) serpentine receptors and fibroblast growth factor recept

185 nary conservation of the switch mechanism of serpentine receptors and help to constrain models of how

186 The seven transmembrane helices of serpentine receptors comprise a conserved switch that re

187 ommunication that is mediated by a family of serpentine receptors containing seven transmembrane doma

188 riety of other chemoattractants that bind to serpentine receptors coupled to heterotrimeric G protein

189 The Frizzled (Fz) family of serpentine receptors function as Wnt receptors, but how

190 rimeric GTP-binding proteins (G-proteins) to serpentine receptors involves several independent contac

191 gnaling through the Frizzled (FZD) family of serpentine receptors is essential for embryogenesis and

192 Frizzled serpentine receptors mediate distinct signaling pathways

193 ing seven-transmembrane G-protein-coupled or serpentine receptors related to the ODR-10 diacetyl chem

194 pressin, angiotensin II, and endothelin bind serpentine receptors that interact with G(q) and activat

195 Frizzled (Fz) proteins are serpentine receptors that transduce critical cellular si

196 Serpentine receptors usually signal to downstream effect

197 In contrast with other known serpentine receptors, CIRL has two subunits of the 120 a

198 In Drosophila, two closely related serpentine receptors, Frizzled (Fz) and D-Frizzled2 (Fz2

199 lassic components of this system include the serpentine receptors, heterotrimeric G-proteins, adenyly

200 Caveolae harbor different serpentine receptors, intracellular components of signal

201 interaction with receptors, and, in several serpentine receptors, regions similar to those in rhodop

202 asmic ends of these two helices in two other serpentine receptors, the beta2-adrenoreceptor and the p

203 nding pockets within the seven-helix core of serpentine receptors, the topography of these binding po

204 Hormones and sensory stimuli activate serpentine receptors, transmembrane switches that relay

205 e biological responses via G protein-coupled serpentine receptors.

206 ost chemokine receptors and is rare in other serpentine receptors.

207 , and srd families of seven-transmembrane or serpentine receptors.

208 the holoreceptor by the plasma membrane, the serpentine region of the TSHR, or by TSHR dimerization.

209 t their interfaces, we propose heterogeneous serpentine ribbons (HSPR), which refer to a GET serpenti

210 s well as non-accumulating plants growing on serpentine (S) and non-serpentine (NS) soils, respective

211 A combination of sparse and serpentine scanning routines was tested for a crystallin

212 As a demonstration, smooth straight, serpentine, self-similar, and bead-on-string structures

213 for Agilent tune mix ions through a ~12.8 m serpentine separation path in both nitrogen and helium.

214 MS detector or for another pass through the serpentine separation region, allowing theoretically unl

215 es of Parkin have been solved, revealing its serpentine shape and modes of auto-inhibition.

216 included (1) choroiditis with an ameboid or serpentine shape; (2) characteristic imaging on fluoresc

217 hts, small- and large-amplitude sine curves, serpentine shapes, circles, and a variety of spirals.

218 We report Cr speciation (i) in four serpentine soil depth profiles derived from the Californ

219 y to reconstruct selective forces generating serpentine soil endemism, which has four to five indepen

220 though Cr(VI) concentrations are elevated in serpentine soil pore water, few studies have reported fi

221 ) generation and mobility across an unburned serpentine soil toposequence in southwestern Oregon.

222 to soil macronutrients, but not relative to serpentine soil use; and that the number of glucosinolat

223 A Sri Lankan serpentine soil was utilized to provide context with reg

224 l, a heavy metal enriched to toxic levels in serpentine soil, and a major axis of environmental soil

225 her Arabidopsis lyrata is locally adapted to serpentine soil, and to map the polymorphisms responsibl

226 also play a role in rhizobium adaptation to serpentine soil.

227 de patterns of genetic admixture between the serpentine-soil specialist leather oak (Quercus durata)

228 lianus occurs across a variety of gray-green serpentine soils and brown nonserpentine soils.

229 Hexavalent chromium (Cr(VI)) is generated in serpentine soils and exported to surface and groundwater

230 s of adaptation to physiologically stressful serpentine soils in rhizobial bacteria in western North

231 s arenosa, which repeatedly adapted to toxic serpentine soils that exhibit skewed elemental profiles.

232 Serpentine soils, characterized by high heavy-metal cont

233 ous Thlaspi hyperaccumulators collected from serpentine soils, including Thlaspi goesingense, T. oxyc

234 o be a major pathway of Cr(VI) production in serpentine soils.

235 en populations growing on and off phytotoxic serpentine soils.

236 represent a case of adaptation to growth on serpentine soils.

237 y present as Cr(III) in ultramafic rocks and serpentine soils.

238 s directly related to a Si deficiency in the serpentine structure, which itself is caused by low SiO(

239 of eicosanoids and are likely members of the serpentine superfamily of G protein-linked receptors.

240 plant-herbivore network was more modular on serpentine than on nonserpentine soils-despite large dif

241 These reveal that serpentine-that is, hydrated mantle rather than crust or

242 pressure (80 Torr) formed a 250-microm-wide serpentine trace with uniform width and microcrystalline

243 n thick bars suppresses buckling behavior in serpentine traces that have thicknesses greater than the

244 of liquids, alloys, ceramics and glasses the serpentine trajectories could cause entry into meta-stab

245 libration; the equilibration process follows serpentine trajectories in composition space.

246 es by an unknown mechanism that requires the serpentine transmembrane protein Smoothened (Smo) and th

247 n intracellular conformational switch in the serpentine transmembrane protein Smoothened appears to u

248 Members of the Frizzled family of serpentine transmembrane receptors are required to trans

249 their molecular makeup, including the famed serpentine transmembrane unit; and ultimately, their thr

250 micro stepper motors, a mixer connected to a serpentine tube, and a high-pressure valve.

251 m the self-assembly of toroids, helical, and serpentine tubules from DNA origami subunits, deriving t

252 d topology, spanning from toroids to achiral serpentine tubules to both left- and right-handed helica

253 trix, and lumenal secretion of Vermiform and Serpentine, two putative matrix-modifying proteins.

254 ructures for Lossless Ion Manipulations with serpentine ultralong path and extended routing ion mobil

255 witch to achieve higher resolution multipass serpentine ultralong path with extended routing (SUPER)

256 Ion accumulation is conducted in a SLIM serpentine ultralong path with extended routing (SUPER)

257 ctures for lossless ion manipulations (SLIM) serpentine ultralong path with extended routing (SUPER)

258 y platform (SLIM IM-MS), in conjunction with serpentine ultralong path with extended routing (SUPER),

259 Pressure-induced amorphization of serpentine was observed at temperatures of 200° to 3

260 serpentine partially overlapping with a gold serpentine without added adhesive.