ライフサイエンスコーパス: blue

1 ), mRuby (far red), mKate (red), and TagBFP (blue).

2 (yellow), whereas others prefer coagulation (blue).

3 d laminae caused a color shift from brown to blue.

4 in the fluorescence color from the yellow to blue.

5 The basal lighting, consisting of blue 455 nm, red 627 and 660 nm and far red 735 nm LEDs,

6 d in quasi-monochromatic red (410-510 nm) or blue (585-660 nm) light beginning before eye-opening.

7 screening pigment and by the presence of the blue-absorbing filter in the R7y receptors.

8 electron microscopy (SEM) as well as alamar blue, acridine orange, and alizarin red assays.

9 and direct imaging of the transport of Evans blue-albumin complex in brains of rats subjected to recu

10 purple-pericarp sweetcorn (75.5% of TAC) and blue-aleurone maize (91.6%), while pelargonidin-based gl

11 ectrolyte, the NaTiOPO(4) anode and Prussian blue analog Na(1.88) Mn[Fe(CN)(6) ](0.97) .1.35H(2) O ca

12 Prussian blue analogues (PBAs) are a diverse family of microporou

13 observed that Methylene Blue, New Methylene Blue and 1,9-Dimethyl Methylene Blue increased by 5000%

14 The focus was on blue and green phthalocyanines, yellow and red (naphthol

15 (+) pili Escherichia coli species, using XL1-Blue and K12 strains, as examples of coliforms.

16 tron configuration constitute a new class of blue and NIR-II luminophores, which complement the class

17 l values) and introducing mediators (Meldola Blue and Prussian Blue) or Pd-nanoparticles (Pd-NPs).

18 by shade cues, including a reduction in the blue and red portions of the solar spectrum and a low-re

19 harvesting pigment that absorbs light in the blue and red spectrum.

20 a mixture of dayflower (Commelina communis) blue and safflower (Carthamus tinctorius) red in purple

21 tural soiling disproportionately impacts the blue and ultraviolet (UV) portions of the spectrum compa

22 numbers of rods and red/green cones, whereas blue and UV cones were relatively unaffected.

23 olipid protein immunostaining and Luxol fast blue) and demonstrated good precision.

24 ofluorescence via multiple wavelengths (red, blue, and green) and under various conditions (cell-free

25 r haematoxylin and eosin and Perls' Prussian blue, and immunohistochemistry was performed against amy

26 Fin, blue, and sei whales were more frequently detected in th

27 uttata (aOR, 1.35; P = 0.006); use of Trypan blue (aOR, 1.76; P < 0.001); mechanical pupil dilation (

28 .2 Hz) and monitored with standard viability Blue assay and EIS with equivalent circuit modeling.

29 Ab and toluidine blue attached to O-succinyl-chitosan-magnetic nanopartic

30 Trypan blue-based automated counters, typically recommended for

31 A Prussian blue-based electrode array (PBEA) constituted by eight s

32 Transfer of bromothymol blue (BTB) from acidic to basic aqueous slugs was perfor

33 We further show that blue (but not red) light is necessary and sufficient to

34 ions for modeling greenhouse-gas dynamics of blue C ecosystems.

35 However, shortly boiled blue cabbage (5 min) had the highest isothiocyanate leve

36 ular design of the next generation of stable blue carbene-metal-amide emitters.

37 Blue carbon (C) ecosystems are among the most effective

38 nd motivate member states to value Antarctic blue carbon and maintain scientific integrity and conser

39 be better understood to improve accuracy of Blue Carbon assessments, particularly when strong gradie

40 tudy was to establish a testable estimate of blue carbon change caused by glacier retreat along Antar

41 Blue carbon change with sea ice and ice shelf losses has

42 e of spatial gradients must be considered in Blue Carbon estimates in coastal ecosystems.

43 Polar blue carbon increases with losses of marine ice over hig

44 area is increasing and the area available to blue carbon is also increasing.

45 In economic terms, the value of Antarctic blue carbon is estimated at between pound 0.65 and pound

46 shelf losses has been estimated, but not how blue carbon responds to glacier retreat along fjords.

47 ocean warming, contrary to decreasing global blue carbon stocks elsewhere.

48 etting controls natural dynamics of mangrove blue carbon stocks, while long-term land-use changes aff

49 We present an assessment of blue carbon storage at five mangrove sites across West P

50 l governance are needed to protect Antarctic blue carbon: the world's largest increasing natural form

51 rvice and Blue Cross Blue Shield of Michigan/Blue Care Network commercial and Medicare Advantage plan

52 solid-state NaFe(II)Fe(III)(CN)(6) (Prussian Blue) cathode, showing approximately an order-of-magnitu

53 monly used staining dye 'coomassie brilliant blue' (CBB) towards GMP.

54 ogy and immunophenotype, such as small round blue cell tumors.

55 ns and were visualized preferentially at the blue channel.

56 VID to identify discriminant compounds in 17 blue cheese varieties.

57 ensor ability for the direct assay of TYR in blue cheese, aged cheese, Egyptian pickled cottage chees

58 thylpyridine, which were newly identified in blue cheese.

59 The orange-blue cluster (composed of antibodies against Eubacterium

60 This phenomenon led to generate a blue color of the solution that enabled visualizing and

61 sents a stabilization of the quinoidal base (blue color) at neutral or moderate alkaline pH, which fo

62 uced and oxidized, and photoluminesce with a blue color.

63 ght emitting devices having both an (active) blue-color-emitting nanorod emitters and a (passive) nor

64 ion above 90% and does not mask the Prussian Blue colour change because the cathode does not operate

65 thylene Blue was combined with New Methylene Blue (Combination Index = 0.84).

66 ominantly rods, accompanied by rhodopsin and blue cone opsin mislocalization from 6 to 12 months of a

67 ous fashion; in addition, Crb1 delays UV and blue cones' chromatin condensation caused by UV light ir

68 from nanocarriers via a paclitaxel-methylene blue conjugate (PTX-MB) with redox activity.

69 design this construct toward either green or blue copper chromophores using mutation strategies that

70 bias-induced switching of conductance via a blue copper protein azurin mutant, N42C Az, with a nearl

71 This in turn was converted to a blue copper protein by removing an axial methionine.

72 Blue copper proteins have a constrained Cu(II) geometry

73 stion of how one can create a self-contained blue copper site within a de novo scaffold, especially o

74 from ROT to NCL, relayed by entopallium, and blue could trigger the strongest response.

75 e applied these methods to 17 populations of blue crab (Callinectes sapidus) along the US Atlantic co

76 We analyzed the data on patients enrolled in Blue Cross Blue Shield of Michigan Cardiovascular Consor

77 ents insured by Medicare fee-for-service and Blue Cross Blue Shield of Michigan/Blue Care Network com

78 Here, we show that blue-diode laser annealing dramatically improves mechani

79 ver, one of gold salts side effects (i.e., a blue discoloration of the skin exposed to light) leads u

80 Methylene Blue (NMB), 1,9-Dimethyl Methylene Blue (DMMB) and Toluidine Blue O (TBO) on N. caninum, us

81 n PCA model, VAD mice showed remarkable more blue dye leakage than that in VAN mice.

82 revealed more uniform distribution of Evans Blue Dye using a double distal injection (DDI) approach

83 d with a blend of Calcofluor white and Evans blue dyes in addition to Nile red, ground arthropod biom

84 The blue emission of M2biQ can be tuned to specific waveleng

85 mpound simultaneously possesses narrow, deep-blue emission with CIE coordinates of (0.17, 0.01).

86 nions present into colorless crystals with a blue emission.

87 ence upon hypoxia, the ratio between red and blue emissions, which only varies with intracellular oxy

88 d due to analyte blockage, while that of the blue emissive CDs stayed almost constant, which led to a

89 e that the prepared compounds are attractive blue-emitting fluorophores, exhibiting quantum yields up

90 2)Au](PF(6))(n)(AsF(6))(1-n) from colorless (blue-emitting) to yellow (green-emitting) increases as t

91 e primary wavelengths emitted in response to blue excitation light are within the spectrum of green l

92 Blue excitation light induced a rapid (tau ~0.8 s), PLC-

93 a can simultaneously label mitochondria with blue fluorescence and lysosomes with red fluorescence, a

94 hine sensor is reported that exhibits bright blue fluorescence in the presence of gold(I/III) ions bu

95 escence, and the correlation between the red-blue fluorescence intensity indicates the progress of mi

96 es depending on the surfactant identity, the blue fluorescence intensity of GO at 440 nm increases wi

97 mer-[V(ddpd)(2)][PF(6)](3) shows very strong blue fluorescence with 2% quantum yield in acetonitrile

98 ntaining only terCBZ donor(s) exhibited deep blue fluorescence, with Commission Internationale de l'e

99 The resulting heterocycles are blue fluorescent in both the solid state and in solution

100 It produces ripe metallic blue fruits throughout winter [1].

101 ructural OCT, near-infrared reflectance, and blue fundus autofluorescence, were investigated.

102 has variable colors overlain on a moderately blue global terrain.

103 indicating color-sensitive photosensing with blue, green, and red spectral variation of ACRs within i

104 ned polymers were synthesized in water under blue, green, red, and NIR light irradiation.

105 color ranging from violet-blue through deep blue, green, yellow to red.

106 s, as secondary metabolite of cyanobacteria (blue-green algae) and cyclic heptapeptide cyanotoxin, ar

107 Many vertebrates have distinctive blue-green bones and other tissues due to unusually high

108 tenoid protein, which is activated by strong blue-green light.

109 he majority of opto-RTKs were activated with blue-green light.

110 ing to near-UV excitation and characteristic blue-green luminescence in amyloid systems devoid of aro

111 illata), black wattle (Acacia mearnsii), and blue gum (Eucalyptus globulus).

112 record of hurricane passage near Thatchpoint Blue Hole (TPBH) on Abaco Island, The Bahamas.

113 column (3%, visualized as lighter -> darker blue in the TOC), whereas the drop for the UHPSFC one wa

114 exo-HAV infectivity as assessed by methylene blue inactivation of non-encapsidated RNA.

115 ew Methylene Blue and 1,9-Dimethyl Methylene Blue increased by 5000% the reactive oxygen species (ROS

116 tion of aluminum oxide filters, selection of blue laser and lack of H(2)O(2) treatment.

117 photoanode or reduction by the polymethylene blue layer at the biocathode.

118 irradiation of N-acryloyl heterocycles with blue LED light (440 nm) in the presence of an Ir(III) co

119 trast, the polarization degree of the 443 nm blue LED remains constant with changing injection curren

120 e prepared efficiently and effectively using blue LEDs.

121 cytotoxicity was monitored using the trypan blue life/death assay directly on the surface.

122 The biochemical changes induced by LED Blue Light (LBL) (450 nm) in Lane Late oranges were inve

123 We further found that blue light activation of inward-rectifying K(+) (K(+) (i

124 The blue light activation of K(+) (in) channels was also imp

125 chloroplast movement mechanism under excess blue light alongside the chloroplast unusual positioning

126 Here we show that both low blue light and a low-red to far-red light ratio are requ

127 recently benefited from the introduction of blue light assisted photodynamic diagnostic (PDD).

128 bit impaired stomatal opening in response to blue light but no deficits in other phototropin-mediated

129 While blue light cystoscopy improves diagnostic sensitivity, i

130 ct itself unless irradiated with a low-power blue light emitting diode (LED), resulting in local anes

131 cell layer, the same procedure is applied to blue light exposure experiment.

132 f interest can be enhanced or inhibited upon blue light illumination.

133 any TOC and TIC genes are rapidly induced by blue light in both WT and the ppi2 mutant.

134 The stomatal response to blue light is highly sensitive, rapid, and not driven by

135 Blue light levels commonly needed for actuation can be c

136 le cross-linking with riboflavin and UV-A or blue light might be a clinical approach in future.

137 antly reduces the biological responsivity to blue light of the cryptochrome receptor cry1 in Arabidop

138 and bundle sheath genes were induced only by blue light or only by red light, but not both.

139 adation of the clock protein TIMELESS by the blue light photoreceptor Cryptochrome is considered the

140 Phototropins (phot1 and phot2) are plant blue light receptor kinases that function to mediate pho

141 ght, oxygen, or voltage (LOV) domains of the blue light receptors aureochrome and phototropin reveale

142 Cross-linking with riboflavin/blue light reduced the degradation by MMP1 to 77% +/- 13

143 Blue light regulates multiple processes that optimize li

144 ration than to humidity, suggesting that the blue light responses of Marsileaceae stomata differ from

145 Cherenkov radiation (CR), the blue light seen in nuclear reactors, is emitted by some

146 Following an aversive mechanical or blue light stimulus, worms respond first by briefly movi

147 However, prolonged low blue light treatments are sufficient to promote phototro

148 ging because CsChrimson is also sensitive to blue light used to activate green fluorescent protein, a

149 Blue Light Using Flavin (BLUF) domains are increasingly

150 Blue light using flavin (BLUF) photoreceptor proteins ar

151 calcium concentration when illuminating with blue light, and the fluorescence can be reset with viole

152 ngle crystal as Pb or after irradiation with blue light, detected photoconversion product(s) based on

153 ferences between the responses under red and blue light, the chloroplast movement mechanism had no ef

154 Under blue light, the iLID + tdnano system recruits two copies

155 When A2E-loaded cells are exposed to blue light, the model parameters indicate, as expected,

156 vation by high energy UV or short wavelength blue light, which can limit their use as a consequence o

157 ol (66%) was found in T. migricus exposed to blue light, while the least (1.69%) was observed in T. k

158 rmits reversible photoconversion between the blue light-absorbing Pb and green light-absorbing Pg sta

159 abcb19 mutants were analyzed for fluence and blue light-dependent changes in leaf positioning and mor

160 r, semi-polar (20[Formula: see text]1) InGaN blue light-emitting diodes (LEDs) were fabricated and co

161 green alga Chlamydomonas reinhardtii evolved blue light-excited channelrhodopsins (ChR1, 2) to naviga

162 In late-stage STGD1-like patient and blue light-illuminated Abca4(-/-) mice, lipofuscin and m

163 This blue light-illuminated pigmented Abca4(-/-) mouse model

164 Blue light-induced RPE cellular damage preceded the phot

165 ell movement requires components involved in blue light-mediated stomatal opening, suggesting cross t

166 n of alcohols via an S(N)2 pathway, in which blue light-promoted iodination is used to form alkyl iod

167 However, blue light-responsive photoreceptors are, in principle,

168 under equivalent intensities of both red and blue light.

169 d for stomatal responses to a low fluence of blue light.

170 activation of heterotrimeric G-proteins with blue light.

171 d using an n-AlGaN/p-CuI junction that emits blue light.

172 riboflavin combined with UV-A-light or with blue light.

173 xidant capacity (IC(50) = 176.8 ug/mL) under blue light.

174 s observed in T. kotschyanus grown under red-blue light.

175 ibly photochromic FP that responds to UV and blue light.

176 ithin microseconds upon photosolvolysis with blue light.

177 green-light absorbing phycoerythrobilin and blue-light absorbing phycourobilin.

178 Retinal imaging included OCT, blue-light autofluorescence imaging, fundus photography,

179 complexes with naphthalenes, we demonstrate blue-light driven upconversion in water with unprecedent

180 Blue-light illumination at the embryonic termini for 90

181 cantly reduce dark leak activity and improve blue-light induction developing our new version, PA-Cre

182 to become physiologically active, and BICs (blue-light inhibitors of CRYs) suppress homo-oligomeriza

183 Chain walking combined with blue-light irradiation functions as the mechanistic swit

184 teraction with the light-responsive Cry2-CIB blue-light switch, referred to hereafter as the CofActor

185 drives absorption and emission peaks toward blue-light wavelengths.

186 PULSE combines a blue-light-regulated repressor with a red-light-inducibl

187 tely, the molecular parameters necessary for blue-light-triggered Pd-C bond homolysis from this alpha

188 n the thalamofugal pathway when illuminating blue lights.

189 anslucent (47%), yellow and brown (26%), and blue-like (9%).

190 2) as the (*)OH generation system, methylene blue (MB) as the probe compound, and isopropyl alcohol (

191 BR) for the treatment of simulated methylene blue (MB) wastewater for 9 weeks under aerobic condition

192 high yields) of New Fuchsine (NF), Methylene Blue (MB), Erythrosine B (ER) and 4-chlorophenol (4-CP)

193 itic effects of the phenothiaziums Methylene Blue (MB), New Methylene Blue (NMB), 1,9-Dimethyl Methyl

194 The indicators studied were bromothymol blue, methyl red, and resazurin, and the reactions of ea

195 Here we describe the use of Michler's hydrol blue (MHB) to investigate fibrils formed by the weak and

196 ndrostenone was fabricated using a Meldola's Blue modified SPCE (MB-SPCE) by depositing NADH and the

197 time leading to favorable orientation of the blue multi-copper enzyme Myrothecium verrucaria bilirubi

198 When utilizing this material to sensitize a blue multiple-resonance TADF emitter, the corresponding

199 mation from spectral [e.g., RGB (red, green, blue)], multispectral, and hyperspectral sensors that me

200 luated exceptional archival specimens of the blue mussel Mytilus edulis collected regularly between 1

201 ange on keystone species, such as the Baltic blue mussel.

202 mmunoreaction with an iron oxide-to-Prussian blue nanoparticle (PB NP) conversion took place and a ma

203 lateral flow pad (LFP), mesoporous Prussian blue nanoparticles (MPBs) as artificial nanozymes and au

204 Under native condition, Blue Native-PAGE and Blue Native-PAGE/SDS-PAGE 2D analys

205 teins were observed in separate complexes by blue native-PAGE, the two proteins coimmunoprecipitated

206 Under native condition, Blue Native-PAGE and Blue Native-PAGE/SDS-PAGE 2D analyses demonstrated co-ex

207 ons of an unusual, ring-shaped ultraviolet ('blue') nebula and the star at its centre, TYC 2597-735-1

208 We also observed that Methylene Blue, New Methylene Blue and 1,9-Dimethyl Methylene Blue

209 Upon introduction of Nile blue (NiB) as an acceptor into the NPS-SC4AD co-assembly

210 thiaziums Methylene Blue (MB), New Methylene Blue (NMB), 1,9-Dimethyl Methylene Blue (DMMB) and Tolui

211 Dimethyl Methylene Blue (DMMB) and Toluidine Blue O (TBO) on N. caninum, using in vitro and in vivo m

212 ied four co-occurring woodland tree species, blue oak (Quercus douglasii), valley oak (Quercus lobata

213 Regionally for blue oak, severity of dieback was related to the bedrock

214 ibitory synapses onto ipRGCs, resulting in a blue-OFF response.

215 many that are driven by a pervasive and slow blue-Off system-far in excess of what would be required

216 Generic language ("Boys like blue") often occupies the central role in accounts of th

217 Within this compact code, the 'Blue-ON' small bistratified RGC was thought to be the on

218 e (e.g., "the black..." as implying "not the blue one") and anticipate the target referent, whereas l

219 ion treatment of cancer and are activated by blue or near-infrared light.

220 ents, the vast majority of complexes utilize blue or UV-A light to obtain a PDT effect, limiting the

221 1.2-13.4], P = 0.02), and the use of trypan blue (OR = 4.1 [95% CI 1.3-13.1], P = .02) as predictors

222 terials does not simply progress from red to blue (or vice versa).

223 oducing mediators (Meldola Blue and Prussian Blue) or Pd-nanoparticles (Pd-NPs).

224 f the art in efficiency and stability in sky-blue organic light-emitting diodes.

225 branes show great promise in harvesting the "blue" osmotic energy between river water and sea water.

226 e connected to a coplanar 3 x 15 mm Prussian Blue, PB, cathode printed over a transparent poly(3,4-et

227 .5 um are demonstrated using red, green, and blue PEN inks.

228 However, for blue perovskite LEDs, the emission spectrum line width i

229 port the 409-megabase genome sequence of the blue-petal water lily (Nymphaea colorata).

230 y occur because of local order in a cylinder blue phase-type organisation.

231 a result, including splay-twist analogues of blue phases.

232 substituted ligands to show sky-blue to deep-blue photoluminescence from charge-transfer excited stat

233 bromide bond activation can be achieved with blue photons, and we obtained full conversion for the ve

234 metasurface patterns define red, green, and blue pixels and ensure optimized extraction of these col

235 , here we profiled spontaneous and methylene blue plus light-induced mutations in the cII gene from l

236 The blue powders had total phenolic content of 19.5-26.6 mg

237 se/counterclockwise from upward) or its hue (blue/purple).

238 Red-green-blue quantum dot arrays with unprecedented resolutions u

239 uated under five light spectra (namely, red, blue, red-blue, white, and greenhouse condition).

240 A phenomenon of endspectral (red and blue) responses that is clear in V1, recedes in V2, and

241 oy MLS to analyze contrast agents (methylene blue, rhodamine 800, Alexa Fluor 750, IRDye 800CW, and i

242 st DO levels, whereas behavioral metrics for blue rockfish did not vary with oxygen level.

243 Blue rockfish had a lower pCrit and stronger acclimation

244 ion of the hydra analysis framework to small blue round cell tumors (including rhabdomyosarcoma, syno

245 s acquired using the Red, Yellow, Green, and Blue (RYGB) hue and saturation scaling model.

246 a study of goldfish red (L), green (M), and blue (S) cones, finding with microspectrophotometry wide

247 The blue shark (Prionace glauca) was the most common species

248 the data on patients enrolled in Blue Cross Blue Shield of Michigan Cardiovascular Consortium regist

249 d by Medicare fee-for-service and Blue Cross Blue Shield of Michigan/Blue Care Network commercial and

250 n MoSe(2) deposits with exposed edges show a blue shift of 1-2 cm(-1) when exposed to H(2) flow at 15

251 erting and in situ immobilizing chlorides to blue-shift and stabilize the emission.

252 s of new mechanofluorochromic materials with blue-shifted mechanochromic properties.

253 lectronic properties, including exfoliation, blue-shifted UV-vis absorption, altered luminescence, mo

254 Here we developed a MODIS-derived 'blue sky' albedo product and a novel machine learning mo

255 mitochondrial bioenergetics utilizing trypan blue, Southern blotting, and extracellular flux analysis

256 ymorphism is expected to confer expanded "UV-blue" spectral sensitivity and is estimated to have pers

257 The locus coeruleus (LC), or 'blue spot', is a small nucleus located deep in the brain

258 Toluidine blue staining and electronic microscopy were utilized to

259 studied using histology (Chiu score, Alcian blue staining), Western blot, and electrophysiological a

260 f the knee with MRI, histology, and Prussian blue staining.

261 f atypical stars (such as magnetic stars(3), blue stragglers(4) and rapid rotators(5)), they play an

262 patterning is the zebrafish; its alternating blue stripes and yellow interstripes depend on light-ref

263 promotes NADPH-dependent reduction of nitro-blue tetrazolium (NBT) to diformazan.

264 ote NADPH-dependent reduction of tetra-nitro-blue tetrazolium (TNBT) in which all four phenolic rings

265 Teeth were stained with 1% methylene blue, the largest interproximal calculus deposit was sco

266 value and emission color ranging from violet-blue through deep blue, green, yellow to red.

267 al emission could be continuously tuned from blue through green to orange, as well as outputted as a

268 across a predator community with wild-caught blue tits (Cyanistes caeruleus) and great tits (Parus ma

269 Interestingly, blue tits also learned more efficiently from watching co

270 However, we found that both blue tits and great tits consumed fewer aposematic prey

271 In fact, this effect was stronger in blue tits compared to great tits.

272 We expected that blue tits would be less likely to use social information

273 s with CF(3)-substituted ligands to show sky-blue to deep-blue photoluminescence from charge-transfer

274 We also employ resazurin, which changes from blue to pink in the presence of growing bacteria, to acc

275 The sensor undergoes a visible blue to purple to pink color change in response to lacti

276 sources for challenging reactions employing blue-to-UV upconversion in water and pave the way for th

277 d green copper proteins which could be tuned blue using exogenous ligands, but the question of how on

278 are colorimetric assay that traces red-green-blue values from images of urinalysis strips, calculates

279 Complexes 5 and 6, on the other hand, are blue/violet neutral complexes, which carry an EWG-substi

280 nergistic effect was achieved when Methylene Blue was combined with New Methylene Blue (Combination I

281 l ecohydrologic evaluation so that green and blue water trade-offs are properly addressed.

282 e is present, only produce coloration in the blue wavelength region of the visible spectrum.

283 in Natural History Museums, for example, the blue whale 'Hope' at the Natural History Museum, London.

284 activity of fin (Balaenoptera physalus) and blue whale (Balaenoptera musculus) peroxisome proliferat

285 se in the frequency of two southeast Pacific blue whale song types was examined over decades, using a

286 Despite previous studies of individual-level blue whale vocal behavior via bio-logging [9, 10] and po

287 ), sei (B. borealis), fin (B. physalus), and blue whales (B. musculus) over a decade, based on daily

288 spersed oceanic predators such as endangered blue whales (Balaenoptera musculus).

289 In boreal springtime, fin and blue whales feed in the Azores on their way to northern

290 We find that foraging blue whales sing primarily at night, whereas migratory w

291 Jeremy Goldbogen introduces blue whales, the largest animals to ever inhabit earth.

292 at leakage did not occur, we applied dextran blue, which should not penetrate the intact cornea and d

293 cent, fluorescent, and LED (RGB (red, green, blue), white cold, white warm) lighting on characteristi

294 r five light spectra (namely, red, blue, red-blue, white, and greenhouse condition).

295 inable protein sources such as soy (SPH) and blue whiting (BPH).

296 uckeye butterflies artificially selected for blue wing color, we found that thickened laminae caused

297 es of tunable afterglow emissions, including blue, yellow, green, and white.

298 on and control of color perception along the blue-yellow axis in blind patients with RP by electrical

299 rceived chromatic colors along or nearby the blue-yellow axis in color space.

300 The correlation between frequency and blue-yellow perception exhibited a good level of consist