ライフサイエンスコーパス: mold

1 dampness, water damage, or visible mold ("no mold").

2 ubiquitous and versatile filamentous fungi (molds).

3 use, including: AQI, PM10, weed pollen, and mold.

4 nly limited by the size of the corresponding mold.

5 We propose that humility might also fit this mold.

6 IL technique and anodic aluminum oxide (AAO) mold.

7 ructure, which resides on the surface of the mold.

8 mer introduced into a poly(dimethylsiloxane) mold.

9 -micrometer periodic patterns using a single mold.

10 luded are 14 isolates from yeast and 33 from mold.

11 istory of dampness, water damage, or visible mold.

12 y small organism test sets, particularly for molds.

13 stem cells, a fibrin matrix, and 3D printed molds.

14 eased proportion of rare multidrug-resistant molds.

15 y and phagocytosis in animal cells and slime molds.

16 n isolate, but the majority of isolates were molds.

17 da (4/16, 25%), but 75% of all isolates were molds.

18 ding yeast), and 0.6% contained mycobacteria/molds.

19 dia or plasmodial shuttle streaming in slime molds.

20 ed cardiomyocytes with collagen in preformed molds.

21 as models, assembly fixtures, and production molds.

22 tting temperature (OCT) medium and frozen in molds.

23 cies identification of bacteria, yeasts, and molds.

24 O plays a vast and diverse signaling role in molds.

25 h different shapes and geometries of defined molds.

26 eases caused by a wide variety of yeasts and molds.

27 invasive fungal disease with both yeasts and molds.

28 ances determined by the force applied during molding.

29 olates of the most representative pathogenic molds (154 Aspergillus and 136 non-Aspergillus isolates)

30 ces affect the exploration behavior of slime molds; (2) Nutritive and adverse substances both slow do

31 no use, 15.8%; irregular use, 3.8%), whereas mold (22.1%), dust (10.6%), or fur (13.1%) allergies may

32 By stretching the mold, 2D arrays with square, rectangular, and triangular

33 dog/cat/horse, (2) timothy grass/birch, (3) molds, (4) house dust mites, (5) peanut/wheat flour/mugw

34 6 caspofungin vs 17 fluconazole) included 14 molds, 7 yeasts, and 2 fungi not further categorized.

35 These fungi include a mold, a budding yeast, and thermal dimorphic fungi.

36 six fungal isolates were recovered, of which molds accounted 63 (82.9 %) of the total isolates.

37 Aspergillus species were the two predominant molds accounting 27.6 and 25 % of the total isolates res

38 e control of hyperglycemia, and the use of a mold-active agent as prophylaxis in patients receiving n

39 rong recommendation was made to administer a mold-active agent with an echinocandin or a mold-active

40 The median time from the start of mold-active antifungal therapy to the time of collection

41 mold-active agent with an echinocandin or a mold-active azole when systemic antifungal prophylaxis i

42 The use of mold-active azoles for antifungal prophylaxis after allo

43 up to 90 days after transplant and extending mold-active prophylaxis for up to 180 days after surgery

44 (ISA) is an attractive candidate for primary mold-active prophylaxis in high-risk patients with hemat

45 Future studies should explore the benefit of mold-active prophylaxis to this subgroup of KT recipient

46 trose agar with gentamicin (SDA), inhibitory mold agar (IMA), and brain heart infusion (BHI) agar wit

47 by the birch pollen allergen Bet v 1 or the mold allergen Alt a 1 increased the stability of these a

48 idate antigen for the molecular diagnosis of mold allergy, and determination of a major cross-reactiv

49 moke, season of birth, PM2.5, breastfeeding, mold and cockroaches in home, and distance from highway.

50 Fabrication of the master mold and microfluidic chips requires basic skills in pho

51 Mesophilic bacteria, yeast, mold and pathogenic Enterobacteriaceae decreased as irra

52 process, a uniaxial force is applied to the mold and results in changes of the periodic structure, w

53 These tubes are molded and protected in part by apical extracellular mat

54 rubber sheets were fabricated using replica molding and were subjected to stretching, folding, and r

55 3-log for mesophiles, 4.5-log for yeasts and molds and 2-log for enterobacteria after 20 d of storage

56 these PDMS devices produced from 3D printed molds and after proper device washing and conditioning.

57 chlorophyte green algae, demosponges, slime molds and brown algae.

58 ivity against various fungi species, such as molds and dermatophytes.

59 nderstood feature of organisms such as slime molds and fungi.

60 3D printing of the injection molds and skeletons requires 3 h, seeding the muscle act

61 therefore analyzed the interactions between molds and the bronchial/bronchiolar epithelium at the ea

62 ion of Asp f3 homologs in medically relevant molds and yeasts prompts future evaluation of Asp f3 as

63 changes in the naming of medically important molds and yeasts.

64 ng Aspergillus spp. and non-Aspergillus spp. molds), and Nocardia infections.

65 raphy and requires no silicon wafer, replica molding, and plasma bonding like microfluidic devices ma

66 ctrum triazole with activity against yeasts, molds, and dimorphic fungi.

67 nd the biosynthesis and degradation of NO in molds, and highlight the recent advances in understandin

68 Dematiaceous molds are found ubiquitously in the environment and caus

69 In particular, we describe the role of NO in molds as a signaling molecule that modulates asexual and

70 ls, including injection, rotational and blow molding, as well as dip coating.

71 lfur (S) utilization by the human-pathogenic mold Aspergillus fumigatus during invasive growth.

72 in immune defense against the opportunistic mold Aspergillus fumigatus In this study, we investigate

73 key effectors against the widely distributed mold Aspergillus fumigatus, which is a major threat for

74 clinically-relevant yeast (Cryptococcus) and molds (Aspergillus) at a concentration as low as 0.50 ug

75 species, primarily A. fumigatus, that cause mold-associated disease in humans.

76 a PCR-based method for the identification of mold at the species level was developed.

77 nto a migratory slug phase in cellular slime molds at times of starvation.

78 ng process using a thin polydimethylsiloxane mold bearing a negative array of MNs of 200 mum in heigh

79 ture treatment with close contact casting, a molded below-knee cast with minimal padding, offers outc

80 gnificantly increased resistance toward gray mold (Botrytis cinerea), a pathogen responsible for majo

81 bular carrier of suitable dimensions that is molded by a distinctive helical array of the COPII inner

82 , allometric relationships) are likely to be molded by differences in the power of random genetic dri

83 lopmental programs for which they were never molded by evolution.

84 ate/product sits in the water-exposed cavity molded by Loops 2 and 3.

85 s a critical component of bacterial fitness, molded by natural selection into the many elaborate shap

86 growth potential, a relationship presumably molded by natural selection.

87 regions and subsequently accumulate changes molded by natural selection.

88 d, ultimately, to study how they are further molded by secondary mutation and affinity maturation pro

89 patient-specific three-dimensionally printed molds by using 3-T MRI with DR-CSI and were then sliced

90 ) and manufacturing methods (e.g., injection molding) can be used seamlessly, accelerating developmen

91 Mold-casted self-emulsifying films rapidly released ICG

92 was purified from Rhizopus oryzae, an indoor mold causing allergic sensitization.

93 BITC was accumulated in the mold cells where it caused an enormous amount of alterat

94 m health and survival in preterm infants and molds circuit formation, but gaps remain in our understa

95 understand the mechanisms by which activity molds circuits and would help to identify critical check

96 Mold colonization (n = 45) and proven/probable IMI (n =

97 Humans inhale mold conidia daily and typically experience lifelong asy

98 neutrophil effector activity against inhaled mold conidia.

99 iological surveys indicate that occupants of mold contaminated environments are at increased risk of

100 5, failure of the Bactec FX system to detect mold contamination in two products prompted us to evalua

101 the tested microorganisms, highlighting the molds counting for the whole wheat flour and the aerobic

102 elated to aerobic bacteria counts, yeast and mold counts, and degree of tissue disintegration.

103 increased by 2 Log(10) CFU/mL (LU), whereas mold decreased by 1 LU, E. coli and Klebsiella sp. by 2

104 Dictyostelid cellular slime molds (dictyostelids) are key components of soil microbe

105 Our findings identified the slime mold Dictyostelium discoideum's CISD proteins as the clo

106 es on PHD homologues from the cellular slime mold, Dictyostelium discoideum, and the protozoan parasi

107 Treatment duration for invasive mold disease (IMD) in patients with hematological malign

108 ngus, Sclerotinia sclerotiorum, causes white mold disease and infects a broad spectrum of host plants

109 patients were upgraded to probable or proven mold disease based on galactomannan antigen, culture or

110 tological malignancies and possible invasive mold disease defined by EORTC/MSG criteria.

111 ulture or histology; or remained as possible mold disease if an alternative diagnosis could not be es

112 sign vs other common CT findings of invasive mold disease in patients with hematological malignancies

113 ay-applied NCR044 significantly reduced gray mold disease symptoms caused by the fungal pathogen B. c

114 stic capabilities of CT imaging for invasive mold disease, but its performance relative to other sign

115 clinical trial for the treatment of invasive mold disease.

116 ent CTPA were upgraded to probable or proven mold disease.

117 he potential to reduce the severity of white mold disease.

118 rotection of soybean seeds against the white mold disease.

119 underscore the importance of GA and DELLA in molding disease outcomes.

120 erotinia sclerotiorum, causal agent of white mold diseases on hundreds of plant species, triggers QDR

121 ion (HSCT) period, IFDs, especially invasive mold diseases, were historically considered a contraindi

122 r coaggregate, cross-signaling impacts slime-mold diversity across spatiotemporal scales.

123 Coatings decreased total yeast+mold during 12days of storage while total mesophilic bac

124 cotoxin which can be synthesized by Monascus mold during the fermentation process in foods.

125 to indoor allergens (house dust mites, pets, molds, etc), tobacco smoke, and other pollutants, which

126 th Status (WHO-LARES) study on the effect of mold exposure on mental health (2002-2003).

127 rolled circumstances - observer's states can mold expressive qualities.

128 optimized for each printer: fused deposition molding (FDM), Polyjet, and digital light processing ste

129 erties of the active site could be used as a mold for future drug design.

130 s, while the gelated MC served as a reliable mold for patterning the hydrogel prepolymers.

131 hoton lithography for customization or using molding for mass production.

132 Molds for CCs were constructed using previously establis

133 supply themselves with convenient structural molds for expanding their immunomodulatory repertoires.

134 3D printing has been introduced to fabricate molds for soft lithography, the only step for which a cl

135 This technique enables the mold-free formation of transparent glass structures prev

136 eir provisions, paralyzed honeybees, against mold fungi.

137 cathodic electrochemical exfoliation of iso-molded graphite electrodes.

138 Plasmodial slime molds grow as networks and use flexible, undifferentiate

139 airborne fungal ecology of homes with known mold growth ("moldy") differs from the normal airborne f

140 used to accurately classify the presence of mold growth in homes, assist with inspection and remedia

141 uildings and human exposure to the resultant mold growth is an ever-present public health concern.

142 ith film containing 2% TiO(2)-NPs eliminated mold growth on the cheese surface.

143 d from climate changes include microbial and mold growth secondary to flooding, resulting in displace

144 direct samples from building materials with mold growth were examined in homes from 11 cities across

145 gnificant reduction (1.73log CFU/g) in yeast-mold growth.

146 ty taxonomic structures between moldy and no mold homes (ANOSIM, R = 0.15, p = 0.001).

147 door air differences between moldy versus no mold homes were significant for all three climate region

148 in the settled dust of moldy homes versus no mold homes, as well as distinct community taxonomic stru

149 y classify 100% of moldy homes and 90% of no mold homes.

150 omycota that were more highly enriched in no mold homes.

151 Here, we posit and test the long-term phasic molding hypothesis that resting-state network developmen

152 study posits and tests the long-term phasic molding hypothesis that resting-state networks are gradu

153 Consistent with the long-term phasic molding hypothesis, prospective analyses for both connec

154 Mold identification at the species level in environmenta

155 MALDI-TOF MS has the potential to expedite mold identification, and misidentifications are rare.

156 to evaluate the accuracy of the Vitek MS for mold identification.

157 ght DNA barcoding as an appropriate tool for mold identification; however, its efficacy is essentiall

158 l for product personalization, and injection molding (IM) that would enable production on a larger sc

159 nary IMI, mcfDNA-Seq detected >=1 pathogenic mold in 38 patients (sensitivity, 51%; 95% CI, 39%-62%).

160 ed the growth of total bacterial, yeast, and mold in germinated seeds.

161 direct methods for detecting the presence of mold in stored agricultural produce and water-damaged bu

162 l examination of tissue and isolation of the mold in the culture of clinical specimens; however, anti

163 device that comprises an array of microwells molded in a thin layer of a polyacrylamide gel (PAG).

164 McfDNA-Seq also identified non-Aspergillus molds in an additional 7 patients in the Aspergillus sub

165 thod we introduce uses precast gelatin-based molds in which a whole mouse brain is embedded, flash fr

166 t role for the hexon protein as a "molecular mold" in enabling the formation of such hexagonal protei

167 fabrication method, optical transient liquid molding, in which a 2D light pattern exposes a photopoly

168 n associated with susceptibility to invasive mold infection (IMI) among hematopoietic stem cell but n

169 Mucormycosis is a destructive invasive mold infection afflicting patients with diabetes and hem

170 Pulmonary aspergillosis is a lethal mold infection in the immunocompromised host.

171 ipients, thereby strengthening their role in mold infection pathogenesis and patients' risk stratific

172 viremia, gram-negative bacteremia, invasive mold infection, acute and chronic graft-versus-host dise

173 diagnostic options are limited for invasive mold infections (IMI).

174 Data on invasive mold infections (IMIs) after chimeric antigen receptor T

175 Data on invasive mold infections (IMIs) after chimeric antigen receptor-m

176 Breakthrough invasive mold infections (IMIs) that occur during posaconazole or

177 al drug efficacy in non-Aspergillus invasive mold infections (NAIMIs).

178 ms are independent risk factors for invasive mold infections among 1101 solid organ transplant recipi

179 of a four element objective, made through a molded injection process, and a low cost CMOS camera chi

180 l diacrylate (PEG-DA) hydrogel that was cast-molded into a circular shape.

181 This understanding will then be molded into a few guidelines that should help pave the w

182 cyclic regeneration, feather stem cells are molded into different shapes under different physiologic

183 siderophore-Fe(3+) motifs, is strong, can be molded into different shapes, and is stable on the bench

184 al was processed into functional coatings or molded into solid devices for the removal of palladium a

185 CdTe, PbTe, and Bi2Te3 powders were molded into various shapes in the presence of a small ad

186 Ionic colloidal molding is a simple yet effective approach of achieving

187 Aspergillus fumigatus, a ubiquitous mold, is a common cause of invasive aspergillosis (IA) i

188 Monascus, generally described as red mold, is a red-pigmented filamentous fungus attracting a

189 A total of 319 mold isolates representing 43 genera recovered from clin

190 y bending an optical fiber by 90 degrees and molding its tip into a sphere, thus, a long stem holding

191 Neoscytalidium dimidiatum is a mold known to cause onychomycosis and dermatomycosis; ho

192 a germ tube from the yeast cell followed by mold-like growth of branching hyphae.

193 ing, but failure to identify non-Aspergillus molds limits its usefulness.

194 Our study reveals how motor proteins can mold liquid crystalline droplets and has implications fo

195 r better than those of traditional injection molded magnets.

196 Together with Y gene decay, X-Y arms races molded mammalian sex chromosomes and influenced the cour

197 iteria, antifungal susceptibility testing of molds may be useful in guiding antifungal therapy.

198 tivate future investigations of whether this molding mechanism reflects a general phenomenon of brain

199 This ionic colloidal molding method stabilizes hydroxyapatite precursors to c

200 Interest in molding micro- and nanoscale metallic glass objects is d

201 Our results also show that slime molds migrate at a rate governed by the substrate up unt

202 hotericin B or triazoles for non-Aspergillus molds (Mucoromycotina and Fusarium spp.).

203 iac MicroRings (CaMiRi) - in custom 3D-print-molded multiwell plates capable of contractile force mea

204 Nasoalveolar molding (NAM) is commonly employed to reduce the alveola

205 d in a liquid delivery medium into confining molds, near 8 cm-long tissue strands with rapid fusion a

206 n respond to heterologous antigens either by molding new specificities through secondary germinal cen

207 istory of dampness, water damage, or visible mold ("no mold").

208 R 1.31; 95% CI 1.08-1.59), while exposure to mold odor (OR 1.29; 95% CI 1.03-1.62) and visible mold (

209 lifestyle, structure, and genomes break the mold of classical viruses.

210 The approach correctly identified mold of unknown species from samples taken at a local ba

211 lly complex device, we first use sacrificial molding of a freeform 3D printed template to create a ro

212 To accomplish precision molding of hydrogels and successful integration with mic

213 to bend lipid membranes via scaffolding (the molding of membranes through the crescent protein shape)

214 ell signaling is closely associated with the molding of motor neuron character proposing the existenc

215 ature related to the contribution of PMNs to molding of the tissue microenvironment, with an emphasis

216 om which various static micropatterns can be molded on demand.

217 Early exposure to mold or dampness appeared particularly associated with p

218 Exposure to mold or dampness during infancy increased the risk of as

219 objective was to assess whether exposure to mold or dampness during infancy increases the risk of as

220 Exposure to any mold or dampness indicator was associated with asthma up

221 Exposure to any mold or dampness indicator was associated with persisten

222 e collected questionnaire derived reports of mold or dampness indicators and allergic outcomes from 3

223 No association was observed between mold or dampness indicators and IgE sensitization.

224 asthma, rhinitis, and IgE sensitization and mold or dampness indicators were assessed using generali

225 objects layer by layer without the need for molds or machining.

226 odor (OR 1.29; 95% CI 1.03-1.62) and visible mold (OR 1.28; 95% CI 1.04-1.58) were associated with rh

227 he BCVAs were similar in eyes with yeast and mold (P = .37).

228 s solids in the form of pellets or injection molded parts.

229 esistance mechanism in a major opportunistic mold pathogen.

230 fumigatus conidia, the most prevalent human mold pathogen.

231 ffers significant annual losses to the water mold Phytophthora spp. (Oomycetes).

232 t the formation of pseudopods; and (3) Slime mold placed in an adverse environment preferentially occ

233 e of temporally separated hormone changes in molding plant health and disease and support a scenario

234 rm combining off-the-shelf reagents, a micro-molded plastic microfluidic consumable with a fully inte

235 we map the Raman and Brillouin spectra of a molded poly(ethylene glycol) diacrylate (PEGDA) hydrogel

236 polymicrobial, yet the presence of invasive molds (predominant types: order Mucorales, Aspergillus s

237 pes that are unattainable using conventional molding procedures.

238 Here, we report a programmable nanoreplica molding process to fabricate a variety of sub-micrometer

239 We used a molding process to fabricate these structures out of a f

240 MNDEB) was developed by a conformal transfer molding process using a thin polydimethylsiloxane mold b

241 During the replica molding process, a uniaxial force is applied to the mold

242 coalescence of microscopic gas bubbles in a molding process.

243 e fabricated using the compression-injection molding process.

244 present study, we investigated if 3D printed molds produced by stereolithography can leach components

245 collect spectra of Aspergillus ochraceus, a mold producer of ochratoxin A (OTA), in order to investi

246 Mite and mold sensitization was low.

247 n dynamics, the migration rate and the slime mold shape.

248 positioned firmly within a 3D printed shell mold simulating the skin boundary, and cast with transpa

249 wound closure was also assessed according to mold species isolation.

250 Mold spore concentrations were not associated with MI.

251 mean aeroallergen concentrations (pollen and mold spores) were assigned to case and control periods u

252 machine learning-based model to classify the mold status of a home.

253 Pressure molded stents were fabricated to serve as a reference fo

254 st time without any need for a scaffold or a mold support or a liquid delivery medium, and facilitate

255 and fabricate the silicon hEMV device master molds (takes ~1 week) and elastomeric substrates (takes

256 n in non-wetting templates (PRINT(R)) is one molding technique that allows for fabrication of "calibr

257 printing will replace most PDMS and plastic molding techniques in academia.

258 polymer, we have developed a reconfigurable molding technology that can significantly reduce time, c

259 r enables the electrodes to be hot embossed, molded, templated, and/or cut with a CO2 laser into a va

260 Such devices can be made using injection-molded templates to create plasmonic films.

261 cus on Exserohilum rostratum, a dematiaceous mold that caused 753 infections during a multistate outb

262 es and causes a plant disease known as white mold that produces significant yield losses in major cro

263 nting to produce realistic artificial flower molds that were color matched and cast using scent-free

264 NA-encoding regions of culturable yeasts and molds that were recovered using mycological culture, whi

265 S and its induced convective effects, we can mold the heat flow robustly with continuously changing a

266 define the basic inflammatory machinery that mold the inflammatory tissue microenvironment.

267 ls distinct and dynamic mutational processes molding the cancer genome in esophageal adenocarcinoma c

268 essive mechanical flexibility, which allowed molding the crystals into alphabetical characters to spe

269 hapes genomes and is a prime candidate force molding the evolution of lifespan and the distribution o

270 alterations (CNAs) play an important role in molding the genomes of breast cancers and have been show

271 Yet evidence on how training molds the adult human brain remains controversial, as fM

272 We suggest that in all cellular slime molds the existence of loners could resolve the apparent

273 Fis binding both molds the minor groove to potentiate insertion of the Xi

274 We describe the design of the master mold, the production of the microfluidic chip and live i

275 Devices are fabricated using injection molding, the batchwise fabrication time is <2 min per de

276 mpatible fiber was quickly fabricated by the molding, the readout approach was facile and practical,

277 for utilization of ligand-binding energy to mold these catalysts into stiff and active forms.

278 eveloped a cytocompatible casting process to mold these hydrogels into specific 3D configurations, ge

279 out the genome is not random, but mechanisms molding this landscape remain poorly understood.

280 (3), and porosity of 93%) were employed as a mold to produce curcumin nanoparticles with the help of

281 The process utilizes a stretchable mold to produce the desired periodic structure in a phot

282 inding was associated with time of exposure, mold to yeast conversion, and mammalian temperature.

283 ated with its virulence, the transition from mold to yeast-like cells might be important for fungal p

284 known regarding the potential for 3D printed molds to leak components into the PDMS that would, in tu

285 omponents into PDMS, and compared 3D printed molds to their more conventional SU-8 counterparts.

286 we have developed an in vitro model whereby molded tubular channels inside a synthetic hydrogel are

287 BMD for antifungal susceptibility testing of molds under specific circumstances, including testing wi

288 inspector-verified water damage and visible mold versus the settled dust of homes with no history of

289 A 2-piece mold was designed and produced in a 3D printer.

290 A 3D printed mold was fabricated that could house 6 multiwall carbon

291 However, suspected mold was not found at her grandmother's house, and a pro

292 els of glycerol and processed by compression molding, was examined over a period of 90days.

293 Surprisingly, when we break the mold, we are often rewarded for it.

294 For the other four organ groups, shell molds were prepared by FDM and cast with silica gel to s

295 ncluding aluminum smelting, lead, birds, and mold, were independently associated with ILA.

296 , such as silicon, from a reusable polymeric mold, which can be manufactured by almost any existing m

297 We accomplish this using an elastomeric mold with two different sets of embedded microfluidic ch

298 h IMIs shows a shift towards non-Aspergillus molds with a significantly increased proportion of rare

299 red multiple 15 x 15 mm ECT geometries using molds with rectangular internal staggered posts (mesh, M

300 ombination of eight primer pairs to identify mold within a single PCR run.