ライフサイエンスコーパス: biogenic

1 O(3) precipitation; challenge the maxim that biogenic activity necessarily degrades surfaces; locate

2 ointing to fires as major sources of primary biogenic aerosol particles in which lignin phenols occur

3 ur results prompt a better representation of biogenic aerosol sources in Arctic climate models.

4 the synthesis of AuNPs using a multitude of biogenic agents.

5 Biogenic alkenes, which are among the most abundant vola

6 is study aimed to assess lipid oxidation and biogenic amine (BA) development in "muxama", a dry-cured

7 During ripening, biogenic amine and free amino acid content, microbiologi

8 d amino acid profile of the wines, while the biogenic amine composition was not modified.

9 ges in their microbiological quality, TVB-N, biogenic amine content, fatty acid composition and TBARS

10 n of the wines just as on the amino acid and biogenic amine content.

11 udy, a model to assess fish quality based on biogenic amine contents using fuzzy logic model (FLM) is

12 ood spoilage, thus, an on-package sensor for biogenic amine detection is crucial for food quality con

13 no differences in microbiological growth or biogenic amine formation were observed.

14 Tyramine (TYR) is a vasoactive biogenic amine found in food products due to improper st

15 ed similar functional profiles for mammalian biogenic amine G protein-coupled receptor agonists and a

16 The histamine concentration and the biogenic amine index increased up to 45.2 +/- 1.62 mg kg

17 activated by amphetamines, trace amines, and biogenic amine metabolites.

18 Biogenic amine neurotransmitters play a central role in

19 d RNAi assays indicate that males likely use biogenic amine neurotransmitters through the nervous sys

20 Neuromodulators, particularly the small biogenic amine neurotransmitters, have the ability to ra

21 We propose that foraging experiences act on biogenic amine pathways to induce enduring changes to st

22 Disruptions of biogenic amine signaling contribute to human neurologica

23 Our results illuminate a new role for biogenic amine signaling in regulating chemosensory vale

24 Biogenic amine signaling regulates CO(2) response valenc

25 r and neural pathways through which parallel biogenic amine signaling tunes behavior appropriately to

26 from aversion to attraction is regulated by biogenic amine signaling.

27 or D4 against not only D1-3,5 but also other biogenic amine targets have emerged, and D4 is once agai

28 Histamine (HA) is a biogenic amine that can accumulate to high concentration

29 The biogenic amine tyramine (TA) regulates many aspects of i

30 intestinal UPR(ER) activation, including the biogenic amine tyramine.

31 Total biogenic-amine concentration at the end of the fermentat

32 tly (than at 31 degrees C) reduced the total biogenic-amine content as compared to the control sample

33 A new approach for biogenic amines (BA) determination in fermented beverage

34 Tyramine and histamine are the biogenic amines (BA) most commonly found at high concent

35 beta-phenylethylamine and tryptamine are biogenic amines (BA) often found in foods.

36 roalcoholic solutions containing eight toxic biogenic amines (BA) usually found in fermented beverage

37 for the extraction and determination of six biogenic amines (BAs) by NMR is presented.

38 tisation for HPLC-UV determination of twelve biogenic amines (BAs) in wines is proposed for the first

39 Histamine, one of the most important biogenic amines (BAs) is considered as food hazard and t

40 the concentrations of amino acids (glycine), biogenic amines (sarcosine), acylcarnitines and phosphol

41 Only two biogenic amines (tryptamine and tyramine) and two polyam

42 Biogenic amines also regulate the temporal dynamics of t

43 anthocyanidins and methylxanthines, but also biogenic amines and alkaloids.

44 optimized UHPLC-FD method, determining their biogenic amines and amino acids profile.

45 acids and derivatives, 17 organic acids, 22 biogenic amines and derivatives, 40 acylcarnitines, 34 l

46 CxD7L2 binds biogenic amines and eicosanoids.

47 Low contents of biogenic amines and mycotoxins confirmed celery quality

48 I then discuss the influence of several biogenic amines and neuropeptides on aggressive behavior

49 sed sensor was further tested with different biogenic amines and ratiometric response was obtained fo

50 pacity; ii) high contents of spermine, total biogenic amines and total polyamines; and iii) the highe

51 Biogenic amines are conserved signaling molecules that l

52 mary roles are in cell-to-cell signaling, as biogenic amines are not normally recruited for communica

53 Biogenic amines are the important markers for food spoil

54 gs link luminal conversion of amino acids to biogenic amines by gut microbes and probiotic-mediated s

55 A further 33 biogenic amines can be monitored in samples for relative

56 i-parameter approach: the trimethylamine and biogenic amines concentration changes were compared with

57 Total biogenic amines content ranged from 88.86 to 796.68mgkg(

58 , the intestinal concentrations of SCFAs and biogenic amines decreased with the dietary protein reduc

59 tanding the molecular pathways through which biogenic amines function in model organisms may improve

60 ied for determination of the above mentioned biogenic amines in beverages, and permitted an undemandi

61 to evaluate concentrations and evolution of biogenic amines in Canadian pork destined for the Japane

62 Biogenic amines in Canadian pork for the chilled export

63 as led to a new approach in the detection of biogenic amines in complex matrices.

64 as successfully applied for the detection of biogenic amines in pork samples with satisfactory result

65 nce one-shot biosensors for determination of biogenic amines is described and compared with high-perf

66 How the action of biogenic amines might couple sensory modalities to each

67 In the nematode Caenorhabditis elegans, the biogenic amines serotonin (5-HT) and octopamine regulate

68 The symporters for the biogenic amines serotonin (SERT), dopamine (DAT), and no

69 this study, we investigated the roles of the biogenic amines serotonin and octopamine in regulating l

70 sts were observed, including that vertebrate biogenic amines structurally related to octopamine acted

71 ardinella sp.) where the production of eight biogenic amines was monitored over fifteen days of stora

72 No biogenic amines were detected in the 300MPa treatments,

73 nion or caraway on changes in the content of biogenic amines were examined in sauerkraut during a fer

74 Individual biogenic amines were not correlated with their precursor

75 inks, and by discriminating between multiple biogenic amines with remote structural differences six c

76 ered range from polar (e.g., amino acids and biogenic amines) to nonpolar (e.g., diacyl- and triacyl-

77 C method for simultaneously quantifying nine biogenic amines, 21 amino acids, and ammonium ions, in b

78 has a median of 10% for amino acids, 24% for biogenic amines, 38% for acylcarnitines, 25% for glycero

79 ectrometry, and133 metabolites (amino acids, biogenic amines, acylcarnitines and lipids) were analyze

80 ctrometry, and 133 metabolites (amino acids, biogenic amines, acylcarnitines, and lipids) were analyz

81 tified metabolites, including sphingolipids, biogenic amines, amino acids and urea.

82 Various metabolites including biogenic amines, amino acids, lipids, were significantly

83 ranged between 0.03mg/L and 0.63mg/L for the biogenic amines, and 0.05mg/L and 5.19mg/L for other com

84 to which the transformation of nucleotides, biogenic amines, and microbiological changes affect the

85 and release cargoes including neuropeptides, biogenic amines, and peptide hormones.

86 otal volatile base nitrogen (TVBN), K-value, biogenic amines, color, and texture.

87 sicochemical and microbiological parameters, biogenic amines, fatty acids and texture profiles and se

88 Neuromodulators, including biogenic amines, neuropeptides, and hormones, are releas

89 Biogenic amines, such as like serotonin, are conserved n

90 ilst the second encompasses ethyl carbamate, biogenic amines, sulfur dioxide and proteins used as tec

91 has been broadly attributed to the action of biogenic amines, which modulate behaviors such as olfact

92 ned by food depletion nor is it modulated by biogenic amines, which suggest it is not an aversive beh

93 this small molecule one of the most studied biogenic amines.

94 modulated by pharmacological manipulation of biogenic amines.

95 e presence of many of the common interfering biogenic amines.

96 or screening and quantitative determining of biogenic amines.

97 MS substrate for sensitive quantification of biogenic amines.

98 atments in the vineyard, or ochratoxin A and biogenic amines.

99 tinental air was likely attributable to both biogenic and anthropogenic precursors.

100 s expected to be broadly applicable to other biogenic and anthropogenic SOA systems analyzed via (-)

101 include BrC primarily consider sources from biogenic and biomass combustion.

102 of Delta(14)C and CO(2) can cleanly separate biogenic and fossil contributions to CO(2) enhancements

103 However, there are several biogenic and geogenic materials in natural waters that i

104 ndicate most of the methane in the wells was biogenic and produced by the CO2 reduction pathway, not

105 tically ~1.5 per mille greater than those in biogenic and synthetic calcite traditionally considered

106 The band gap was similar for biogenic and synthetic colloids of similar size, but dec

107 Biogenic and synthetic hydroxyapatites are confounding m

108 d thermogravimetric analysis) for a range of biogenic and synthetic hydroxyapatites with a wide range

109 luenced by traditional emissions (vehicular, biogenic), and nontraditional emissions (e.g., paint fum

110 This biogenic-anthropogenic coupling expands the daily high-o

111 n which anthropogenic sulfate could regulate biogenic aqSOA formation, ways not presently included in

112 Nacre, a composite made from biogenic aragonite and proteins, exhibits excellent stre

113 be likely and that further understanding of biogenic arsine evolution and degradation are required t

114 agonite pseudohexagonal prisms, synthetic or biogenic, as observed here.

115 We then analyzed the biogenic block-shaped crystals in their solid state, usi

116 orphology, and nanomechanical properties for biogenic CaCO(3) produced by two Escherichia coli (E. co

117 uction in carbonate ion availability impairs biogenic calcification and promotes dissolution of carbo

118 al roles of a ubiquitous structural motif in biogenic calcite, their nanoscopic intracrystalline defe

119 idate the origin of the superior hardness of biogenic calcite.

120 ubtle disequilibria also affect Delta(47) in biogenic calcite.

121 dominant group of zooplankton, have affected biogenic carbon cycling.

122 We present the first coupled records of biogenic carbonate clumped isotope paleothermometry and

123 Therefore, among marine biogenic carbonate fossils, well-preserved acroporid ske

124 rbon fluxes at the seafloor resulting in low biogenic carbonate preservation.

125 effects due to ocean acidification hindering biogenic carbonate production, which will in turn lead t

126 s temperatures and mercury concentrations of biogenic carbonate.

127 determined apparent theta values for marine biogenic carbonates, where the foraminifera Globorotalia

128 ur biochemical vocabulary is to recapitulate biogenic catalysis using non-natural sequences that did

129 With the biogenic CH4 emissions omitted, the top-down estimates a

130 ion to the CH4 budget in addition to recent, biogenic CH4 is uncertain.

131 ote sensing and machine learning to quantify biogenic CO(2) emissions between 2006 and 2012, across 1

132 Biogenic CO(2) emissions in cities are shaped by urban l

133 ty-wide energy use for travel and buildings, biogenic CO(2) emissions were a small proportion in the

134 Net biogenic CO(2) emissions were negative (carbon sink) in

135 r(-1)), indicating that the latter dominates biogenic CO(2) emissions.

136 lands are chosen from the SCS approach, and biogenic CO(2) in biorefineries is captured, transported

137 The biogenic CO(2) is composed of sources such as biofuel co

138 e of reliable methods to separate fossil and biogenic CO(2).

139 rs to assess the global warming potential of biogenic CO2 (GWPbio).

140 Biogenic colloids, products of the manganese oxidase, Mn

141 Tyramine is a biogenic compound derived from the decarboxylation of th

142 ized HOM formed during the ozonolysis of two biogenic compounds (alpha-pinene and limonene), under di

143 ive INPs are associated with bioaerosols and biogenic compounds, there is still little quantitative i

144 and often originating from the oxidation of biogenic compounds.

145 th possible but limited anthropogenic and/or biogenic contributions.

146 s (Arabidopsis thaliana) seedlings, exerting biogenic control of chloroplast functions.

147 ement of fungal proteins in the formation of biogenic copper carbonate nanoparticles (CuNPs) using a

148 content, reaching values equivalent to their biogenic counterparts.

149 iate species of fungi for the application of biogenic crack repair.

150 of TFA from the atmosphere by reaction with biogenic Criegee intermediates.

151 can harness the size and shape of functional biogenic crystals such as peptide-based metal-organic fr

152 the powder X-ray diffraction pattern of the biogenic crystals.

153 th mass spectrometry analysis confirmed that biogenic cyanide oxidized Au NPs to soluble Au(CN)(2)(-)

154 Biogenic dimethylsulfide (DMS) is a significant contribu

155 ficial topography contain elevated levels of biogenic elements and heavy metals, including C (and org

156 dentify future research priorities exploring biogenic emissions and drivers, ecological interactions,

157 al organic compounds (HOMs) originating from biogenic emissions constitute a widespread source of org

158 seasonal cycle may be linked with increasing biogenic emissions in the Arctic, following the growing

159 els to assess contributions of vehicular and biogenic emissions to our observed SOA.

160 Interactions between anthropogenic and biogenic emissions, and implications for aerosol product

161 These peaks are 13 times larger than typical biogenic emissions.

162 rosol due to wildfires and no clear trend in biogenic emissions.

163 model was developed using anthropogenic and biogenic end members and fractionation scenarios to esti

164 sing the Shewanella exudate only, containing biogenic Fe(II), displayed rates of transformation that

165 In this research, we have shown that biogenic ferrihydrite nanoparticles are extensively form

166 ne the in situ transformation of OM-bearing, biogenic ferrihydrite stalks (Gallionella ferruginea-lik

167 ts of "magnetogenetic" ion channels based on biogenic ferritin nanoparticles have been questioned bec

168 s mineralogy and vice versa; and reveal that biogenic formation of moonmilk can occur rapidly, that i

169 e from each source is crucial for separating biogenic, fossil fuel and pyrogenic emissions in bottom-

170 hotolysis is a major removal pathway for the biogenic gas dimethylsulfide (DMS) in the surface ocean.

171 sions) approaches to quantify the global net biogenic greenhouse gas balance between 1981 and 2010 re

172 nd waste management have altered terrestrial biogenic greenhouse gas fluxes, and the resulting increa

173 Calcifying coralline macroalgae provide biogenic habitats colonised by epiphytic microalgae that

174 aring conditions inside versus outside these biogenic habitats.

175 The discovery of biogenic high-magnesium calcite in the relatively well-s

176 c acid in 94 % yield despite the presence of biogenic impurities.

177 ld's coalbed natural gas plays are secondary biogenic in origin, suggesting a potential for gas regen

178 little quantitative insight into the Arctic biogenic INPs and bioaerosols.

179 concentrations of bioaerosols, bacteria, and biogenic INPs at the Villum Research Station (VRS, Stati

180 es have not been exploited for anthropogenic-biogenic interaction studies until now.

181 About 90% of the lithogenic and biogenic iron ingested by krill is passed into their fec

182 e of pyrotechnology was a key feature of how biogenic iron oxides were prepared into paint.

183 t during bioreduction of arsenate(V)-bearing biogenic iron(III) (oxyhydr)oxides in phosphate-containi

184 eme b could account for between 0.17-9.1% of biogenic iron.

185 lead to more active photochemistry, enhanced biogenic isoprene and fire emissions, an extension of th

186 ificant contributor is enhanced emissions of biogenic isoprene, a major ozone precursor, from water-s

187 urce in the U.S. is atmospheric oxidation of biogenic isoprene, but the corresponding HCHO yield decr

188 demonstrate that synergistic effects between biogenic ligands and a reductant (ascorbate) can occur i

189 minerals by siderophores (i.e., Fe-specific, biogenic ligands) is an important step in Fe acquisition

190 laboratory demonstration of low temperature, biogenic magnesite precipitation for carbon sequestratio

191 Biogenic magnesium carbonate mineral precipitation from

192 Bacterial magnetosomes (BMs) are a type of biogenic magnetic nanomaterials synthesized by magnetota

193 ept and a system that is proposed to rely on biogenic magnetite (Fe(3)O(4)) [2, 3].

194 ition of parameters and criteria to classify biogenic magnetite in the fossil record.

195 nic volatile Se compounds in the presence of biogenic manganese [Mn(III, IV)] oxides and oxyhydroxide

196 which is sensitive to two important volatile biogenic markers, i.e., dimethyl sulfide and histamine,

197 ructure of functional peptides that engineer biogenic materials at this heterogeneous setting can be

198 We demonstrate that biogenic methane and ethylene from terrestrial and fresh

199 he cumulative warming capacity of concurrent biogenic methane and nitrous oxide emissions is a factor

200 kill mechanisms that has been suggested is a biogenic methane burst triggered by the release of vast

201 nducted showing that considerable amounts of biogenic methane originating from shallow gas accumulati

202 While there is no doubt that biogenic methane production in the Arctic is an importan

203 ause of the geologically rapid generation of biogenic methane.

204 hich mineralized tissues grow and harden via biogenic mineral deposition, is a relatively lengthy pro

205 edback pathways controlling the evolution of biogenic mineral formation.

206 The formation of lead soaps and secondary biogenic minerals was also described.

207 The hierarchical control in biogenic minerals, from precise nanomorphology control t

208 Given their abundance in natural systems, biogenic Mn oxides likely play an important role mediati

209 Studies of biogenic Mn(II) oxidation have focused on bacteria and f

210 ns where Cr(III)-minerals are colocated with biogenic Mn(III/IV)-oxides, suggesting Cr(VI) generation

211 tain the correct structure of newly isolated biogenic molecules.

212 Norepinephrine (NE) is a key biogenic monoamine neurotransmitter involved in a wide r

213 ystem, we have shown for the first time that biogenic Mt nanoparticles formed during fungal-mineral c

214 al interactions can produce large amounts of biogenic nano-size (~ 1-100 nm) minerals, yet their infl

215 work raises new questions about the roles of biogenic nanomaterials in the coevolution of the lithosp

216 eriods and offers novel tools to investigate biogenic nanomaterials.

217 These biogenic nanoparticles formed through the fungus-hematit

218 NER are considered as a potential risk while biogenic NER from incorporation of labeled carbon into m

219 Methods to predict microbial turnover and biogenic NER have been developed, having limited use whe

220 wth can be used to estimate the formation of biogenic NER.

221 River corridor may be considered hotspots of biogenic NO(y) emissions.

222 18)O); and (4) stable but spatially variable biogenic NO3(-) concentrations, consistent with recharge

223 ersistent concentrations of blasting-related biogenic NO3(-) derived from nitrification of NH4(+) (lo

224 gated the mechanism and rate of oxidation of biogenic noncrystalline U(IV) by dissolved oxygen (DO) i

225 x transformation and implies the lability of biogenic noncrystalline U(IV) species in the subsurface

226 gate the mechanisms and dissolution rates of biogenic, noncrystalline UO(2)(s) by chemical oxidants (

227 l carbon cycle because, compared to unburned biogenic OC, it is selectively conserved in terrestrial

228 , observed in synthetic systems but never in biogenic ones.

229 lfates (R-OS(O)2OH) previously designated as biogenic or of unknown origin in field studies might hav

230 e present-day atmosphere involves ammonia or biogenic organic compounds, in addition to sulfuric acid

231 shed geochemical and isotope data indicate a biogenic origin for iron precipitation around chert gran

232 66.2 +/- 6.4 per mil, consistent with a soil biogenic origin.

233 t the conclusion that many commonly measured biogenic oxidation products may be bound in low-volatili

234 These biogenic particles need to be identified to extend our k

235 al Sec-dependent system is the major protein-biogenic pathway for protein secretion across the cytopl

236 rlds: expediency and synthetic capability of biogenic pathways and chemical diversity enabled by orga

237 contributions from collagen were observed in biogenic PDFs when compared to synthetic PDFs (namely r

238 Biogenic polyamines are small organic polycations involv

239 The biogenic polyamines, spermine (Spm) and spermidine, are

240 determination of three of the most important biogenic polyamines; spermine (SPM), spermidine (SPD) an

241 The biogenic precipitates displayed higher crystallinity for

242 ers link these frequent nucleation events to biogenic precursors released by open water and melting s

243 This finding implies that biogenic processes are more important to uranium ore gen

244 Biogenic production and release of methane (CH4 ) from t

245 s, but this cannot be easily replicated with biogenic proteins.

246 Growth yields and rates on biogenic S(0) are comparable with those previously deter

247 wild-type strain of Cba. tepidum can grow on biogenic S(0) globules as the sole photosynthetic electr

248 etry and SDS-PAGE indicate that Cba. tepidum biogenic S(0) globules contain carbon, oxygen and nitrog

249 imately 70 Myr-long record of early Mesozoic biogenic silica (BSi) flux from radiolarian chert in Jap

250 dies, suggest that global reorganizations of biogenic silica burial over the Cenozoic reduced marine

251 Biogenic silica encapsulation was used to stabilize the

252 walls, called frustules, are main sources of biogenic silica in the ocean and their intricate morphol

253 an intricately nanostructured, highly porous biogenic silica material derived from the shells of micr

254 (source of reactive aluminium) and reactive biogenic silica on or shallowly buried within the seaflo

255 hers) and an aquatic productivity indicator (biogenic silica) to evaluate the relative timing of post

256 By converting dissolved silicon into biogenic silica, and photosynthetically fixing carbon di

257 logical and ecological significance of these biogenic small molecules.

258 illion people, greatly enhance production of biogenic SOA by 60-200% on average with peak enhancement

259 ng between anthropogenic NO(x) and localized biogenic SOA from autoxidation.

260 elds of 0.01-0.03% from aqueous reactions of biogenic SOA generated by (*)OH photooxidation of isopre

261 ns in the future might substantially enhance biogenic SOA in pristine locations like the Amazon.

262 ion of photolysis causes a ~50% reduction in biogenic SOA loadings over the Amazon, indicating that p

263 al climate and determining future impacts of biogenic SOA on the global climate and air quality.

264 nated environments, will significantly alter biogenic SOA physicochemical properties.

265 were exposed to proxies of anthropogenic and biogenic SOA that were photochemically aged under varyin

266 Here, we demonstrate the potential for biogenic SOA to activate as depositional INPs in the upp

267 ontributes substantially to the formation of biogenic SOAs in the atmosphere.

268 ysis of ambient OA samples and lab-generated biogenic SOAs points to specific SOA precursors in ambie

269 y isotope content of methane points toward a biogenic source, while other studies propose a decrease

270 rogenitors made use of hydrogen sulfide from biogenic sources (e.g., decaying wood) rather than from

271 Stable isotope data suggest that biogenic sources are the cause of this emission increase

272 e organic compounds (VOCs) are released from biogenic sources in a temperature-dependent manner.

273 at emitted CO(2) derives from lithogenic and biogenic sources within the catchment and delivered by t

274 from the combustion of fossil fuels and from biogenic sources, including enteric fermentation, manure

275 )C-free) CH(4) emissions and contemporaneous biogenic sources; however, poorly constrained direct (14

276 Biogenic stalks lost approximately 30% of their initial

277 (34)S and delta(56)Fe values in: (a) tubular biogenic structures and trails (delta(34)S ~ +40 per mil

278 ich is twofold higher than any known organic biogenic structures.

279 surfaces (confirmation that this process is biogenic) that acts to preserve rather than damage the p

280 milar concentrations as economic reserved of biogenic/thermogenic deposits on Earth.

281 on of aerosol particles from highly oxidized biogenic vapours in the absence of sulfuric acid in a la

282 or night-time SOA formation in an area where biogenic VOC emissions dominate.

283 imulations indicate that the contribution of biogenic VOC emissions to ozone formation is lower in Ju

284 that although autoxidation in an archetypal biogenic VOC system becomes more competitive as NO(x) de

285 Our study demonstrates that biogenic VOCs can considerably enhance air pollution dur

286 thod, optimized toward oxidation products of biogenic VOCs, provides an enrichment factor of ~200 and

287 Nitrate radical (NO3) oxidation of biogenic volatile organic compounds (BVOC) is important

288 ribute 2.4% to the global carbon emission of biogenic volatile organic compounds (BVOCs) and can be r

289 Biogenic volatile organic compounds (BVOCs) play importa

290 r impacts on emissions and concentrations of biogenic volatile organic compounds (bVOCs) with potenti

291 nic aerosol (SOA) formed by the oxidation of biogenic volatile organic compounds (BVOCs).

292 to enhance the emissions of climate-relevant biogenic volatile organic compounds (VOCs) from boreal a

293 rs with isoprene dominating the emissions of biogenic volatile organic compounds globally.

294 Biogenic volatile organic compounds such as terpenoids e

295 d rural environments and reacts rapidly with biogenic volatile organic compounds to form secondary or

296 60%, we find that SOA produced from several biogenic volatile organic compounds undergoes photolysis

297 idden, Se cycle involving the reoxidation of biogenic volatile Se compounds in the presence of biogen

298 phasis on lipids, glycans, reactive species, biogenic volatiles, and noncoding RNA.

299 Biogenic waste materials and biomass have historically b

300 how technologies for managing and processing biogenic wastes--both established and novel--should be d