ライフサイエンスコーパス: human body

1 edge of the diverse cell types in and on the human body.

2 of detecting pathological changes inside the human body.

3 lays a multifaceted role in all cells of the human body.

4 h antioxidant and stimulatory effects in the human body.

5 ngineer flexible sensors that conform to the human body.

6 125 cells), out of ~37 trillion cells in the human body.

7 a small molecule ubiquitously present in the human body.

8 ing a covert communication channel, i.e. the human body.

9 r chaperone that is expressed throughout the human body.

10 ects a variety of different sites within the human body.

11 component of the extracellular matrix in the human body.

12 sue and plays essential roles throughout the human body.

13 the hardest and most resilient tissue in the human body.

14 are among the longest-lived proteins in the human body.

15 erating in natural environments and near the human body.

16 n evade repression and retrotranspose in the human body.

17 iomarker that mirrors alterations within the human body.

18 ryotes, especially those associated with the human body.

19 ereby enabling seamless integration with the human body.

20 borative effort to map all cell types of the human body.

21 fe microorganisms that naturally inhabit the human body.

22 d alter the delicate hormonal balance of the human body.

23 istribution and utilization of lipids in the human body.

24 to play important physiological roles in the human body.

25 as9 genome-editing system to target cells in human body.

26 icking and absorption of dietary fats in the human body.

27 roduced in the gastrointestinal tract of the human body.

28 yotes and detect a wide array of cues in the human body.

29 y roles it plays allows us to understand the human body.

30 elivery to the majority of organs within the human body.

31 60 per cent of the total amino acids in the human body.

32 anging from laboratories to vineyards to the human body.

33 anging from transportation structures to the human body.

34 entally one of the most unique organs in the human body.

35 heating the immediate environment around the human body.

36 volves across the complex environment of the human body.

37 es to pinpoint their spatial location in the human body.

38 ng DNA and that constitute most cells in the human body.

39 heating the immediate environment around the human body.

40 undant extracellular matrix component in the human body.

41 l for collagen cross-linking purposes in the human body.

42 ulation of mutations in cells of the healthy human body.

43 o constantly monitor the movement signals of human body.

44 far reflected the interactive nature of the human body.

45 es) found on various surfaces, including the human body.

46 te that offers a proxy calorie value for the human body.

47 any physiological activities of cells in the human body.

48 microbiome to have a systemic effect on the human body.

49 tinct subpopulations that coexist within the human body.

50 establish novel in vitro organ models of the human body.

51 lence of some beneficial microbes within the human body.

52 the deposition of the hardest tissue in the human body.

53 nd disposal of calcium and phosphorus in the human body.

54 trace mineral that plays a vital role in the human body.

55 nction and potential consequences within the human body.

56 carce in the environment and is rarer in the human body.

57 As that cannot be readily synthesized by the human body.

58 es for achieving a remote control within the human body.

59 H significantly causes different diseases in human body.

60 te the DNA of micro-organisms inhabiting the human body.

61 tute the largest group of macrophages in the human body.

62 ts the development of multiple organs in the human body.

63 ersity of microbial life which colonizes the human body.

64 nticancer drugs with high adverse effects in human body.

65 is the largest metabolic organ system in the human body.

66 al for maintaining energy homeostasis in the human body.

67 idase could yield free systemic quercetin in human body.

68 lar composition of tissue samples across the human body.

69 all size and untethered operation inside the human body.

70 typically leads to various disorders in the human body.

71 the variety of species living in and on the human body.

72 he antimicrobial resistance potential in the human body.

73 y 100 trillion microbes from the rest of the human body.

74 th other biological molecules present in the human body.

75 lammatory, and anti-microbial effects in the human body.

76 processing center and the most vital part of human body.

77 ily diverse ecological niches, including the human body.

78 the most abundant redox-active metal in the human body.

79 uate the immune landscape across the healthy human body.

80 bt the most important metabolic organ of the human body.

81 th element, which is normally not present in human body.

82 rimary cells from different locations in the human body.

83 ing endogenous receptor forms present in the human body.

84 re is particularly relevant to protection of human bodies.

85 Is normal myocilin unimportant in the human body?

86 rics offer a valuable service to augment the human body?

87 The human body absorbs and loses heat largely through infrar

88 n in heterogeneous cell populations from the human body across a range of environmental and physiolog

89 d to the accumulation of TCs residues in the human body, affecting human health seriously.

90 cells of the immune system that protect the human body against bacteria, viruses, and other foreign

91 ace is detectable up to <0.15 m, whereas the human body alone leaks only up to ~0.01 m, compared to >

92 nd data-acquisition systems to tailor to the human body, along with more intuitive, real-time visuali

93 metabolically most active structures in the human body and are almost always affected to some degree

94 Blood circulates throughout the human body and contains molecules drawn from virtually e

95 platforms that can comfortably comply to the human body and efficiently sample fluids such as sweat,

96 Microbiome profiles in the human body and environment niches have become publicly a

97 to directly analyze microbial communities in human body and environment.

98 se toxicants have detrimental effects on the human body and eventually bring about mutagenicity and c

99 considered an additional major organ of the human body and exerts profound immunomodulating activiti

100 The liver is the largest gland in the human body and functions as an innate immune organ.

101 n J2 (15d-PGJ2) is naturally produced in the human body and has anti-inflammatory properties.

102 nce and degradation, PFOS is accumulative in human body and has potential threat to human health.

103 iety of chemical constituents present in the human body and holds great promise for personalized heal

104 nation of KI in different media, such as the human body and in biological liquids, such as saliva or

105 he largest metabolically active organ in the human body and is consistently exposed to nutrient fluxe

106 lar oxygen is the most used substrate in the human body and is required for several hundred diverse b

107 energy from renewable energy sources on the human body and its surroundings.

108 ogical environment equivalent to that of the human body and monitored the exchange kinetics with vari

109 ries are mostly associated to systems of the human body and only poorly reflect biological responses

110 The skin is the largest organ in the human body and provides the first line of defence agains

111 o mankind as it causes insulin resistance in human body and Retinol Binding Protein 4 (RBP4) is curre

112 pH regulation in the human body and state-of-the-art pH sensors (from ex vivo

113 Tooth enamel is the hardest tissue in the human body and survives burial exceptionally well, even

114 Antimony, which has damaging effects on the human body and the ecosystem, can be released into soils

115 the sensation of the interaction between the human body and the environment and help humans to descri

116 represents the largest interface between the human body and the external environment.

117 nities adapt, develop, and interact with the human body and the surrounding environment, one of the f

118 examining the existence of microbiota in the human body and understanding its role in various disease

119 are found on most non-dividing cells in the human body and, when faulty, cause a wide range of patho

120 detection of accessible biomarkers from the human body, and allows for the collection of large-scale

121 patibility to allow their integration with a human body, and even to mimic the self-healing behavior

122 The liver is a central organ in the human body, and first line of defense between host and e

123 a very auspicious method to investigate the human body, and that nowadays the most promising clinica

124 ities of microbes in various habitats in the human body, and the necessity of these microbes for the

125 ic properties of biological materials in the human body are known to provide electric fields by press

126 ately interface with the soft tissues of the human body are of growing interest, due to their emergin

127 positive effects of seaweed dietary fibre on human body are related to their prebiotic activity over

128 d that a majority of the microbes within the human body are the obligate anaerobes, Clostridium spp.,

129 ues for measuring muscle-tendon loads in the human body are too invasive for use in gait analysis.

130 To detect various stimuli of the human body, as well as specific environments, unique ele

131 ble entry routes of these particles into the human body, as well as their uptake mechanisms at the ce

132 itric oxide and hydrogen sulfide, within the human body began a new concept in cellular signaling.

133 sease biomarkers concentrations found in the human body, being adequate as an alternative method to d

134 le nonnatural deposition and manipulation of human bodies, body portions, and skeletal elements of at

135 s of long-chain PFAAs substantially increase human body burdens, which remain elevated for many years

136 ace in all biological systems, including the human body, but this interaction is especially complex i

137 e the most abundant biological entity in the human body, but until recently the role that phages play

138 sequently, phytanic acid is carried into the human body by means of food ingestion, mostly via red me

139 Ch), one of the key neurotransmitters in the human body, by the enzyme acetylcholinesterase (AChE) is

140 n of a double piezoelectric layer inside the human body can, in the future, provide a high resolution

141 The human body carries vast communities of microbes that pro

142 Among the least renewable cells in the human body, CMs renew approximately 1% annually.

143 this article, we present Electro-Quasistatic Human Body Communication (EQS-HBC), a method for localiz

144 s a medium for low-loss transmission, termed human body communication (HBC), enabling energy-efficien

145 erly measure the parameters in the ranges of human body conditions (conductivity = 0.0265 S/m - 1.027

146 Nearly every cell in the human body contains a set of programmable gene-silencing

147 l organs can estimate the time of death as a human body decays.

148 l role in numerous environments, notably the human body during infection.

149 operties of the softest tissues found in the human body (e.g. brain and lung).

150 extent by the elimination of PBDEs from the human body, e.g., differences in biotransformation poten

151 The human body emits a wide range of chemicals, including CO

152 TTN, the largest gene in the human body, encodes TTN (titin), a protein that plays ke

153 al DNA (cfmtDNA) is detectable in almost all human body fluids and has been associated with the onset

154 ensitive determination of antidepressants in human body fluids because of the present scenario of ris

155 roteins on individual exosomes, derived from human body fluids or cell culture media.

156 B. bacteriovorus predation needs to work in human body fluids such as serum where predation dynamics

157 Among human body fluids, serum plays a key role for diagnostic

158 ation of detectable Zika virus (ZIKV) RNA in human body fluids, we prospectively assessed a cohort of

159 actor for early and efficient diagnosis from human body fluids.

160 asively and unobtrusively integrate with the human body for continuous monitoring and early detection

161 orld population and remains quiescent in the human body for decades.

162 and plays a critical role in protecting the human body from infections.

163 of antigen-specific receptors to protect the human body from pathogens.

164 ngiogenesis plays a critical role within the human body, from the early stages of life (i.e., embryon

165 The human body generates a diverse set of high affinity anti

166 es between metagenomics samples from various human body habitats, Nubeam recapitulates findings made

167 The first rudimentary evidence that the human body harbors a microbiota hinted at the complexity

168 Every cell in the human body has a unique set of somatic mutations, but it

169 nd subsequently control their release in the human body has long been a dream.

170 es; however, the production of chitin by the human body has not yet been documented.

171 is study aimed to assess the effect that the human body has on the functional activities of VRC01 as

172 Each of the trillions of cells that form the human body has the ability to detect and respond to a wi

173 icity concerns of nanoparticles on animal or human bodies have led to the design of iron oxide core n

174 functions of odorant receptors (ORs) in the human body have aroused much interest in the past decade

175 The human body hosts more microbial organisms than human cel

176 ntages in bioelectrical interfacing with the human body, (iii) the recent progress in hydrogel develo

177 ising alternative to probe biomarkers in the human body in a simpler method compared to conventional

178 otopic signatures of water-metabolism in the human body in response to the individual's water intake

179 where we now can generate most cells of the human body in the laboratory.

180 ed into presumably all the cell types of the human body in vitro.

181 iota (the microorganisms associated with the human body) in shaping inflammatory environments and pro

182 f the microbial communities that inhabit the human body-in particular, those of the nose, mouth, and

183 Bioelectronic interfacing with the human body including electrical stimulation and recordin

184 Many processes in the human body - including brain function - are regulated ov

185 tal biophysical and biochemical signals from human bodies, including skin temperatures, electrocardio

186 eradicate the multiple HIV reservoirs in the human body, including astrocytes in the human brain.

187 coupled receptor, is widely expressed in the human body, including in the gastrointestinal tract, pla

188 not only the most critical processes in the human body, including neuronal communication and sensory

189 a wide variety of functions in the cell and human body, including structural, mechanical, biochemica

190 ted mucus gel lines all wet epithelia in the human body, including the eyes, lungs, and gastrointesti

191 nisms constitutively colonize throughout the human body, including the oral cavity, the skin, and the

192 mation about their final localization in the human body, including the proteins actively secreted to

193 elds in the kilohertz frequency range in the human body induces electric fields powerful enough to ca

194 devices used to monitor the environment, the human body, industrial equipment, and beyond.

195 akage due to the on-body EQS-HBC transmitter-human body interface is detectable up to <0.15 m, wherea

196 ers, distance variance as well as near-field human-body interference.

197 The human body is an ecosystem that is home to a complex arr

198 The human body is colonized by a diverse community of microo

199 The human body is colonized by the microbial cells that are

200 fraction of the glycerophospholipids in the human body is composed of plasmalogens, particularly in

201 adation of the extracellular matrices in the human body is controlled by matrix metalloproteinases (M

202 stic understanding of metal transport in the human body is critical to anticipate the side effects of

203 rogeneity of skin characteristics across the human body is enormous.

204 The human body is exposed to potentially pathogenic microorg

205 KGROUNDUnderstanding HIV dynamics across the human body is important for cure efforts.

206 The human body is in constant motion, from every breath that

207 ine obtained via the diet and present in the human body is incorporated into larger metabolites, incl

208 nsive reference map of all cell types in the human body is necessary for improving our understanding

209 portance of knowing creatinine levels in the human body is related to the possible association with r

210 emicals will affect each other's fate in the human body is still in its infancy.

211 ium tuberculosis (Mtb), but most iron in the human body is stored in heme within hemoglobin.

212 showing that microbial diversity within the human body is substantially broader than previously appr

213 The detection of thiamine in human body is very important to prevent various diseases

214 r, concentration of neurotransmitters in the human body is very low (nM or pM level) and it is extrem

215 Chloride, the most abundant anion in the human body, is an indispensable constituent of the myelo

216 the basic structural and functional unit in human body, is made of a large community of different ce

217 nt such as solar and radiofrequency, and the human body itself such as body heat and motion.

218 efficiency towards the critical areas of the human body like CNS, cardiac region, tumor cells, etc.

219 cross individuals and diverse tissues of the human body, many of which are not easily accessible.

220 mals, constituting between 35 and 55% of the human body mass, and up to 75% of the body mass in flyin

221 concerns that bacterial evolution within the human body may contribute to severe infection.

222 heat absorption but are too small to reflect human-body midinfrared radiation to retain heat dissipat

223 nerator have also been demonstrated, such as human body multi-position motion monitoring and an under

224 intimate contact between electronics and the human body necessitates the development of stretchable e

225 -study meta-analysis of metagenomes from two human body niches, the mouth and gut, covering 3,655 sam

226 Z, identifying glomeruli that may respond to human body odours or carbon dioxide.

227 ulin tracer perfused through the multi-organ human-body-on-chips.

228 rred either prior to the colonization of the human body or involved bacteria residing in different bo

229 inositol (GPI) play various key roles in the human body, particularly in development and neurogenesis

230 We also built a new ontology, Tree of Human Body Parts (THBP), from core anatomical parts by r

231 elationships between anatomical entities and human body parts are crucial for building medical text m

232 ng or new experimental procedures on virtual human body parts, which are generated and visualised thr

233 Once they enter the human body, PEs, BPA, PBs, and OPs are metabolized and/o

234 hat the community of organisms in and on the human body plays in cancer onset, development, detection

235 In this context, the human body, primarily due to its high water content, has

236 tural response to a stressful situation, the human body produces cortisol.

237 lene (nanoPE) is transparent to mid-infrared human body radiation but opaque to visible light because

238 atalyze many vital reaction processes in the human body related to biodegradation and biosynthesis.

239 experience the selective environment of the human body, rendering possible viral adaptation and refi

240 Human body responses are manifested through multiple, in

241 T-lymphocytes in the human body routinely undergo large deformations, both pa

242 These results illustrate the human body's capacity to adapt to tendon pathology and p

243 nd abundant microbial communities within the human body, second to the community that resides in the

244 a recent evolutionary origin of fully modern human body shape.

245 primary cells reveals that most cells in the human body share a few broad transcriptional programs, w

246 ng element to capture oxygen-radicals in the human body, showing an "anti-aging" effect in high-volta

247 Making replacements for the human body similar to natural tissue offers significant

248 of this phylum have been detected in various human body sites at high prevalence.

249 enomes of microbiota isolated from six major human body sites by the NIH Human Microbiome Project.

250 that covariation of bacterial clades within human body sites increases with phylogenetic relatedness

251 l strain populations (e.g., across different human body sites).

252 ) that differ from those isolated from other human body sites.

253 ing clades that may have adapted to distinct human body sites.

254 strong natural selection on genes related to human body size.

255 ments within translucent media including the human body, subsurface monitoring of chemical or catalyt

256 stuff and an inhibitor of key enzymes of the human body such as those involved in the cholinergic sys

257 sed of components that are non-native to the human body, such as aluminum salt, bacterial lipids, or

258 hen addressing the needs associated with the human body, such as the detection of mechanical function

259 hree-dimensional physiological conditions in human body, such as three-dimensional (3D) architecture,

260 However, Ti-based implants in human body suffer surface degradation (corrosion and wea

261 The human body supports a thriving diversity of microbes whi

262 The control of the human body sway by the central nervous system, muscles,

263 ained from in vitro kinetics drug release at human body temperature (37 degrees C) and hyperthermic t

264 C and fully recovered its original shape at human body temperature (37 degrees C), which indicated t

265 cal and computational analyses, we show that human body temperature promotes unfolding of the central

266 equence and structure specific, sensitive to human body temperature, and manipulatable with small mol

267 epresents a pathogen strictly adapted to the human body temperature, B. bronchiseptica causes infecti

268 thermal signature in the range equivalent to human body temperature.

269 r conditions and condensation is enhanced at human body temperatures (33 degrees C and 37 degrees C)

270 the most rapidly regenerating tissue in the human body thanks to a pool of intestinal stem cells (IS

271 otide (NADH) is an important coenzyme in the human body that participates in many metabolic reactions

272 ave uncovered a novel role for phages in the human body - the ability to modulate the physiology of t

273 llection of microbes that live in and on the human body - the human microbiome - can impact on cancer

274 As the most complex organ of the human body, the brain is composed of diverse regions, ea

275 y be related to the circadian biology of the human body, the microbial community itself, or human eat

276 an important determinant of Fe adsorption in human body, the solubility characteristics of FePP are c

277 However, in the human body there are also present redox-active metals su

278 e backbone for information exchange around a human body, thereby enabling prime applications in the f

279 on soft and highly deformable tissues of the human body, these devices also need to be mechanically f

280 l techniques reduce the complicated shape of human bodies to a series of simple size measurements and

281 generated by the electrical activity in the human body to be imaged in real time.

282 Dendritic cells "patrol" the human body to detect pathogens.

283 ucts which are reflective of exposure of the human body to DNA-damaging molecules and their metabolic

284 s are the main cytotoxic killer cells of the human body to eliminate pathogen-infected or tumorigenic

285 s are the main cytotoxic killer cells of the human body to eliminate pathogen-infected or tumorigenic

286 ing in and around a lossy medium such as the human body to gain a trade-off among power consumption,

287 ecognize harmful stimuli and can empower the human body to react appropriately and perceive precisely

288 s already present in active molecules of the human body, toxicity is not a significant limitation.

289 ery of CRISPR therapeutics directly into the human body using adeno-associated virus (AAV) vectors.

290 ' and movement of bacterial genes within the human body via hitherto poorly understood mechanisms.

291 cies (RCS) that is produced naturally in the human body via metabolic and epigenetic biochemical proc

292 mpacts of smoking on genetic architecture of human body weight, we conducted a genome-wide associatio

293 pistasis, and gene-ethnicity interactions on human body weight.

294 wing a user to identify target organs in the human body where a substance is estimated to be more lik

295 ysical isolation of the electronics from the human body while enabling efficient bio-fluid delivery t

296 tegrated with the curvilinear surface of the human body, while mechanically adapting to the natural s

297 y interacting dynamical networks-such as the human body with its biological networks or the global ec

298 n-skin electronics, which can passively cool human bodies without needing any energy consumption.

299 skin to manipulate a solid object within the human body would be beneficial.

300 oral neck is a key structural element of the human body, yet there is not a reliable metric for predi