ライフサイエンスコーパス: information from @2 to

1 application was improved with the aid of CF information, from 78% to 98% on the endocardium (P<0.001

2 disease for children have not included much information from China, leading to a large gap in data.

3 accurate molecular mass and LC elution time information from the analysis to a reference database.

4 tosensory pathway that transmits temperature information from the skin to a median subregion of the p

5 systematic and effective method of combining information from multiple cells to accomplish this.

6 The proposed approach incorporates information from reliable controls to achieve a higher p

7 s for diagnostic disagreement prevented this information from being used to address identified reliab

8 ients are able to extract some useful visual information from text to aid the planning of reading sca

9 r cells convey luminance, spatial, and color information from photoreceptors to amacrine and ganglion

10 me function, allowing transfer of functional information from one member to an entire COG.

11 To better understand the flow of information from the thalamus to and through rat A1, we

12 ential role of the linkers in passing signal information from one domain to another.

13 Sequential dissemination of information from one enzyme to another facilitates signa

14 e, are built to relay the passage of genetic information from one site to another within a cell, ensu

15 Thus, the transmission of allosteric information from one subunit to another is conducted thr

16 underlying computations that transfer visual information from posterior to anterior face patches.

17 test case for the multimodal convergence of information from sensory to associative areas.

18 mmunication in the brain involving a flow of information from vessel to astrocyte to neuron, a direct

19 ns who recognize objects by extracting shape information from visual-to-auditory sensory substitution

20 lack of guidance on the use of supplementary information from the journals to authors and reviewers.

21 that films simultaneously harvest energy and information from the environment to autonomously move do

22 ades, allowing for predictive and consistent information from the past to be incorporated into each n

23 entral player in processing non-visual light information, from input to behavioral output.

24 may act as a signaling molecule that relays information from secretory granules to both cytosol and

25 bute to the reliable transmission of sensory information from nose to brain.

26 s and opportunities in extrapolating genetic information from Arabidopsis to Brassica and to more dis

27 Serological surveys provide reliable information from which to calculate forces (instantaneou

28 tion between different types of navigational information: from terrestrial to celestial cues and from

29 is involved in the transmission of polarity information from cell to cell in the Drosophila cuticle,

30 strate that LTB(4) acts as a signal to relay information from cell to cell over long distances.

31 m heterodimeric bridges that convey polarity information from cell to cell.

32 les that are secreted by cells that transmit information from cell to cell.

33 ys a central role in transmitting hereditary information from cell to cell.

34 integration, which combines warm temperature information from peripheral to central neurons and provi

35 in ions, rather than simply N- or C-terminal information from low mass-to-charge products, for protei

36 Bayesian modelling introduced here combines information from the mass-to-charge ratio, retention tim

37 We then applied information from this analysis to classify human breast

38 ion channels in the pain pathway, integrates information from extracellular milieu to control excitab

39 tributed populations of neurons and extracts information from these patterns to control specific beha

40 Thalamic relay cells transmit information from retina to cortex by firing either rapid

41 lian visual pathway and regulate the flow of information from retina to cortex.

42 The brain uses sensory information from the periphery to create percepts.

43 or evolutionary studies and for transferring information from model species to crop species has revol

44 However, the relay of information from early sensory to decision areas, such t

45 combination of bioinformatics and structural information from related proteins to deduce valuable inf

46 c models provide a powerful means to harness information from genomes to deepen biological insights.

47 plex control factors that define the flow of information from transgene to desired protein.

48 a signal is defined as the communication of information from source to destination, where it modifie

49 tory systems of birds and mammals use timing information from each ear to detect interaural time diff

50 In the cortex, target neurons integrate information from multiple glomeruli to detect distinct f

51 d behaviors involve the rapid integration of information from the environment to direct flexible moto

52 elease of neuropeptides can deliver temporal information from pacemakers to downstream neurons to exe

53 In addition, we use genomic information from several species to draw inferences abou

54 involved in visual perception or merely use information from visual regions to drive behavior.

55 aptive coding mechanisms to filter redundant information from the environment to efficiently represen

56 is that the POR relies on object and pattern information from the PER to encode representations of co

57 search and motif discovery methods and using information from each process to enhance the other.

58 We speculate that butyrate carries information from bacteria to epithelial cells.

59 th next-generation sequence data, leveraging information from the sample to estimate genotype probabi

60 ths on feedforward connections carrying face information from EVC to FFA and EVC to pSTS.

61 BG output nuclei integrate information from both pathways to fine-tune motor proced

62 a signal transduction pathway that transmits information from transmembrane receptors to flagellar mo

63 es have found that the AF not only transmits information from temporal to frontal areas, but also in

64 distinct lack of tools to adequately extract information from these images to fully characterise micr

65 ina, amacrine cells modulate the transfer of information from bipolar to ganglion cells.

66 The association of information from experiment to gene to genome requires c

67 as dominated by RNA, which can both transfer information from generation to generation through replic

68 complements to allow for the transmission of information from generation to generation.

69 dicated to reproduction and transmit genetic information from generation to generation.

70 An animal that can transfer gene-regulatory information from somatic cells to germ cells may be able

71 ion about attentional context and/or readout information from occipitotemporal cortex to guide behavi

72 the ability to flexibly apply and recombine information from past experience to guide new behavior.

73 depends on the ability to extract predictive information from the environment to guide future actions

74 The challenge is to use this information from past patients to help us better manage

75 Visual attention selects task-relevant information from scenes to help achieve behavioral goals

76 Furthermore, we use the information from this procedure to help improve a Bayesi

77 ure in the Drosophila brain that relays odor information from the antennae to higher brain centers.

78 ntennal lobe and projection neurons relaying information from this glomerulus to higher brain centers

79 this model, higher frequency signals convey information from the cortex to hippocampus during wakefu

80 We introduce a framework that uses information from different sources to identify vulnerabi

81 cit mobile phone data and malaria prevalence information from Kenya to identify the dynamics of human

82 Put together, our studies integrate information from multiple systems to identify a novel re

83 In addition we have used the sequence information from these clones to identify two ESTs as me

84 e synergies obtained by utilizing validation information from stereo visualization to improve the low

85 some methods to take into account additional information from the microarrays to improve the false di

86 Meta-analysis seeks to pool information from multiple GWAS to increase the chances o

87 This method pools together enrichment information from neighboring nucleosomes to increase sen

88 f this general paradigm but formally borrows information from other scans to increase confidence in o

89 The ability of animals to extract predictive information from the environment to inform their future

90 S, thereby establishing a base of structural information from which to interpret experiments with CVB

91 ulvinar in distractor filtering--suppressing information from competing stimuli to isolate behavioura

92 cation is required to translate DNA sequence information from each gamma to its respective motor doma

93 challenge is how to integrate them with rich information from pathway databases to jointly select rel

94 e assessed patients' clinical and laboratory information from August, 1998, to July, 2000, from three

95 ies associated with extrapolation of genomic information from facile models to large-genome taxa incl

96 synaptic plasticity and transferring memory information from the more to less plastic region.

97 Automated scripts retrieved sequence information from public databases to locate predicted OR

98 more, the professional transfer of antigenic information from migratory DC to lymph node-residing DC

99 ral integration of skylight cues with timing information from circadian clocks to maintain a constant

100 variate pattern analysis extracts sufficient information from fcMRI data to make accurate predictions

101 eotype suggests that such individuals ignore information from others, preferring to make their own ch

102 Thus, the LC-NE circuit overall integrates information from, and broadcasts to, many brain regions,

103 n each process mediating transfer of genetic information from PRPS1 transcription to maximal PRS1 iso

104 itically dependent upon a continuing flow of information from observations to measure, understand and

105 the brain dynamics that organize the flow of information from sensory to memory areas.

106 es the analysis of large datasets containing information from thousands to millions of participants.

107 heory, making it possible to extract kinetic information from nanosecond to millisecond time scales.

108 /NK3R/ERalpha neurons could mediate feedback information from the gonads to modulate pulsatile GnRH s

109 onsible for the transfer of left-right (L-R) information from early gastrulation to morphogenesis.

110 motor control: the transformations that map information from sensory to motor coordinates, the speci

111 role in controlling the transfer of genetic information from gene to mRNA.

112 ized to result from the off-line transfer of information from the hippocampus to neocortex, allowing

113 ceptors play a role in transmission of taste information from taste buds to nerves.

114 ullary raphe neurones transform and transmit information from baroreceptors to neurones in the ventra

115 e neuronal assemblies transform and transmit information from baroreceptors to neurones in the ventra

116 e modulation and transmission of nociceptive information from peripheral afferents to neurons in the

117 Finally future prospects for using all this information from model to non-model species to extend va

118 channel uses can even increase the coherent information from zero to non-zero.

119 Leveraging genomic information from sequenced to nonsequenced species shoul

120 ssociated with the Mendelian transmission of information from parents to offspring by alleles (DNA se

121 to mediate the transfer and distribution of information from the hippocampus to other areas.

122 led products; and how to translate nutrition information from medical doctors to patients.

123 Working memory allows information from transient events to persist as active n

124 cromolecular machine controlling the flow of information from genotype to phenotype, and insights int

125 example of transkingdom transfer of genetic information, from bacteria to plants.

126 ion with Soft Constraints (SPSC), which uses information from known proteins to predict secondary str

127 vity analysis indicated a flow of contextual information from the hippocampus to prefrontal cortex up

128 Consistent with the flow of information from IT to PRH, we also found that task-rele

129 nformation, capturing linkage disequilibrium information, from founders to progenies.

130 copies of themselves and transfer heritable information from parent to progeny molecules, thus provi

131 oordinated to ensure transmission of genetic information from parents to progeny.

132 bunit Mediator complex transduces regulatory information from enhancers to promoters, and performs an

133 Accurate translation of the genetic information from DNA to protein is maintained by multipl

134 Accurate flow of genetic information from DNA to protein requires faithful transl

135 biology describes the translation of genetic information from mRNA to protein, but does not specify t

136 plays a pivotal role in the flow of genetic information from DNA to proteins by expanding the coding

137 ction as messengers for transferring genetic information from DNA to proteins, as the primary genetic

138 ase for bacterial lipoproteins by processing information from 510 entries to provide a list of 199 di

139 patterns of background variation as well as information from environmental values to provide an impr

140 We use information from human infections to provide a framework

141 ogether single nucleotide polymorphism (SNP) information from numerous sources to provide a comprehen

142 es topographic, structural, and cytochemical information from the rat to recognize corresponding area

143 Eukaryotic cells integrate information from multiple sources to respond appropriate

144 synaptic features for rapid transmission of information from sense organs to responding muscles.

145 The transmission of information from DNA to RNA is a critical process.

146 The accurate flow of genetic information from DNA to RNA to protein is essential for

147 tical roles in the transformation of genetic information from DNA to RNA to protein.

148 ED) is a multiprotein complex that transmits information from transcription factors to RNA polymerase

149 Clusters of Orthologous Groups database and information from published genomes to search for other u

150 database of article abstracts, synthesizing information from many sources to shed light on groups of

151 g a charge-to-spin converter that translates information from electrical domain to spin domain, magne

152 The retinogeniculate synapse conveys visual information from the retina to thalamic relay neurons.

153 first demonstration of a transfer of chiral information from an allene to the 5-position of a cyclop

154 How animals gain information from attending to the behavior of others has

155 coherence leads inevitably to the leaking of information from each subsystem to the composite entangl

156 es the most effective route for transmitting information from MI to the facial nucleus.

157 convergence, the articulation of the flow of information from modality-related to the more parallel c

158 llular communication and transfer of genetic information from one cell to the other.

159 Sequential transfer of information from one enzyme to the next within the confi

160 s that can transfer gene-specific regulatory information from one generation to the next because they

161 e catalyzes the accurate transfer of genetic information from one generation to the next, and thus it

162 e germ line, is required to transmit genetic information from one generation to the next.

163 e molecular machinery synapses use to convey information from one neuron to the next not only plays a

164 onse to environmental perturbations to relay information from plastids to the nucleus.

165 n the ability to transfer regulatory network information from reference species to the genomes under

166 ate nucleus (dLGN) dynamically convey visual information from retina to the neocortex.

167 ield organization of nerves that carry taste information from taste buds to the nucleus of the solita

168 ety can regulate the flow of emotional state information from the BLA to the mPFC.

169 ns are auditory efferent neurons that convey information from the brainstem to the auditory periphery

170 In enteric species, CheW transmits sensory information from the chemoreceptors to the histidine pro

171 The exchange of genetic information from the chloroplast to the nucleus has resu

172 Because these afferent neurons carry sound information from the cochlea to the auditory brainstem,

173 he Bayesian approach is a tool for including information from the data to the analysis.

174 epends on the faithful transmission of sound information from the ear to the brain by spiral ganglion

175 t relay center in the conduction of auditory information from the ear to the brain, and it probably p

176 sfer of TGFbeta (Dpp) and Wnt (Wg) signaling information from the ectoderm to the underlying mesoderm

177 ing each whisker encode and transmit sensory information from the environment to the brain via affere

178 thways have been identified that communicate information from the environment to the cell cycle, a sy

179 ptors and ion channels that act to transduce information from the environment to the cell.

180 etinal ganglion cells (RGCs), which transfer information from the eye to the brain, are heterogeneous

181 tinal ganglion cells (RGCs) conveying visual information from the eye to the brain.

182 the output neurons that encode and transmit information from the eye to the brain.

183 pes of retinal ganglion cells conduct visual information from the eye to the rest of the brain.

184 RGCs) are tasked with transmitting all light information from the eye to the retinal recipient areas

185 the trigeminal ganglia, which relays sensory information from the face to the brain.

186 circuits involved in conveying somatosensory information from the genitalia to the brain during sexua

187 es play a key role in signalling distressing information from the gut to the brain.

188 urons that rapidly transmit antennal-tactile information from the head to the thorax in the cricket G

189 a renal sympathetic afferent pathway conduct information from the kidney to the central nervous syste

190 s and molecules that aid in this transfer of information from the KV to the left LPM are still not cl

191 lates are capable of relaying stereochemical information from the ligand to the reaction center.

192 mediate the transfer of homologous sequence information from the maternal to the developing somatic

193 The transfer of asymmetric information from the node to the lateral plate is mediat

194 brate embryo requires transfer of positional information from the node to the periphery, resulting in

195 es chemosensory neurons, which transmit odor information from the nose to the brain.

196 othesis that there is transfer of convergent information from the NTS to the DMV, implying that signi

197 PB) and viscerosensory (rostral lateral PB) information from the NTS to the forebrain.

198 anded oligonucleotides can transfer sequence information from the oligonucleotide to the chromosome.

199 The flow of information from the outside to the inside of bacterial

200 the "pain pathway" mediating transmission of information from the periphery to the brain is well know

201 nal cord are important for conveying sensory information from the periphery to the central nervous sy

202 These synapses gate the flow of nociceptive information from the periphery to the CNS, and plasticit

203 is is imparted by the thalamus, which relays information from the periphery to the cortex.

204 first-order thalamic nuclei transmit sensory information from the periphery to the cortex.

205 Primary nociceptors relay painful touch information from the periphery to the spinal cord.

206 These ipRGCs are crucial for relaying light information from the retina to the brain to control circ

207 GN) is the primary thalamic relay for visual information from the retina to the cortex and is densely

208 tern that assures the most accurate relay of information from the retina to the visual neocortex.

209 labeled lines transmitting specific sensory information from the skin to the brain.

210 ntains afferent fibers that transmit sensory information from the stomach to the nucleus of the solit

211 e opposite direction; transferring of speech information from the temporal to the frontal lobe utiliz

212 ck can influence the transmission of sensory information from the thalamus to the cortex in a stream-

213 tation is an obligatory step in the relay of information from the thalamus to the cortex, it represen

214 atomy suggests that this loop relays tactile information from the vibrissae to the motoneurons that c

215 t has been proposed that the transmission of information from the visuosensory to the motor map plays

216 thalamocortical axons relaying somatosensory information from the VP to the primary somatosensory cor

217 p interneuron), that (i) conveys the sensory information from this stimulus to the swim central patte

218 llenge is to interrelate different levels of information, from the genome to the transcriptome, the p

219 Plants perceive and integrate information from the environment to time critical transi

220 rete bands of E2 and E3 cells that may relay information from the CSF to underlying neural circuits a

221 Integrating biological information from different sources to understand cellula

222 mentation of artificial systems that extract information from images to understand their content.

223 tential to turn the typical top-down flow of information from scientists to users into a much more di

224 TC synapses, which transmit competing visual information from each eye to V1, contributes to the earl

225 there was a top-down flow of sustained task information from frontoparietal to visual cortex.