1 We interpret (
13)C chemical shift variations in terms of
2 As proof of concept,
we interpret 15-year spatially explicit trends in the an
3 We interpret a full year of high-frequency CO measuremen
4 Here
we interpret a nanosecond transient yellow emission band
5 In the southern part of the 2004 rupture,
we interpret a negative-polarity sedimentary reflector a
6 located ~80 km from the Arctic Ocean, which
we interpret alongside synthesized regional records of H
7 4) and CAM, respectively) that influence how
we interpret and estimate g(m) compared with a C(3) plan
8 , these discoveries profoundly influence how
we interpret and understand diverse experimental and cli
9 We interpreted and rationalized these results in terms o
10 l cingulum and corpus callosum fibers, which
we interpret as a consequence of bilateral insults (pote
11 ing organ surrounding a central mouth, which
we interpret as a lophophore, and a U-shaped digestive t
12 plitude and the fluid Verdet constant, which
we interpret as a manifestation of the variable detuning
13 essed by Principal Component Analysis, which
we interpret as a measure of "overall complexity" of our
14 reveal an expansive low-velocity zone, which
we interpret as a possible hot zone, linking ascending m
15 y structure extends to ca. 6 km depth, which
we interpret as a shallow plumbing system comprising a f
16 to a channel at the base of the plate, which
we interpret as a sheared zone of ponded partial melts o
17 longevity of the secondary variations, which
we interpret as a signature of surface inhomogeneities o
18 f homology models for the Na(+),K(+)-ATPase,
we interpret as a transfer reaction of pNBTEA from a per
19 eatest ~4 km downstream from the lake, which
we interpret as an area of transient water storage const
20 pond along the Rhynie alluvial plain, which
we interpret as arcellinid amoebozoans.
21 gion of chalcogenide GeSe2 thin films, which
we interpret as being a manifestation of creation and an
22 ventral, and medial-lateral coordinates that
we interpret as cell types.
23 mG-complex; one at least first order in AGT,
we interpret as direct lesion binding.
24 metimes detect a sudden colossal jump, which
we interpret as due to mirror buckling.
25 ty by laser-accelerated particle beams which
we interpret as due to secondary reactions induced by al
26 t and linear in temperature and power, which
we interpret as due to thermoelectricity of the metal el
27 e zones associated with the new craters that
we interpret as evidence of a surface-bound jetting proc
28 ns that are deeply incised into bedrock that
we interpret as giant plunge pools.
29 eservation of only the pes claw traces, that
we interpret as having been left by walking, not buoyant
30 ake rate (k'R) and vary greatly in kp, which
we interpret as having similar oxygen transport, but mor
31 after all Neoproterozoic glaciations, which
we interpret as incomplete reduction of Se oxyanions.
32 We recognize en-echelon features that
we interpret as kinematic indicators, congruent with exp
33 s running along each of these fibrils, which
we interpret as ladders of metal ions.
34 e also note a small inversion structure that
we interpret as local evidence of transpression in the s
35 ics and therapies for CVD, we highlight what
we interpret as major gaps in the medical management of
36 Movement traits
we interpret as more decision-based, such as time spent
37 f) rate of heme from IsdC (<10 s(-1)), which
we interpret as necessary so heme loaded IsdC has time t
38 ons off the southern Juan de Fuca ridge that
we interpret as originating from a molten sill at presen
39 ble radio emission from a thermal TDF, which
we interpret as originating from a newly launched jet.
40 ons of dusty clouds in Saturn's rings, which
we interpret as resulting from impacts onto the rings th
41 gp41 domains, i.e. the trimeric state, which
we interpret as small differences in the gp120 structure
42 ed giants with depressed dipole modes, which
we interpret as stars with strongly magnetized cores.
43 e discovery of ASASSN-15lh (SN 2015L), which
we interpret as the most luminous supernova yet found.
44 tion mechanism at [Formula: see text], which
we interpret as the onset of homogeneous etch pit nuclea
45 inct GAD67-expressing cell population, which
we interpret as the previously unidentified reticular th
46 r crust of the basins south of Qilian, which
we interpret as the top of a mechanically strong lower c
47 bound cross-bridges on N-cTnC opening (which
we interpret as transmitted through related changes in c
48 d by an intense signal originating from what
we interpreted as both the iBM and the oBM, showing diff
49 ortex are tuned to two parts of space, which
we interpreted as reflecting attention and working memor
50 d by an intense signal originating from what
we interpreted as the inner Bruch's membrane (iBM) layer
51 Here,
we interpret bacterial DNA uptake and release in the con
52 s from the northwest Australian tropics that
we interpret,
based on an integrated analysis of meteoro
53 Here
we interpret behavioral data by assuming an agent behave
54 increases, the elastic modulus rises, which
we interpret by alluding to ant crowding and subsequent
55 We interpreted C and Cl isotopes using a numerical react
56 METHODS AND
We interpreted cardiac magnetic resonance imaging in 420
57 Based on these observations
we interpret circadian rhythmicity as an emerging proper
58 Also,
we interpret climatic relocation patterns in terms of as
59 Our current model systems, or the way
we interpret data from them, clearly do not have suffici
60 evelopment and provide novel insights on how
we interpret data of psychiatric genetics, indicating th
61 We interpret denaturant kinetic m-values and activation
62 urthermore, based on the derived conditions,
we interpret drop movements on both hydrophilic and hydr
63 We interpret each obstacle as an esker ridge formed from
64 We interpret each PCO(2) increase as a direct response t
65 We interpret future and recent historical trends by usin
66 the principle of hydrophobic spine assembly,
we interpret how kinases are capable of performing a dua
67 rom motions of the protein as a whole, which
we interpret in the context of prior theories of catalys
68 he blueprint for life, it is imperative that
we interpret it accurately.
69 gh levels in the ambient particle phase, and
we interpret its detection in the downstream denuder as
70 In other words,
we interpret its reciprocity with living cells in chemic
71 Here in this work
we interpret LSPs from a Bohr model based geometric pers
72 Using phase field simulations
we interpret magnetization reversal as a synergistic eff
73 We interpret mathematical theories of existence and nonu
74 This has major implications for how
we interpret mechanistic evidence derived from the expre
75 novel application of a time-series analysis,
we interpret microclimatic variance modification and elu
76 We interpret multiquons and their transformations in a n
77 We interpret our algorithm as deriving a model for the b
78 We interpret our data to mean that the oligomer acts by
79 lobal oceans in response to deglaciation(7),
we interpret our East Antarctic dataset to represent ice
80 We interpret our findings as evidence for the convergenc
81 We interpret our findings as evidence that compensatory
82 We interpret our findings in the context of our homology
83 We interpret our observations in terms of an interferenc
84 We interpret our record of oxygen isotope ratios from th
85 Specifically,
we interpret our records to indicate repeated, large-sca
86 We interpret our results as a qualitative mechanism for
87 We interpret our results in terms of fish allocating seq
88 We interpret our results in terms of the known structure
89 We interpret our results through a chordate-wide compari
90 We interpret our results through a strongly interacting
91 We interpret our results to mean that C6PS-induced dimer
92 We interpret our results using structural data, which sh
93 We interpret our results with the aid of DFT calculation
94 Instead,
we interpret our rich-country results within a theory of
95 We interpreted our results considering two hypotheses.
96 How can
we interpret p53's disparate activities and the conseque
97 We interpreted QCM-D signals using a theoretical approac
98 broadly our results call for caution in how
we interpret SDMs and do not support the assumption that
99 In addition,
we interpret segmented zones of melt supply beneath the
100 We interpreted such fluctuations as topographic Rossby w
101 ibitory (GH298) and excitatory (krasavietz),
we interpret that the normal phenomena of sensory percep
102 s development 21 miles (34 km) to the south;
we interpret that the reservoirs share a permeable, late
103 We interpret that the westbound flowing current flow acr
104 We interpret that these gradients are due to convective
105 We interpreted that roots of E. pithyusa significantly p
106 )H COSY and (19)F-(19)F QF-COSY NMR spectra,
we interpret the (1)H and (19)F NMR spectra of the porph
107 We interpret the ASOT as being due to a spin-Hall-like c
108 We interpret the association with later BMI as being pro
109 We interpret the available evidence as suggesting that C
110 rst-principle lattice dynamics calculations,
we interpret the changes in the phonon dispersion as the
111 In this work,
we interpret the chronology of these two events in a Bay
112 We interpret the CO2 release, the formation of nanograin
113 We interpret the combination of improved phase tracking
114 table at these depths in a warm damp mantle,
we interpret the conductor to be a partially molten laye
115 We interpret the data using a theoretical framework devi
116 Finally,
we interpret the deep learning models by converting the
117 an accessible and across-species framework,
we interpret the different timescales of vocal productio
118 Hence
we interpret the differential elevation of the southern
119 ld model defined on regular random networks,
we interpret the dynamics of the system in this region a
120 We interpret the effects of DMSO as being derived from i
121 We interpret the findings in terms of emerging network m
122 eatures based on their joint statistics, and
we interpret the firing rates of V1 neurons as performin
123 We interpret the fluctuating asymmetry in fras1 mutant s
124 We interpret the former as a simpler, more biologically
125 We interpret the geochemical and temporal differences be
126 We interpret the high level of nestedness observed in th
127 We interpret the immobile fraction as arising from RNAP
128 The results have implications for how
we interpret the impact of global warming on the hydrolo
129 We interpret the increase in peptide storage in the fall
130 ization, indicative of neuronal bistability,
we interpret the increased presence of the "frontal" mic
131 We interpret the initial elastic regime by an increase o
132 We interpret the isotopic fractionation to be related to
133 We interpret the juxtaposition of the null results of DH
134 We interpret the large (13)C coupling as resulting from
135 ity that grows with the duration of CCS, and
we interpret the lifetime of CCS as the time for which t
136 We interpret the low-velocity structure as the possible
137 We interpret the mantle electrical structure as evidence
138 adopted as a model pathway, in term of which
we interpret the model parameters.
139 We interpret the models to reveal insights into cis- and
140 We interpret the multiple conformations of NS5 observed
141 meta-community and River Continuum Concept,
we interpret the observed taxonomic patterns and accompa
142 y, paleopathology, osteohistology, isotopy),
we interpret the origin of the assemblage and diverse pa
143 enarios, climate, and carbon cycle feedback,
we interpret the Paris Agreement in terms of three clima
144 Using theoretical analyses,
we interpret the phase behaviour of archetypal IDP seque
145 We interpret the phenotype gradient as arising from anal
146 We interpret the presence of CO2 ice as the result of th
147 We interpret the present result to reflect a bottom-up p
148 We interpret the raindrop fossils using experiments in w
149 thems from Paraiso Cave in eastern Amazonia;
we interpret the record as being broadly related to prec
150 We interpret the relationships between (3)He/(4)He value
151 Overall,
we interpret the remodeling of disordered state ensemble
152 ations than our specific area of interest as
we interpret the results and outcomes.
153 We interpret the results as a manifestation of the great
154 We interpret the results as supporting a prioritization
155 We interpret the results from these experiments in terms
156 We interpret the results in terms of the structural prop
157 Accordingly,
we interpret the ribless neck vertebrae of three-toed sl
158 In this article,
we interpret the role of the window region in terms of t
159 In this article,
we interpret the same data by a mechanism where CD4(+) T
160 We interpret the similarity of tropical SST changes, in
161 We interpret the surface energy from liquid metal measur
162 We interpret the theoretical results in relation to thei
163 We interpret the veins as being composed of carbonates,
164 We interpreted the binding data within the theoretical f
165 We interpreted the data in relation to transgenerational
166 We interpreted the IR spectra by comparison with density
167 We interpreted the results with a modified biofilm-condu
168 We interpreted the Thy1 force fields as representations
169 Lastly,
we interpreted the trained model using various visualisa
170 P values work well if
we interpret them as an index of compatibility between t
171 d what drove observed evolutionary patterns,
we interpreted them in the context of its population dyn
172 We interpret these as major wet phases, when an increase
173 We interpret these data as functional evidence for TCR-i
174 We interpret these data as showing that participants fai
175 We interpret these data as strong evidence, consistent w
176 We interpret these data in the light of recently reporte
177 We interpret these data to indicate that neonatal infect
178 We interpret these data to propose that increasing the d
179 We interpret these different effects of barley genotype
180 Based on ab-initio calculations
we interpret these emission lines as stemming from the r
181 We interpret these empirical results by introducing the
182 We interpret these findings as consistent with the view
183 We interpret these findings as evidence that the stories
184 We interpret these findings as reflecting qualitative di
185 We interpret these findings as reflecting the grouping o
186 combination, and in light of previous work,
we interpret these findings as showing that eye movement
187 We interpret these findings in light of "predictive-codi
188 We interpret these findings in terms of two different ki
189 We interpret these findings in the context of the effect
190 We interpret these findings in the context that the dyna
191 We interpret these findings in the framework of biased c
192 We interpret these findings using simple scaling argumen
193 We interpret these findings within a novel framework in
194 We interpret these finds as evidence that drugs of abuse
195 We interpret these grains as nanometre-sized SiO2 (silic
196 We interpret these inclusions as primary due to their en
197 We interpret these inputs as dendrite-targeting excitati
198 We interpret these isotopic patterns as recording the pr
199 We interpret these lags as indicating that Great Basin c
200 We interpret these latter findings to show the importanc
201 We interpret these observations in terms of a rotating d
202 d on images obtained by the Curiosity rover,
we interpret these outcrops as evidence for past fluvial
203 We interpret these radiocarbon-enriched signals to repre
204 We interpret these records using a model that simulates
205 We interpret these regions as reflecting the formation r
206 Moreover,
we interpret these results and favour the hypothesis tha
207 We interpret these results as an indication that liquid,
208 We interpret these results as evidence supporting the no
209 We interpret these results as signatures of embryonic se
210 We interpret these results as signatures of the Kondo ef
211 We interpret these results in light of recent theories a
212 We interpret these results in terms of noncanonical orie
213 We interpret these results in terms of response-effect d
214 We interpret these results in terms of slow relaxation o
215 We interpret these results in the context of previous st
216 We interpret these results in the light of recent theore
217 We interpret these results to indicate a role for the OB
218 We interpret these results to indicate that a strong, pe
219 Taken together,
we interpret these results to mean that Gag membrane int
220 Taken together,
we interpret these results to mean that RSV Gag membrane
221 We interpret these results to mean that the amino acids
222 We interpret these results to suggest that B. dendrobati
223 We interpret these results to suggest that whether or no
224 We interpret these results with the aid of a model for t
225 We interpret these results within the framework of optim
226 We interpret these ridges as the product of squeezing up
227 We interpret these seismic structures as a continuing re
228 We interpret these seismic velocity anomalies as indicat
229 We interpret these separate cluster populations as arisi
230 We interpret these suspended sediments to have been trap
231 of isolated elements of the overall network,
we interpreted these data using in silico model-based in
232 We interpreted these findings as compatible with a malad
233 Using a phylogenetic approach,
we interpreted these fossil specimens as members of an e
234 ted intracellularly but not in the membrane,
we interpreted these results to suggest that G-1 could a
235 We interpreted these results under an ecological perspec
236 We interpret this as a global dependency of the rate of
237 We interpret this as a potential cost of arriving early
238 We interpret this as being related to an increase in moi
239 We interpret this as due to enhanced interactions with m
240 We interpret this as evidence for the existence of distr
241 We interpret this as evidence of the reciprocal relation
242 nd affinity differences were not correlated,
we interpret this as evidence that supercoiling occludes
243 iates in the photocycle of both PYP and Bph,
we interpret this as formation of a metastable complex b
244 of analgesic-exposed F1 fathers or mothers,
we interpret this as potentially indicating an analgesic
245 We interpret this as suggestive that charges are free fr
246 We interpret this as the inward motion of gases at veloc
247 We interpret this behaviour as direct evidence for scree
248 We interpret this behaviour in terms of the properties o
249 We interpret this cold spell to reflect, to our knowledg
250 We interpret this difference in terms of the hydration p
251 We interpret this difference in terms of the protic or a
252 We interpret this dispersion to reflect cooling of the m
253 Based on its distribution,
we interpret this dust to be interplanetary in origin.
254 We interpret this effect as the crossover from the colle
255 We interpret this effect within an extended kinetic mode
256 We interpret this emission as cooperative spontaneous re
257 We interpret this evidence to indicate that Compagopisci
258 We interpret this finding as the effect of embedding, se
259 We interpret this finding in light of hierarchical predi
260 We interpret this fossil as a discarded exoskeleton over
261 We interpret this hysteresis phenomenon as support (alth
262 We interpret this in terms of quantum suppression of the
263 We interpret this increase with repetition as a repair m
264 We interpret this increased time scale as a multiphonon
265 We interpret this interaction as evidence, upon infectio
266 We interpret this motion as conformational dynamics of t
267 We interpret this negative impact of antioxidants on oxy
268 Using micromagnetic modelling,
we interpret this nominally full magnetization reversal
269 We interpret this object as a binary system of two black
270 How do
we interpret this observation in light of the well-known
271 We interpret this occurrence as a gravid female and unbo
272 rhood SES as a proxy for health care access,
we interpret this pattern to indicate continued, true in
273 We interpret this reduced risk as a stabilization of the
274 We interpret this result as arising due to spatial fluct
275 We interpret this result as FMO3 modifies the parent pol
276 ly stable under moderate shear stresses, and
we interpret this result in terms of stress-free shape a
277 We interpret this result to indicate that there remains
278 We interpret this result to mean that both microdialysis
279 We interpret this result to reflect the presence of a pr
280 We interpret this short-period signal as the signature o
281 We interpret this significant improvement with a theory
282 We interpret this to indicate that stabilization of the
283 We interpret this to mean that the Compound I (peroxidas
284 We interpret this to reflect episodic flow from lower-ma
285 We interpret this to reflect overprinting of the pyrite
286 We interpret this to reflect the role of saliency and ex
287 We interpret this trend as signalling our approach to a
288 hat TRAMP facilitates pre-mRNA splicing, and
we interpreted this as a fail-safe mechanism to ensure t
289 We interpreted this difference as the expected differenc
290 We interpreted this effect as adaptation to the emotiona
291 n experiments without a catheter (P < 0.05);
we interpreted this result to be mild cholestasis caused
292 ling of these independent clinical CNV data,
we interpreted three SVs to be of potential clinical sig
293 channel and demonstrate the kinetics of what
we interpret to be intrinsic hERG voltage sensor movemen
294 lectin-labeled pericellular material, which
we interpret to be PNNs, surrounding neurons throughout
295 in Cloudina from Namibia and Paraguay, which
we interpret to have originated from chitinous or collag
296 a few hundred thousand years or less, which
we interpret to reflect a change in the global delta(44/
297 ade precise cross-links at Rap1 sites, which
we interpret to reflect native Rap1-TFIID interactions.
298 e L-P complex lacks full processivity, which
we interpret to reflect the lack of the viral nucleocaps
299 n 572 ClinSeq participants, and in 37 genes,
we interpreted variants that cause high-penetrance cance
300 We interpreted Zn and Cu diel cycles as a combination of