1 perature and water activity range considered
here.
2 Here a closed-loop cavitation controlling paradigm that
3 We report
here a few Zika NS1-binding ssDNA aptamers selected usin
4 Here,
a detailed discussion about the commonly adopted s
5 Here,
a new evolutionary algorithm is proposed to train
6 the review and our own derivations presented
here aim to encourage undergraduate physics students to
7 dala of patients with SZ and BD, interpreted
here as decreased SST expression, may disrupt responses
8 s with Exophiala lecanii-corni are described
here as Exophiala lavatrina sp.
9 Here,
based on first-principles calculations, anisotropi
10 Here,
by combining studies using chromatin immunoprecipi
11 Here,
by performing the reverse experiment, injecting mo
12 We
here employ computational and structure-guided design to
13 Here,
for the first time, we show robust evidence of a d
14 Here,
I review current progress in the pursuit of an evo
15 Here,
I review the evidence of whether mito-nuclear inte
16 Common to all target nuclei investigated
here is the maintenance of projection topology from diff
17 Here,
Jiang et al. demonstrate that a thin metasurface c
18 Here,
Li and co-workers fabricate a stable metal-organic
19 in tissue-wide gene expression, as observed
here,
may underpin a profound immune dysregulation, sett
20 The Snail-repressive activity,
here monitored on genes with a pivotal function in epith
21 f the DsbA-like mycoredoxin cluster reported
here now paves the way for correctly classifying similar
22 d the emerging tools and approaches outlined
here offer researchers studying complex diseases renewed
23 We
here report results that contradict these findings.
24 Here,
Shcherbakov et al. realise an ultrafast tunable me
25 of chemically detailed simulations presented
here show that this is not the case; pronounced deviatio
26 lar integrity and regenerative signaling, is
here shown to regulate ligand-specific Notch signaling.
27 Here,
starting with a medicinal chemistry approach, Bake
28 d multiplexed in situ hybridization, we show
here that a single marker, Neuromedin B mRNA (Nmb), iden
29 We demonstrate
here that monocytic (mMDSC) and granulocytic (gMDSC) sub
30 We report
here that mTORC1 and mTORC2 are activated in response to
31 We show
here that R-2HG also exerts a broad anti-leukemic activi
32 In summary, we show
here that Rap1 contains an AD required for Rap1-dependen
33 Here the authors employ CRISPR/Cas9 gene editing technol
34 Here the authors report that the post-translational regu
35 Here the authors show that 3D collagen gels, major compo
36 Here the authors show that MRAP2 also regulates ghrelin
37 Here,
the authors perform a genome-wide association stud
38 Here,
the authors perform a metagenome-wide association
39 Here,
the authors show interleukin-27 promotes the tissu
40 As we review
here,
the findings presented at the meeting highlighted
41 Overall, and as we review
here,
this interdisciplinary meeting provided a valuable
42 Here,
through adaptive evolutionary analyses of phototra
43 Here using a large whole-genome sequencing data bank, ca
44 Here using band shift assays, fluorescence Job plots, an
45 Here,
using a palette of histological methods we describ
46 Here,
using human in vivo deuterium labeling, we demonst
47 Here,
using in situ electron microscopy, we show how gol
48 Here,
using multiscale MD simulation-based predictions a
49 The multi-SNP analysis described
here was readily adopted by another laboratory with pyro
50 IL-6Ralpha (called 'IL-6 cluster signaling'
here)
was needed to prevent premature induction of inter
51 Here we address the high-pressure synthesis of a new pol
52 Here we address this challenge through the analysis and
53 Here we adopt this powerful approach to breast cancer an
54 Here we carried out numerical studies on the InGaN DA sh
55 Here we combine CRISPR/Cas9 gene editing with an innovat
56 Here we confirm PRC1-Br140 and PRC1-Fs(1)h interactions
57 Here we consider the minimum number of communication rou
58 Here we couple records of ocean redox chemistry with nit
59 Here we demonstrate enhanced natural community APase act
60 Here we demonstrate that key RQC activities-Ltn1p-depend
61 Here we demonstrate that the expression of an endogenous
62 Here we demonstrate the phenomenon of quantum wave mixin
63 Here we describe a molecular system that can be programm
64 Here we describe a new, exquisitely three-dimensionally
65 Here we describe an enhanced fluorescence fluctuation im
66 Here we describe an update of the database.
67 Here we describe DeActs, genetically encoded actin-modif
68 Here we describe ShootingStar, a platform for perturbati
69 Here we describe the 'Asgard' superphylum, a group of un
70 Here we describe the stabilization of the heaviest 4+ io
71 Here we determined that increased expression of XRN2 ind
72 Here we develop mathematical models of Tfh cells in germ
73 Here we developed a population-level microsatellite prof
74 Here we developed covariates for multiphenotype studies
75 Here we disclose an efficacious hybrid molecule 4-(5-Ami
76 Here we discover that NAD(P)H oxidase 4 (NOX4), an enzym
77 Here we examined how the abundance of motor and nonmotor
78 Here we examined how the anatomical composition of a gen
79 Here we examined the circuit anatomy of zebra finch HVC,
80 Here we explored the genetic mechanism underlying the ex
81 Here we generate testable predictions for coupling versu
82 Here we have extended these analyses to prenatal ages an
83 Here we have shown that 3 nonsynonymous ITGAM variants t
84 Here we identify twenty-six DHC-derived features that pr
85 Here we interrogate the molecular consequences of CRISPR
86 Here we introduce a method, which we refer to as colloid
87 Here we introduce a package that is aimed to simplify th
88 Here we introduce a protecting-group-free approach for t
89 Here we investigate auto-regulation of the innate immune
90 Here we make progress by studying the colicin immunity p
91 Here we measured the responses of a marine diatom, Thala
92 Here we mimic phosphorylation of cytochrome c by replaci
93 Here we present a chemical crosslinking strategy that in
94 Here we present a high-resolution (100 m x 100 m) region
95 Here we present an automated method to extract labels fo
96 Here we present boron isotope data-a proxy for seawater
97 Here we present evolutionary evidence that minor-group v
98 Here we present PLUMED-ISDB, an open-source, freely-avai
99 Here we present the first comprehensive description and
100 Here we present the first, to our knowledge, in vivo the
101 Here we propose an all-optical scheme for ultra-bright g
102 Here we provide a protocol for isolating GVs from native
103 Here we provide a review of the ecology and molecular an
104 Here we quantify the mean, amplitude, and phase of the D
105 Here we recorded neurons in three color patches, middle
106 Here we report a beta-cyclodextrin (beta-CD)-based polym
107 Here we report a physiologically relevant NMDA-receptor-
108 Here we report a versatile S-adenosyl-l-methionine (SAM)
109 Here we report an apple genome variation map generated t
110 Here we report an electrically driven CE reaction to pre
111 Here we report observations of LHS 1140b, a planet with
112 Here we report on characterization of the three-dimensio
113 Here we report on functional identification and characte
114 Here we report on the extensive changes in distribution
115 Here we report simultaneous eddy covariance flux measure
116 Here we report that abundant 6mA is associated with tran
117 Here we report that CaCCs coexist with BK and SK channel
118 Here we report that conserved GA repeat cis elements wit
119 Here we report that Drosophila centrosomin (cnn) express
120 Here we report that PI3K signaling is critical for the c
121 Here we report that steady states of systems with non-eq
122 Here we report that the addition of peracetic acid, a st
123 Here we report that ubiquitination of the 40S ribosomal
124 Here we report the amount of a protein can also be selec
125 Here we report the characterization of chicken IFN-kappa
126 Here we report the detection of substantial (8.3 +/- 0.8
127 Here we report the engineering of a protein scaffold for
128 Here we report the experimental discovery of two structu
129 Here we review studies that tackle this problem from a d
130 Here we show competition between defensive (to avoid pre
131 Here we show for a wildfire chronosequence spanning over
132 Here we show that a microfluidic system supports murine
133 Here we show that a population of the model diatom Phaeo
134 Here we show that a significant variation in the rate of
135 Here we show that apoptotic cell extrusion is provoked b
136 Here we show that assumption ii is not valid, due to str
137 Here we show that drugs that inhibit important kinases i
138 Here we show that during bacterial infection, lysozyme i
139 Here we show that ER-localized THBS1 is cytoprotective t
140 Here we show that GSCs can reversibly transition to a sl
141 Here we show that human RNase H2 is unable to process an
142 Here we show that hydrolase levels between human ALF fro
143 ted in the initiation of senescence in vitro
Here we show that in a mouse model of prostate cancer, S
144 Here we show that in mice DND1 binds a UU(A/U) trinucleo
145 Here we show that mice with an adipose-tissue-specific k
146 Here we show that ripple bursts in CA1 and medial entorh
147 Here we show that sleep is also present in Cnidaria [6-8
148 Here we show that the presence of SOS1/EPS8/ABI1 complex
149 Here we show that, indeed, while stoichiometric Ga2FeO4
150 Here we show, in the context of near-field planar ultra-
151 Here we solve the crystal structures of the N-terminal d
152 Here we study the multiferroic domains in ferromagnetic
153 Here we use a library of Xenopus tropicalis genomic sequ
154 Here we use an integrated photonic chip with a circuit-b
155 Here we use biochemical and structural methods to show t
156 Here we use four-dimensional confocal microscopy of live
157 Here we use magnetic fields approaching 100 Tesla to rev
158 Here we use resting-state fMRI data from 176 subjects to
159 rationally predicting beneficial mutations,
here we used a more comprehensive mutagenesis approach w
160 Here we utilize a functional assay to assess the ex vivo
161 Here we utilize in situ spectroscopy and microscopy to i
162 Here,
we address Piezo1 in adult endothelium, the major
163 Here,
we aim to provide an integrated overview of the ap
164 Here,
we aimed to gain insights into the genetic archite
165 Here,
we analyse the genomes of 155 weedy and 76 locally
166 Here,
we analytically predict and experimentally realize
167 Here,
we analyze 563 full genomes, 455 of which are nove
168 Here,
we analyze effects of this loss and other cochlear
169 Here,
we analyzed a Xenopus model of conversion of melan
170 Here,
we asked whether this mechanism generalizes to OFF
171 Here,
we attempted to find the associations between tumo
172 Here,
we build a compendium of 2218 primary tumours acro
173 Here,
we characterize how an anti-idiotypic antibody (E1
174 Here,
we combined a nanoscale imaging approach with adva
175 Here,
we combined computational simulations with analysi
176 Here,
we conduct a strong test of the saliency hypothesi
177 Here,
we consider reasons why germ plasm might be neithe
178 Here,
we consider recent comparative analyses of extant
179 Here,
we demonstrate that Arabidopsis (Arabidopsis thali
180 Here,
we demonstrate that comprehensive two-dimensional
181 Here,
we demonstrate that CRISPR/Cas9 genome editing of
182 Here,
we demonstrate that interplay of p300-HDAC2-Sin3A
183 Here,
we demonstrate that Ssp1 activates a second ARK, S
184 Here,
we demonstrate that the antidepressant-like effica
185 Here,
we demonstrate that the FX/SR-AI-complex comprises
186 Here,
we demonstrate the bioisosterism of the OH and CF2
187 Here,
we demonstrated that SERT (-/-) mice display abnor
188 Here,
we describe a structure we refer to as the embryo
189 Here,
we describe how F-specific antibodies protect agai
190 Here,
we describe mGluR5 findings in stress disorders, p
191 Here,
we describe site-selective, copper-promoted coupli
192 Here,
we describe two brothers with hematopoietic and im
193 Here,
we develop skin grafts from mouse and human epider
194 Here,
we developed a sensitive and accurate multiplex mi
195 Here,
we developed a sensitive sandwich enzyme-linked im
196 Here,
we directly monitor RNA proof-reading by RIG-I and
197 Here,
we discovered that KCNQ2/3 channels isoform-specif
198 Here,
we examine interindividual variability in skin MC
199 Here,
we examine the heterogeneous ozonolysis of squalen
200 Here,
we examined Drosophila olfactory sensory neurons a
201 Here,
we examined how solutes and macromolecules are sep
202 Here,
we first demonstrated that breast cancer cells and
203 Here,
we focus on a imidazolium based IL and use particl
204 In the studies reported
here,
we found that uninfected Irgm1-deficient mice disp
205 Here,
we further stabilized pre-F by adding both disulfi
206 Here,
we have characterized nuclear and whole cell trans
207 Here,
we have examined the host pathways by which vMIA t
208 Here,
we have imaged fluorescently labeled AGs in live z
209 Here,
we have investigated whether DM1-associated muscle
210 Here,
we have reported that neurite outgrowth from adult
211 Here,
we have shown that blocking the activation of PERK
212 Here,
we identified an orphan protein (Plu2236) from Pho
213 Here,
we identified seven unrelated individuals affected
214 Here,
we identify a presynaptic effector molecule of the
215 Here,
we introduce the PhILR transform, which incorporat
216 Here,
we introduce this dynamic utility function to seve
217 Here,
we investigate how heat waves affect emissions of
218 Here,
we investigate size control and the cell cycle dep
219 Here,
we investigate the ligand specificities of the hum
220 Here,
we investigate the relationship between infants' c
221 Here,
we investigated how motor cortical activity change
222 Here,
we investigated mTOR in juvenile zebra finch songb
223 Here,
we investigated the phenotypic effects of JAK2 def
224 Here,
we obtain cavity mediated hybridization of GaAs an
225 Here,
we perform a continent-wide climate change vulnera
226 Here,
we performed marker analysis, cell proliferation a
227 Here,
we performed molecular dynamics simulations of GLI
228 Here,
we posit that open-innovation approaches are more
229 Here,
we present a data-driven decision-theoretical mode
230 Here,
we present a genome-wide analysis of single-nucleo
231 Here,
we present a transformational approach to genome e
232 Here,
we present an approach of cell-free protein synthe
233 Here,
we present an NMR-guided all-atom discrete molecul
234 Here,
we present an overview of the unique chemistry tha
235 Here,
we present direct measurements of phase transition
236 Here,
we present evidence for glucagon-like peptide 1 (G
237 Here,
we present new developments in the Reactome visual
238 Here,
we present the crystal structure of the SNX5-PX:In
239 Here,
we present the results of a large-scale neuroimagi
240 Here,
we present the structure of the Fab fragment of su
241 Here,
we propose a new unbiased method to identify canon
242 Here,
we provide a different perspective on this issue,
243 Here,
we provide a modern synthesis of the microbial eco
244 Here,
we provide first insight into the key step of MSP-
245 Here,
we quantify the extent to which the activity of th
246 Here,
we quantify the link between terrestrial sediment
247 Here,
we report a fluorometric method to measure carboxy
248 Here,
we report a modified Langmuir-Blodgett method to o
249 Here,
we report a reduction in atherosclerosis in respon
250 Here,
we report an atomistic model of the excited state
251 Here,
we report that a 0.1 Gy radiation dose reduces can
252 Here,
we report that certain RNA template structures and
253 Here,
we report that Lunatic fringe (Lfng), a key modifi
254 Here,
we report that mammalian RNase H1 enriches in nucl
255 Here,
we report that super-enhancers drive the biogenesi
256 Here,
we report that T cells activated in such a context
257 Here,
we report that the AR-repressed gene CCN3/NOV inhi
258 Here,
we report that the fowlpox virus prosurvival prote
259 Here,
we report the cryo-electron microscopy structure o
260 Here,
we report the cryoEM structure of yeast U1 snRNP a
261 Here,
we report the design of a set of living materials
262 Here,
we report the direct measurement of the energy spe
263 Here,
we report the wicking performances for porous copp
264 Here,
we reveal that dynein-Snapin-mediated retrograde t
265 Here,
we reveal that voltage clamp is completely ineffec
266 Here,
we review a broad range of experimental and theore
267 Here,
we review six principles of living systems and how
268 Here,
we review the immunologic underpinnings of Treg th
269 Here,
we review the key breakthroughs and remaining obst
270 Here,
we show by blue-native gel electrophoresis and sta
271 Here,
we show in mice and cancer patients (n = 70) that
272 Here,
we show that both 2009 pandemic H1N1 influenza A (
273 Here,
we show that by using specific intracellular immun
274 Here,
we show that knockdown of Hop in the germ line nur
275 Here,
we show that lamin A/C expressing cells can form a
276 Here,
we show that modeling of neural sound representati
277 Here,
we show that mutation of the mouse orthologue of G
278 Here,
we show that NKT-specific deletion of Hdac3 result
279 Here,
we show that platelet-derived growth factor recept
280 Here,
we show that stimulants like cocaine and methamphe
281 Here,
we show that the Arabidopsis (Arabidopsis thaliana
282 Here,
we show that the C-type lectin receptor CD69 contr
283 Here,
we show that the cytokine activin-A instructs the
284 Here,
we show that the phosphorylation status of NBS1 de
285 Here,
we show that Tomt/Comt2, the murine ortholog of LR
286 Here,
we show using functional GFP reconstitution experi
287 Here,
we studied causes of uncertainty among 16 crop mod
288 Here,
we studied three different enrichment methods for
289 Here,
we synthesized 1025 records of litter breakdown in
290 Here,
we test for the first time how early-life stress d
291 Here,
we test the hypothesis that laropiprant limits ble
292 Here,
we tested the hypothesis that inducing plasticity
293 Here,
we tested the influence of temperature by determin
294 Here,
we use mobile phone data to quantify seasonal trav
295 Here,
we use optical tissue clearing and a TAM-targeting
296 Here,
we used chimeric proteins to test whether DAT and
297 Here,
we used human intracranial recordings and visual w
298 Here,
we used micro-CT scans of extant mammals (47 speci
299 Here,
we used two-photon Ca(2+) imaging to study visual
300 the skewed Student [Formula: see text] used
here,
when making forecasts of population abundance.