1 Here
we introduce 26 new Teixobactin analogues with an increa
2 In this paper,
we introduce 3dPCR, a method to sort DNA molecules with
3 rge, neutral dendrimer to a caged GABA probe
we introduce a "cloaking" technology that effectively re
4 Here
we introduce a 22-nm spaser (plasmonic nanolaser) with t
5 We introduce a Bayesian Unidimensional Scaling (BUDS) te
6 Here,
we introduce a bioelectronic system that makes dry, conf
7 Furthermore,
we introduce a biophysical model of the zippering dynami
8 Here,
we introduce a catheterization procedure that keeps a ra
9 We introduce a chemical sensing technology, named ChIMES
10 Here,
we introduce a class of particle absorbers called transf
11 Here,
we introduce a coarse-grained model that enables simulat
12 In addition,
we introduce a companion application called GenBoard, an
13 Here,
we introduce a computational model to simulate a force-b
14 chromatin organization and gene regulation,
we introduce a computational procedure to construct a be
15 In this paper,
we introduce a computer vision method to measure changes
16 Here
we introduce a conceptual framework to analyze reported
17 We introduce a convolutional denoising algorithm, Coda,
18 We introduce a correction factor to adjust for biases du
19 We introduce a Dam Environmental Vulnerability Index to
20 In this work,
we introduce a delayed self-heterodyne method in conjunc
21 Specifically,
we introduce a Dirichlet prior distribution to capture t
22 Then,
we introduce a dynamic two-photon excitation protocol to
23 Here,
we introduce a facile route for fabricating a new class
24 Here,
we introduce a family of minimal model systems that exhi
25 We introduce a family-based association statistic (LT-Fa
26 Here,
we introduce a fast, robust and accurate tool called OMB
27 Here,
we introduce a filter-optimization method, which utilize
28 Here,
we introduce a fixation method whereby cultured cell cyt
29 We introduce a flexible method for high-resolution inter
30 In this work,
we introduce a framework for creating, testing, versioni
31 characterization of human iris pigmentation,
we introduce a fully automated approach that specifies t
32 In a second model,
we introduce a functional description of STP where we es
33 We introduce a fusion enzyme that can communicate with a
34 Here,
we introduce a general chemical approach for photoresist
35 Here,
we introduce a genome-scale microcantilever- and RNAi-ba
36 First,
we introduce a graph theory model for river networks and
37 Here,
we introduce a haplotype reconstruction algorithm, Regre
38 Here
we introduce a high-throughput assay that selects for hu
39 Here,
we introduce a low-profile bidirectional antenna that ca
40 Here
we introduce a mathematical model that describes the eff
41 In this paper,
we introduce a mechanistic model of migratory movement p
42 We introduce a meta-analysis model that addresses these
43 We introduce a metabolite-signal match score and a targe
44 We introduce a method by which we can examine the relati
45 Here,
we introduce a method for estimating the local genetic c
46 In this work,
we introduce a method of controlling disorder-induced re
47 We introduce a method that uses neural networks to drama
48 We introduce a method to study the past several hundred
49 Here
we introduce a method, which we refer to as colloidal fu
50 dation experiments of human primary tissues,
we introduce a method-quality surrogate variable analysi
51 In this article,
we introduce a metric and an automated experimental fram
52 We introduce a microfluidic double-jump mixing device fo
53 Here
we introduce a microscale organotypic model of the human
54 lymer model, we proceed in two steps: first,
we introduce a minimal number of random connectors insid
55 Here,
we introduce a model of multialternative decision making
56 Therefore,
we introduce a model of NoN to shape the pattern of brai
57 on affects species persistence in food webs,
we introduce a modelling framework that describes the si
58 orescence time series of individual neurons,
we introduce a modified orthogonal matching pursuit algo
59 Herein
we introduce a more effective multi-locus barcoding fram
60 Herein
we introduce a multichannel in situ pressure measurement
61 Here,
we introduce a nanosystem, which allows selective backgr
62 Here,
we introduce a network architecture based on using dilat
63 We introduce a new 'prospective' aspect of agency and sh
64 Here,
we introduce a new analytical method based on sedimentat
65 n Matrix and Kullback-Leibler divergence and
we introduce a new approach to system-global sensitivity
66 In this study,
we introduce a new approach, a combination of EEG and NI
67 In this work
we introduce a new approach, fastPAINTOR, that leverages
68 In this work,
we introduce a new concept for translating radioactive d
69 We introduce a new concept that utilizes cognate nucleic
70 Here
we introduce a new design principle based on preassemble
71 More specifically,
we introduce a new distributed representation of amino a
72 Here
we introduce a new haplotype-based test for eQTL studies
73 In this paper,
we introduce a new IM calibrant (CCS and K0) using singl
74 We introduce a new method for resolving knotting in open
75 Here
we introduce a new method of structure characterization
76 We introduce a new method that combines diffusion tensor
77 Accordingly,
we introduce a new methodology to control liquid crystal
78 Here,
we introduce a new platform, the C. elegans Natural Dive
79 Herein,
we introduce a new strategy for unambiguous identificati
80 We introduce a new technique for cortical network mappin
81 Here,
we introduce a new technology based on biomimicry wherei
82 Here
we introduce a new time-series method that determines th
83 For example,
we introduce a new type of network, the synchrony networ
84 Here
we introduce a new WGS variant data format implemented i
85 Here
we introduce a new, robust atomic layer deposition (ALD)
86 Here,
we introduce a nontargeted methodology capable of determ
87 Further,
we introduce a novel analysis that determines perseverat
88 In this work,
we introduce a novel and general strategy for the enviro
89 We introduce a novel application of an oscillatory chemi
90 To address this issue,
we introduce a novel approach for multi-modal co-registr
91 We introduce a novel approach that clusters k-mers as th
92 Here
we introduce a novel behavioural paradigm to study this
93 We introduce a novel carbonate-bicarbonate eluent genera
94 We introduce a novel cell retention device based on iner
95 We introduce a novel diagnostic scheme for multipartite
96 In addition,
we introduce a novel genotype-independent test to detect
97 In this study,
we introduce a novel LC-HRMS data processing strategy fo
98 Here,
we introduce a novel mechanism for emergence of multiple
99 In particular,
we introduce a novel reproducibility metric for quantify
100 We introduce a novel statistical method that, by focusin
101 Here,
we introduce a novel, highly scalable, photonic approach
102 To model this heterogeneity in the data,
we introduce a novel, supervised learning footprinter ca
103 profiling of micronutrients in human plasma,
we introduce a novel, validated workflow for the determi
104 We introduce a numerical scheme to evolve functional ela
105 Here
we introduce a package that is aimed to simplify this pr
106 Here,
we introduce a plasmonic photothermal method for quantit
107 We introduce a polarization-resolved terahertz time-doma
108 Finally,
we introduce a preparation of peripheral nerve slices fo
109 Here
we introduce a principled framework to estimate annotati
110 awing inspiration from systems neuroscience,
we introduce a probabilistic generative model for vision
111 Here
we introduce a protecting-group-free approach for the al
112 Here,
we introduce a protocol to incorporate misfolding using
113 Here
we introduce a quantitative real time polymerase chain r
114 graphene field-effect transistor embodiment,
we introduce a rapid fabrication technique that implemen
115 using the snapology origami technique, here
we introduce a robust design strategy based on space-fil
116 In this work,
we introduce a scalable route towards generating S-vacan
117 Here
we introduce a scatter plot tool (AAScatterPlot) that ea
118 We introduce a selective and cell-permeable calcium sens
119 We introduce a set of high-density, environment-sensitiv
120 We introduce a simple and inexpensive procedure for epit
121 Here,
we introduce a simple approach to orient the insertion o
122 We introduce a simple criterion to identify two-dimensio
123 To explain this diversity,
we introduce a simple model of productivity trajectories
124 In this study,
we introduce a simple protocol to manufacture disposable
125 Here,
we introduce a single-cell RNA-sequencing method, scDual
126 Here
we introduce a single-molecule assay in which individual
127 We introduce a source-sink diffusion model for polarizat
128 Here,
we introduce a sustainable alternative, namely nanobodie
129 Here
we introduce a technique for coherent quantum interpolat
130 Here
we introduce a technique that employs biocompatible, mag
131 Here,
we introduce a technology based on cell-penetrating poly
132 Here
we introduce a theoretical framework in which long-term
133 We introduce a time-varying network model accounting bot
134 Here
we introduce a toehold-mediated strand-displacement meth
135 In this report,
we introduce a versatile strategy to synthesize polymers
136 In particular,
we introduce a way to quantify the intrinsic shape of th
137 a membrane determines its overall stiffness,
we introduced a coarse-grain molecular dynamics model of
138 sing a network-based formalism of allostery,
we introduced a community-hopping model of allosteric co
139 In this study,
we introduced a constant delay (of 100 ms) between actio
140 To address this question,
we introduced a kit(lf) mutation into a strain of Tg(mit
141 Previously,
we introduced a liability threshold-based mixed model as
142 To further improve the stability of N297G,
we introduced a novel engineered disulfide bond at a sol
143 Herein,
we introduced a novel strategy for conformationally rest
144 We introduced a numerical model simulating the whole eco
145 By gene targeting,
we introduced a point mutation (W1206R) into murine FH t
146 In this study,
we introduced a relatively frequently reported but mildl
147 We introduced a systematic procedure for checking the bi
148 Here,
we introduce alpha-SYN single-molecule pull-down (alpha-
149 We introduce an Active Vertex Model (AVM) for cell-resol
150 Here
we introduce an algorithm based solely on reinforcement
151 Here,
we introduce an algorithm, xHLA, that iteratively refine
152 We introduce an approach for global fitting of the recen
153 We introduce an approach that uses supervised temporal t
154 Here
we introduce an approach to engineer a genetic barrier t
155 In this paper
we introduce an automated carbohydrate sequencing approa
156 Here
we introduce an electric-eel-inspired power concept that
157 In this review,
we introduce an emerging field we term functionally-rele
158 optimum sensitivity to changes in stability
we introduce an empirical parameter derived from the sta
159 We introduce an Eulerian-Lagrangian model where hemodyna
160 We introduce an experimental design that renders possibl
161 To this end,
we introduce an experimental paradigm in which intracran
162 Here,
we introduce an in vitro booster vaccination approach th
163 Here
we introduce an online nano-LCMS(n) method, which depend
164 We introduce an open-source software, LIQUID, for semi-a
165 Here,
we introduce an optogenetic platform that uses light to
166 In addition,
we introduce an unsteady test of surfactant effects.
167 Here
we introduced an Entropy-based Consensus Clustering (ECC
168 clease activity or another function of UL12,
we introduced an exonuclease-inactivating mutation into
169 Recently,
we introduced an improved probability (DP4+) that includ
170 Therefore,
we introduced an on top array of immersive counter elect
171 In this work,
we introduce and analyse a cascaded spintronic computing
172 In the present article,
we introduce and apply multivariate pattern dependence (
173 Here,
we introduce and experimentally realise a quantum networ
174 Particularly,
we introduce and implement a novel technique named Modul
175 We introduce and perform novel data-driven computational
176 In this article,
we introduce and review the foundational methodological
177 In this paper,
we introduce AnnoPred, a principled framework that lever
178 The method that
we introduce can have broad utility in membrane protein
179 To promote reproducibility,
we introduce cartographical snapshots: files that descri
180 Recently
we introduced cavity-enhanced Raman spectroscopy (CERS)
181 In this study,
we introduced CBS as a technology that can be arranged t
182 To overcome these challenges
we introduce CLIC, CLustering by Inferred Co-expression.
183 To meet the demanding requirements,
we introduce computational methods and calibration appro
184 Here
we introduce concepts in three-dimensional (3D) architec
185 he identification of such broad impact eQTL,
we introduce CONFETI: Confounding Factor Estimation Thro
186 Here,
we introduce controlled topological defects into square
187 We introduce CpGenie, a sequence-based framework that le
188 Here,
we introduced CPVT inducing mutations into the pharynx o
189 Here,
we introduce CrowdCurio, a crowdsourcing tool for the co
190 As a powerful application,
we introduce deep UV phase control at 207 nm by using a
191 We introduce DeepCyTOF, a standardization approach for g
192 Specifically,
we introduce direct measurements of relative indentation
193 Here
we introduced double-stranded DNA breaks into the nuclea
194 Here,
we introduce dynamic causal modeling (DCM) for optogenet
195 PEG)-polylysine (single-coat (SC) nanozyme),
we introduce for the first time the chemically cross-lin
196 We introduce GEPIA (Gene Expression Profiling Interactiv
197 We introduce GINOM (Genomic INterval Overlap Model), a n
198 In this study,
we introduced (
gold triangular nanoprism core)/(polyanil
199 Here,
we introduce HALC, a high throughput algorithm for long
200 orts to develop photoswitchable antibiotics,
we introduce here antibacterial agents whose activity ca
201 Here
we introduce HIT'nDRIVE, a computational method that int
202 We introduced individuals from three genetic backgrounds
203 Here
we introduce induced domain swapping (INDOS) as a mechan
204 Here,
we introduce lattice-light sheet imaging of MDA-MB-231 h
205 Here,
we introduce LiF to garnet Li6.5 La3 Zr1.5 Ta0.5 O12 (LL
206 In the current study,
we introduce magnetic solid phase microextraction couple
207 In this work,
we introduce MetaPlotR, a Perl/R pipeline for creating m
208 tion maintenance as a communications system,
we introduce methylation channels and show that higher-o
209 Here,
we introduce MINFIELD, a strategy for fundamentally redu
210 In this work,
we introduced missing linker defects into a homochiral m
211 We introduce modifications in glycolytic pathways and th
212 owever, compared to whole genome sequencing,
WES introduces more biases and noise that make CNV detec
213 Here,
we introduce MS2LDA+ that tackles both above-mentioned p
214 Here,
we introduce multiscale correlation evaluation (MCORE),
215 We introduced mutations in noncanonical and in conserved
216 Here
we introduce mzAccess, a software system that provides i
217 reases rapidly with the number of mediators,
we introduce natural effects models along with estimatio
218 We introduce OncoLead, a novel network based approach fo
219 Here,
we introduce our 3D modeling program-Web3DMol-a web appl
220 on the discrete space of protein sequences,
we introduce our own version, SeqKernel.
221 We introduce P robabilistic A lgorithm for S omatic Tr e
222 Here,
we introduce PARTIE, a partition engine optimized to dif
223 In the current work,
we introduce penetration of mAbs into microtumors with r
224 Here,
we introduce plantiSMASH, a versatile online analysis pl
225 We introduce Plasmodium falciparum gametocyte exported p
226 Here,
we introduce plasmonic nanospectroscopy as an experiment
227 We introduce polarized femtosecond XANES, combined with
228 To address this limitation,
we introduce pooled library amplification for transcript
229 In this study,
we introduce pre-culture SBB treatment to suppress autof
230 We introduce private Evaporative Cooling, a stochastic p
231 Here,
we introduce protein-lipidation quantitation (PLQ)-the f
232 More broadly, the methodologies
we introduce provide a general neural population control
233 We introduce quantitative image restoration in bright fi
234 The novel resetting process that
we introduce removes the existing representations instea
235 Here
we introduce roNaV2, an engineered voltage-gated Na(+) c
236 We introduce Salmon, a lightweight method for quantifyin
237 We introduce seeded iterative demixing (SID), a computat
238 We introduce several applications of these nanoprobes fo
239 We introduce several dimensionality reduction methods to
240 We introduce several new resilience metrics for quantify
241 Here
we introduce silyl ether linkage as a novel dynamic cova
242 In this article,
we introduce SiNVICT, a computational method that increa
243 Here,
we introduce subunit-selective inhibitors and dual-color
244 Along these lines,
we introduce such a quantum device whose memristive beha
245 We introduce the approach developed at our institution f
246 We introduce the basic concepts in coating materials and
247 In this review,
we introduce the basic principles of the different metho
248 In this study,
we introduce the Bee Behavioral Annotation System (BBAS)
249 We introduce the calorimetric descriptor "metabolic capa
250 We introduce the caspo toolbox, a python package impleme
251 We introduce the Census algorithm to convert relative RN
252 We introduce the concept of a population BWT and use it
253 Here
we introduce the concept of phasor representation to qMR
254 In this Review,
we introduce the concept of resonant SEIRA and discuss t
255 To address this problem
we introduce the element-specific persistent homology (E
256 Herein,
we introduce the first approach to map single-chain nano
257 For this purpose,
we introduce the first ever dynamic NA method, DynaMAGNA
258 For this purpose,
we introduce the first ever measure of dynamic edge cons
259 We introduce the fundamental technical aspects of single
260 We introduce the Gaussian Mixture model And Proportion t
261 Here
we introduce the host insect as an expedient model envir
262 We introduce the Interaction Factor (IF), a measure for
263 In this study,
we introduce the lectin Tetragonolobus purpureas aggluti
264 velopments in DNA structural nanotechnology,
we introduce the nanoswitch-linked immunosorbent assay (
265 We introduce the notion of an OPO's neighborhood-a colle
266 In this study,
we introduce the novel outcome of "received critical car
267 Here,
we introduce the PhILR transform, which incorporates mic
268 Here,
we introduce the process of colloidal catalysis, in whic
269 We introduce the R package BoolFilter for Partially-Obse
270 We introduce the single-sample Noob ( ssNoob ) method, a
271 Here
we introduce the Sphagnome Project, which incorporates g
272 In this study,
we introduce the SteadyCom optimization framework for pr
273 Here,
we introduce the steps required to create high-quality i
274 We introduce the synthesis and in-depth characterization
275 We introduce the theory of hdNMR and partially randomly
276 Herein,
we introduce the thermodynamic stability theory, derived
277 Here, for the first time,
we introduce the true multiorbital correlation theory, c
278 In this study,
we introduce the use of a micropatterned polydimethylsil
279 Here
we introduce the use of the genetically encoded fluoresc
280 We introduced the biotinylated knottin-RGD peptide inste
281 Earlier
we introduced the concept of 'nanochemoprevention' i.e.
282 Thus,
we introduced the enantiopure (R)-2-methyl-2-isocyano-3-
283 Therefore,
we introduced the HCM mutation E56G into a single-cystei
284 We introduced the orthologous mutation into a mouse stra
285 Finally,
we introduced the S148C mutation into a polyketide synth
286 Here,
we introduce this dynamic utility function to several ga
287 Here
we introduce three previously uncharacterized, nondirect
288 of these FN1 mutations on the protein level,
we introduced three disease-associated missense variants
289 We introduced three new corpora suggesting named-entity
290 rtance of a reduced relaxation energy, which
we introduce to characterize thermally activated CT proc
291 In this work,
we introduce,
to our knowledge, a new set of adhesion-ba
292 Recently,
we introduced,
to our knowledge, a novel carotenoid carr
293 In conclusion, here
we introduce TrkC-miR2 as a novel regulator of Wnt signa
294 In this work,
we introduce two simple, reproducible, low-cost, and eff
295 Here,
we introduce two-dimensional correlation spectroscopy (2
296 Here,
we introduce two-dimensional polarimetry as means of dir
297 In this study,
we introduce two-pore channels (TPC), a recently describ
298 We introduce unexplored, alpha-enaminone synthones and r
299 The method
we introduce uses precast gelatin-based molds in which a
300 Instead of taking this approach,
we introduce versatility, V, as a novel metric of nodal