1 Here, we present 2 patients receiving such combination o
2 Here we present a chemical vapor deposition approach to
3 Here we present a combination of eight primer pairs to i
4 Here we present a comprehensive review of TAK1 signaling
5 Toward this goal,
here we present a convenient workflow for cryo-EM struct
6 Here we present a cryo-electron microscopy structure of
7 Here we present a detailed atomistic description for bot
8 Here we present a dynamic ranking of host genes implicat
9 Here we present a framework for categorizing urban biodi
10 Here we present a fully enzymatic real-time glucose moni
11 Here we present a global analysis of no-till-induced cha
12 Here we present a global investigation of the relation b
13 Here we present a global N(2)O inventory that incorporat
14 Here we present a global water tower index (WTI), which
15 Here we present a high-throughput nanoluciferase severe
16 Here we present a human genome assembly that surpasses t
17 Here we present a mathematical framework which reveals t
18 Here we present a new technique based on band-pass filte
19 Here we present a novel integrated approach to automatic
20 Here we present a pertinent comparison between multiple
21 Here we present a phylogeographic study of the extinct A
22 Here we present a platform to relate the effects of cell
23 Here we present a polymer- and transfer-free direct-etch
24 Here we present a pyrazolate-based bis(beta-diketiminato
25 Here we present a quantitative interpretation of induced
26 Here we present a reference of sequence-resolved SVs con
27 Here we present a resource that allows detailed descript
28 Here we present a revised mechanism, wherein for the fir
29 Here we present a robust, transparent and updateable met
30 Here we present a Saccharomyces cerevisiae version of th
31 Here we present a series of studies utilizing lung spher
32 In conclusion,
here we present a simple tool, extensible to Orbitrap-ba
33 Here we present a solution in the form of a scale-free,
34 Here we present a statistical method, SPARK, for identif
35 To circumvent this issue,
here we present a study of developing Vibrio cholerae bi
36 Here we present a technique that does this by linking mu
37 Here we present a trait-based mathematical framework for
38 Here we present a wireless, non-invasive technology that
39 Here, we present a 27-plex TMT method coupled with two-d
40 Here, we present a 3.1 angstrom resolution cryo-EM struc
41 Here, we present a Bayesian approach, NobBS (Nowcasting
42 Here, we present a benchtop corneal puncture injury mode
43 Here, we present a biomolecular reaction process that re
44 Here, we present a case of endothelial graft rejection w
45 Here, we present a cohort of 20 individuals referred for
46 Here, we present a combined analysis of 135 fungal genom
47 Here, we present a combined biophysical and biochemical
48 Here, we present a compilation of >4000 rates of alluvia
49 Here, we present a comprehensive LC-MS/MS based approach
50 Here, we present a computational framework that aligns C
51 Here, we present a computational methodology and mathema
52 Here, we present a cryo-electron microscopy (cryo-EM) st
53 Here, we present a customizable bead-based system capabl
54 Here, we present a deep learning framework to capture pa
55 Here, we present a direct method based on molecular dyna
56 Here, we present a facile technique, which uses a thin f
57 Here, we present a family with two siblings displaying a
58 Here, we present a framework to quantitatively infer com
59 Here, we present a functional and structural characteriz
60 Here, we present a further step in UISS framework implem
61 he identification efficiency of cross-links,
here, we present a gas-phase separation strategy using h
62 Here, we present a general approach to access solid-stat
63 Here, we present a high-throughput microfluidic platform
64 Here, we present a highly efficient R-package seqminer2
65 Here, we present a highly sensitive, rapid and multiplex
66 Here, we present a kinetic approach complemented by a hy
67 Here, we present a large-scale dataset of 849 3D reconst
68 Here, we present a machine-learning method comparing pro
69 Here, we present a mechanistic foundation for the way sp
70 Here, we present a membrane-permeabilized ghost system t
71 Here, we present a method called 'genomic neighbour typi
72 Here, we present a method for finding the connectivity o
73 Here, we present a method for predicting clinically rele
74 Here, we present a method for separating all stages of P
75 Here, we present a method for stimulating the secretion
76 Here, we present a method to quantify a functional E/I r
77 Here, we present a methodology for converting virtually
78 Here, we present a model that shows introgression makes
79 Here, we present a multiplex human pluripotent stem cell
80 Here, we present a new game theoretical approach to mode
81 Here, we present a new gap-filling method that computes
82 Here, we present a new generation of DiLeu tags that ach
83 Here, we present a new genetically engineered mouse mode
84 Here, we present a new global mangrove biophysical typol
85 Here, we present a new platform, TREND (tree-based explo
86 Here, we present a new technique to probe the microrheol
87 Here, we present a novel approach for in situ extraction
88 Here, we present a novel approach integrating lncRNA-mRN
89 Here, we present a novel method, Metalign, that performs
90 Here, we present a novel molecular mechanism for COVID-1
91 Here, we present a PET biodistribution and radiation dos
92 Here, we present a phylogeny-informed proteomics approac
93 Here, we present a privacy-preserving framework based on
94 Here, we present a procedure for a small-scale precrysta
95 Here, we present a proof-of-concept study to noninvasive
96 Here, we present a protein design algorithm called TopoB
97 Here, we present a protocol for the extraction of microg
98 Here, we present a proton-driven nanotransformer-based v
99 Here, we present a radical method for reversible, light-
100 Here, we present a reagent-agnostic automated SARS-CoV-2
101 Here, we present a regularization method that improves c
102 Here, we present a resource of SaB prognostic biomarkers
103 Here, we present a scalable, HTS-compatible workflow for
104 Here, we present a scRNA-seq platform, named Paired-seq,
105 Here, we present a selective maleylation-directed isobar
106 Here, we present a self-amplifying RNA encoding the SARS
107 Here, we present a self-propelled particle system, consi
108 Here, we present a series of Bi(3+)/In(3+) mixed-cationi
109 Here, we present a simple and robust CRISPR-Cas12a-based
110 Here, we present a simple method to determine a CDOM pho
111 Here, we present a simple, low-cost technique, termed el
112 Here, we present a single-cell aggregation and integrati
113 Here, we present a social-ecological model that explores
114 Here, we present a specific and potent substrate, an inh
115 Here, we present a structural model of the endogenously
116 Here, we present a structure-activity relationship study
117 Here, we present a systematic framework for detecting in
118 Here, we present a systematic investigation of charge di
119 Here, we present a time-resolved chemical proteomic stra
120 Here, we present a two-dimensional optomechanical crysta
121 Here, we present a two-point internal calibration (2-PIC
122 Here, we present a unique sedimentary record of the back
123 Here, we present a zwitterionic hydrophilic interaction
124 Here, we present ACTINN (Automated Cell Type Identificat
125 Here, we present Adenita, a novel software tool for the
126 Here, we present advanced materials that support operati
127 Here we present an alternative media formulation, HAN, c
128 Here we present an alternative route to creating flat ba
129 Here we present an argument for utilizing environmental
130 Here we present an artificial intelligence (AI) system t
131 Here we present an automated benchmarking workflow, usin
132 Here we present an End-to-End deep learning framework, c
133 To address this challenge,
here we present an enzymatic method to clean up and reco
134 Here we present an instrument that combines an open-top,
135 sment and mechanistic hypothesis generation,
here we present an intuitive webtool allowing a user to
136 Here, we present an advanced toolbox of cell cycle tag c
137 Here, we present an All-In-One Dual CRISPR-Cas12a (AIOD-
138 Here, we present an analytical approach that uses summar
139 Here, we present an approach for efficient quantum proce
140 Here, we present an approach to characterize MAG-ganglio
141 Here, we present an approach to modulate extruded inks a
142 Here, we present an effort to create a "clean" Chinese h
143 Here, we present an experimental and computational metho
144 Here, we present an expert assessment of the drivers of
145 Here, we present an improved setup, named the extended f
146 Here, we present an in vitro human model that simulates
147 Here, we present an in vivo analysis of Rh-PPO, our most
148 Here, we present an interstrand salt bridge between (4S)
149 Here, we present an intervention-free approach to mathem
150 Here, we present an iron-crosslinked rosmarinic liposome
151 Here, we present an open-source computational pipeline t
152 Here, we present analytical diffusion distribution analy
153 Here, we present and analyse trends in the UK distributi
154 Here, we present and validate a novel method of MRI velo
155 Here, we present BAlaS, an interactive web application f
156 Here we present CAFE 5, a completely re-written software
157 Here, we present carbon isotope data from more than 1,05
158 Here we present CheckV, an automated pipeline for identi
159 Here, we present chemically-detailed conformational movi
160 Here we present CNV Radar, a software tool that utilizes
161 Here we present complementary tools for cell labeling wi
162 Here, we present conclusive evidence that opioid toleran
163 Here we present cryo-electron microscopy (EM) data resol
164 Here, we present cryo-electron microscopy (cryo-EM) stru
165 Here, we present cryo-EM maps of SARM1 at 2.9 and 2.7 an
166 Here we present cryoelectron microscopic structures of t
167 Here, we present crystal structures of Teneurin-Latrophi
168 Here, we present crystallographic and cryo-electron micr
169 Here, we present data from a retrospective analysis usin
170 Here, we present decRiPPter (Data-driven Exploratory Cla
171 Here we present DeepRiPP, an integrated genomic and meta
172 Here, we present DRAM (Distilled and Refined Annotation
173 Here, we present Easy-HLA, a web-based software suite de
174 Here, we present Ens-Grad, a machine learning method tha
175 Here we present evidence that a social stratum of this t
176 Here we present evidence that ketamine is an effective L
177 Here we present evidence that N-Wasp, a protein regulati
178 Here, we present evidence for quantum teleportation of e
179 of another single-celled organism.IMPORTANCE
Here, we present evidence of the first virus found to in
180 Here, we present evidence that FAAP20 is acetylated by t
181 Here, we present evidence that the miRNA is expressed fr
182 Here, we present evidence to support a hierarchical proc
183 Here, we present experimental observations of ion transp
184 Here, we present expert-augmented machine learning (EAML
185 Here we present FastClone, a top-performing algorithm in
186 Here, we present fiber-enhanced Raman spectroscopy (FERS
187 Here, we present full-field experimental measurements of
188 Here we present functional reconstitution of an MCU-EMRE
189 Here, we present GiniQC, which quantifies unevenness in
190 Here, we present global analyses of viral transcript lev
191 Here, we present glycosylation profiles of recombinant g
192 Here we present Hybridization of Probes to RNA for seque
193 Here we present IDACombo, an IDA based method to predict
194 Here, we present initial investigations on the time-depe
195 Here we present iScore, a novel approach to scoring dock
196 Here, we present its 326 Mb genome, assembled to high co
197 Here, we present Manatee, an algorithm for the quantific
198 Here we present MemSTATS, a publicly available benchmark
199 Here we present Merqury, a novel tool for reference-free
200 Here, we present methylome association by predictive lin
201 Here, we present miEAA 2.0, supporting miRNA input from
202 Here, we present motif enrichment in differential elemen
203 Here, we present NACHO ('NAnostring quality Control dasH
204 Here we present near-atomic-resolution structures of hum
205 dress this and other phylogenetic questions,
here, we present new reference genome assemblies for 3 O
206 Here, we present new results on the source, decompositio
207 Here, we present new tools to overcome these limitations
208 Here, we present NINscope: a light-weight miniscope with
209 Here, we present non-invasive detection of pancreatic du
210 Here, we present ORF Capture-Seq (OCS), a flexible metho
211 ch as cross-talk with the carbon PTS system,
here we present our first effort to develop a model of n
212 Here we present our results to evaluate the synthesis of
213 Here, we present our new study on using an eigenforce mo
214 Here we present oxygen isotope measurements of mineral i
215 Here we present Padhoc, a pipeline for pathway ad hoc re
216 Here we present paleomagnetic data from Saint Helena, a
217 Here, we present Physcomitrella patens as the second pla
218 Here, we present prokaryotic expression profiling by tag
219 Here we present recently available data on the atmospher
220 Here we present Rerep-Seq, a technique that selectively
221 Here we present results from the first 5 weeks of the st
222 Here, we present results from a dual-domain column exper
223 Here, we present results of a stochastic agent-based mic
224 Here we present RNA structure analysis using nanopore se
225 Here, we present robust evidence that attention speeds t
226 Here we present scanning tunnelling microscopy studies o
227 Here we present SequelTools, a command-line program cont
228 Here we present several structures of human PANX1 in a h
229 Here, we present several case studies of complex changes
230 Here, we present several lines of evidence supporting th
231 Here we present SigProfilerSimulator, a powerful tool th
232 Here we present single-particle cryo-EM studies of ABCG2
233 Here we present solution and X-ray crystallographic stud
234 Here, we present statistically robust relationships betw
235 Here we present structures of PIPS from Mycobacterium ka
236 Here, we present such a model and demonstrate that monoc
237 Here, we present tappAS, the first framework to enable a
238 Here, we present Tensorpac, an open-source Python toolbo
239 Here, we present that the photogranules' growth occurs w
240 Here we present the 1.9- angstrom crystal structure of t
241 Here we present the 96-week data for the study.
242 Here we present the circuit-based implementation of a di
243 Here we present the current HUGO Gene Nomenclature Commi
244 Here we present the developing knowledge, practical cons
245 Here we present the first analysis of the N- and O- and
246 Here we present the first crystal structure of the extra
247 Here we present the first exact analysis of the probabil
248 Here we present the first experimental test of a new mod
249 Here we present the first high-resolution structure of t
250 Here we present the genetic interaction profiles of APE2
251 Here we present the genomes of Chrysomya rufifacies, a m
252 Here we present the high-resolution cryo electron micros
253 Here we present the initiation of the Archaeal Proteome
254 Here we present the structure of a CCC, the Mus musculus
255 Here we present the structures of the ferroportin from t
256 Here we present the synthesis and characterization of a
257 Here we presented the fabrication of a recombinant fusio
258 Here, we present the 1.56 angstrom resolution structure
259 Here, we present the all-fiber modular optical tweezers
260 Here, we present the Allen Mouse Brain Common Coordinate
261 Here, we present the biteOscope, a device that attracts
262 Here, we present the carbon isotope (delta(13)C) megaspl
263 Here, we present the convergence of 3D printed and paper
264 Here, we present the cost-effectiveness.
265 Here, we present the cryo-electron microscopy structure
266 Here, we present the cryo-EM structure of a frog pannexi
267 Here, we present the cryo-EM structure of the UMOD filam
268 Here, we present the crystal structure of GP38 at a reso
269 Here, we present the crystal structure of GP38, which re
270 Here, we present the crystal structure of M(1)AChR in co
271 Here, we present the crystal structure of the Escherichi
272 Here, we present the crystal structure of the LRP6 E1E2-
273 Here, we present the crystal structures of four function
274 Here, we present the design of a novel TRPM2 antagonist,
275 Here, we present the detailed electronic structure of Cr
276 Here, we present the first application of AI-ETD to mAb
277 Here, we present the first evidence of the formation of
278 Here, we present the first much-needed genome-wide trans
279 Here, we present the first structure of the FdsBG subcom
280 Here, we present the FOXN1 structure in complex with DNA
281 Here, we present the full-length structure of PfMyoA in
282 Here, we present the Genome Detective Coronavirus Typing
283 Here, we present the near-atomic structures of the BBSom
284 Here, we present the results of a bottom-up proteomics s
285 Here, we present the results of a QTL mapping study for
286 Here, we present the results of a systematic study apply
287 Here, we present the results of novel in situ deep sea p
288 Here, we present the results of two independent studies-
289 Here, we present the scenario projections of global urba
290 Here, we present the successful introduction of multiple
291 Here, we present the terrains' first geologic examinatio
292 Here we present three new records of silicon isotopes in
293 Here, we present three-dimensional reconstructions of Na
294 Here we present,
to our knowledge, the most comprehensiv
295 Here we present two cryo-electron microscopy structures
296 Here, we present two cryoelectron microscopy (cryo-EM) s
297 Here, we present two novel distance measures, Common Anc
298 Here we present U-Pb ages for impact-driven shock-recrys
299 Here we present unique simultaneous radiocarbon age meas
300 Here, we present Very Fast Flux Variability Analysis (VF