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1  assembly of FN, and contraction of collagen matrices.
2 h the conventional formalism of transmission matrices.
3 e components on complex and transformed food matrices.
4 er design spin trapping experiments for food matrices.
5 ds, spiked within various complex biological matrices.
6 fness of the completely demineralized dentin matrices.
7 h can be easily transferred to other natural matrices.
8  its derivatives in different fermented food matrices.
9 e attachment to host cells and extracellular matrices.
10 r to quantify water intake into starch-based matrices.
11 th that of other main carotenoids from these matrices.
12 ficient methods to generate aligned collagen matrices.
13 acuum oven drying to prepare dry, flour-like matrices.
14 low gas phase concentrations or in inert gas matrices.
15 ying the similarity between Hi-C interaction matrices.
16  regularization procedure to cope with large matrices.
17 ied by IR spectroscopy in argon and nitrogen matrices.
18 d to the four chromatographic-fingerprinting matrices.
19  construct covariance (Q) or correlation (R) matrices.
20  (JRFR) to jointly consider top substitution matrices.
21 ical reconstruction of single-photon density matrices.
22 ach to acrylamide determination in different matrices.
23  can be mapped to particular forms of payoff matrices.
24 ed for elimination of co-extracts from fatty matrices.
25 tion efficiency, respectively, for the above matrices.
26  for the generation of 2(4-1) design and CCD matrices.
27 haracterization of total polyphenols in food matrices.
28 ength dependence with a selected set of such matrices.
29 urine (simulated urine) as standard clinical matrices.
30  to BPA and other small molecules in various matrices.
31 direct detection of nucleic acids in complex matrices.
32 red by the leading eigenvector of dynamic FC matrices.
33 efficiently and directionally on CAF-derived matrices.
34 er and might easily be adapted to other food matrices.
35 oactive compounds in reference and real food matrices.
36 played by the nonlinear mechanics of fibrous matrices.
37 bioactive peptides present in different food matrices.
38 rentiating abrin and its isoforms in complex matrices.
39  water and two commercially available buffer matrices.
40 s and 30-300CFUmL(-1) in spiked complex food matrices.
41 sed reference miRNAs in the three biological matrices.
42 d to the extraction of parabens from complex matrices.
43 asure forces between cells and extracellular matrices.
44 ch as organoids or three-dimensional complex matrices.
45 tiate iAs from less toxic arsenicals in food matrices.
46 ld be easily incorporated in lipid-rich food matrices.
47 applied for the analysis of complex chemical matrices.
48  NPs in complex biological and environmental matrices.
49 ousands of molecular ions in complex organic matrices.
50  secondary metabolites in complex biological matrices.
51 markers at low concentrations and in complex matrices.
52 es on the choice of amino acids substitution matrices.
53 east tumor cells embedded within 3D collagen matrices.
54 e detection of bio warfare agents in complex matrices.
55 works from the estimated sparse biclustering matrices.
56 tion of organosulphur compounds in different matrices.
57 ineered nanomaterials (ENM) in environmental matrices.
58 , CBDV, Delta(9)-THCV, and CBG in biological matrices.
59 n and quantification of cannabinoids in food matrices.
60 or detection of target DNA in complex sample matrices.
61 es related to direct measurements in complex matrices.
62 n which generates one-off in-memory distance matrices.
63 ded migration of CSCs in aligned 3D collagen matrices.
64 rum of GMOs in routine analysis of food/feed matrices.
65 cs varies for agricultural and surface water matrices.
66  during the processing or storage of starchy matrices.
67 to penetration of three-dimensional collagen matrices.
68 hods for pesticide residue analysis in these matrices.
69 d, and on-site detection of bacteria in real matrices.
70 tivity of the method from the complex sample matrices.
71 tion coefficients (R(2)) above 0.997 for all matrices.
72 lin (SHBG) levels were measured in the three matrices.
73 ysis of aroma-active terpenes in liquid food matrices.
74 ultiple corneal cell types and extracellular matrices.
75 oxidant compounds present in food and herbal matrices.
76 ns but resistant in its dry form and in food matrices.
77 their respective applications in real sample matrices.
78 (SMX) antibiotics in agriculturally relevant matrices.
79 aluated in reference fecal samples and water matrices.
80 in localizing biomolecules within biological matrices.
81 is compared to well-established substitution matrices.
82 elds to reveal hierarchical clusters in data matrices.
83 detect high amount of furan in fried starchy matrices.
84 l-like HL-60 cells crawling through collagen matrices.
85 lability of our method with relatively large matrices (2514x2514) of structural and functional connec
86  built from our predictions and substitution matrices achieve an 85% accuracy predicting outcomes of
87 n incorporated into hybrid organic-inorganic matrices affording light-yellow materials that develop i
88 th sizes of 2.0-3.4 mum) comprise SiO2 glass matrices and 10-nm-sized Zn-Fe-oxide nanoparticles asso
89  Microglia also respond to astrocyte-derived matrices and become hyperactivated in the Lamc3(-/-) ret
90 tance of quantifying these compounds in food matrices and biological fluids.
91 nique substrates to create possible reaction matrices and compiled these data into a browsable databa
92 F attachment (12.7-fold) compared with other matrices and components.
93 communities respond to heterogeneous organic matrices and how this ultimately affects heterotrophic r
94  correlation of compounds between biological matrices and its consequences on MANOVA results.
95 etection of chemokines in various biological matrices and its interaction with a natural receptor mol
96  matrix (feed or fillet) and between the two matrices and negatively correlated with the delta(2)H an
97 in many cases be isolated in low-temperature matrices and observed spectroscopically.
98 ue to the non-toxic nature of immobilization matrices and simple but elegant immobilization procedure
99 ectrochemical properties of pyrogenic carbon matrices and the kinetic preference of functional groups
100 pesticides present in food and environmental matrices and their quantitative determination by MS via
101 to quantify differences between Hi-C contact matrices and to determine the optimal sequencing depth f
102 ole milk than in the other investigated milk matrices) and ensured the reliability of the results.
103    Although structural models (stoichiometry matrices) and pathway databases are extremely useful, th
104 different network types (binary vs. weighted matrices), and (4) different brain parcellation schemes
105  fluctuations are suppressed on the stiffest matrices, and fluctuation spectra reveal a high nuclear
106 ng/enriching analytes of interest in complex matrices, and it can be directly coupled with MS instrum
107 h the cell culture plates, the extracellular matrices, and the cell membrane.
108 o corresponding spider body part measurement matrices, and the matrix from the normalized input was f
109 ary DEHA metabolites were identified in both matrices, and the relative proportion of the secondary m
110                       The surface tension of matrices, and the wettability and diffusion of water and
111 inetic isotope effects in nitrogen and argon matrices ( approximately 5 and >100, respectively).
112  and subsequently characterized in cryogenic matrices (Ar and N2 ).
113 ized the speed and efficacy at which complex matrices are analyzed.
114                                      Biofilm matrices are aqueous gel-like structures composed of pol
115 eractions between organic matter and mineral matrices are critical to the preservation of soil and se
116 erning biomolecules and cells on nanofibrous matrices are explored here by combining inkjet printing
117             In contrast, cells in nonfibrous matrices are found to be rounded and not polarized, unde
118                                        Rigid matrices are further required for eventual expression of
119                                  Correlation matrices are important in inferring relationships and ne
120 combine information from multiple biological matrices are potentially more powerful.
121 agents known as prions exist within cellular matrices as populations of assembled polypeptide phases
122 dings of patients and use these connectivity matrices as the network structure in our model.
123 ference materials with inorganic and organic matrices as well as widely varying amounts of uranium ra
124 ith water molecules by annealing water-doped matrices at 25 K.
125 ing on the availability of the full relation matrices at any stage of the resulting algorithm, allowi
126 ral species of crab spiked into complex food matrices at levels ranging from 0.1 to 10(5) parts per m
127 pically characterized in the gas phase or in matrices at very low temperatures.
128 elated with two alternative similarity model matrices: AVmaps = VAmaps versus AVmaps not equal VAmaps
129 od for visible detection of bacteria in real matrices based on the aggregation of AuNPs without requi
130  tested furan classification models in fried matrices based on the pattern recognition of images.
131                 Adequate pretreatment of the matrices before their fusion was crucial to attain relia
132 detect ZIKV directly from crude human sample matrices (blood, urine, and saliva) demonstrates our dev
133 cilitates fabricating them as solid hydrogel matrices by adding divalent calcium ions.
134 s, the detection of nanomaterials in complex matrices by fluorescence methods is complicated by photo
135 s suitability for analysis of ENM in complex matrices by measuring ENM agglomeration and sedimentatio
136    Ultrastructural analysis of MMP-3 treated matrices by transmission electron microscopy revealed re
137  genome-wide scale estimation of correlation matrices can also be computationally demanding.
138                                 Biopolymeric matrices can impede transport of nanoparticulates and pa
139 I) oxidation by Mn oxides within fixed solid matrices common to soils and sediments.
140 nt need to review legislative limits in food matrices consumed by children and to perform a more accu
141                             Our substitution matrices contain rich information relevant to mutation a
142 l protein), but was significantly higher for matrices containing calcium chelating salts.
143 ACa(++)) decreased during manufacture of the matrices containing calcium chelating salts; with approx
144 d use of rapid immunological methods in food matrices containing phenolic compounds.
145                                   Warming of matrices containing pure triplet p-tolyl(trifluoromethyl
146                    These were added to dairy matrices, containing cream and whey proteins, of differe
147 inclusion of anthocyanins into dairy and egg matrices could affect their stability after processing a
148 that the inclusion of anthocyanins into food matrices could be an effective way to protect them again
149 with that of hair which indicated that these matrices could be used in tracing the geographical origi
150                 The application to different matrices demonstrated the versatility of the proposed me
151 AS concentration ratios varied between blood matrices, depending on the compounds.
152  our research group, related to fluorescence matrices derived from kinetics and high-performance liqu
153              Higher moisture content of food matrices did not substantially increase OTA elimination.
154 ative composition profiles of PFASs in blood matrices differed.
155 ular endothelial growth factor (VEGF), while matrices displaying pathological levels of CS were effec
156 mergent contaminant perchlorate in vegetable matrices down to nanomolar concentration.
157 ersion and assembly behaviors within polymer matrices due to the entropy variation associated with co
158 , and animal distribution throughout habitat matrices during events, could influence the degree of po
159 ns by which fibroblasts contract provisional matrices during wound healing.
160 rations of analyte within complex biological matrices (e.g. serum or plasma) based upon the relations
161 ification is applicable only for homogeneous matrices (e.g., tang yuan).
162 ectin is a master organizer of extracellular matrices (ECMs) and promotes the assembly of collagens,
163 ies on the aberrant control of extracellular matrices (ECMs) have mainly focused on the role of malig
164 l scaffolds, or decellularized extracellular matrices (ECMs), embody an ideal treatment platform due
165                          Excitation-emission matrices (EEM's) of different cereal flours (wheat, corn
166 gether with fluorescence excitation-emission matrices (EEM).
167  applied to fluorescence excitation emission matrices (EEMs) allows quantitative assessment of the co
168 on the interpretation of excitation emission matrices (EEMs) by PARAFAC analysis and by selecting flu
169 olysis of phenylphosphirane in (3)P-O2 doped matrices enabled the spectroscopic identification of a h
170  included tests of detection in complex food matrices, evaluation of commercial food products, and cr
171                       However, many powerful matrices exhibit peak absorptions which differ notably f
172                                  Spin system matrices expand the applicability of NMR spectral librar
173 oibos and rose hip) cover the most important matrices (flower, fruit, seed, herb, leaf) and reflect t
174                           The use of cleaner matrices (foliage, exposed smooth surfaces, sand) is rec
175 ve used the software to generate spin system matrices for a set of key mammalian metabolites and are
176  extensively utilized as probes and affinity matrices for a wide variety of applications in biochemic
177 e commonly used in tissue engineering and as matrices for biophysical studies.
178 ic preference of functional groups or carbon matrices for electron transfer remain unknown.
179 lly expressed in the limbal niche as culture matrices for epithelial tissue engineering.
180 on as delivery vehicles of large drugs or as matrices for guiding protein crystallization.
181 or binding preferences as position frequency matrices for multiple species in six taxonomic groups.
182 wealth of HLA ligands resulted in prediction matrices for octa-, nona-, and decamers.
183 ctive surgery, development of new innovative matrices for skin repair is in demand.
184 low ng/mL range in various food and clinical matrices for the isoforms of abrin and also the closely
185 engineered matrices that mimic living tissue matrices for tissue regeneration therapy.
186 d (UB) cells grown in three-dimensional (3D) matrices formed organoids that consisted of primitive va
187 les, gene and exon expression quantification matrices (Fragments Per Kilobase Of Exon Per Million Fra
188 od, we construct two amino acid substitution matrices from the prediction statistics and use them to
189 collecting and analyzing multiple biological matrices from the same subject such as serum, plasma, ti
190 e same time in urine and liver which are the matrices generally collected within the official monitor
191 our) or sparse (for FindNeighbour2) distance matrices given a set of sequences.
192 spiked into buffer and human and mouse serum matrices giving recoveries in the range of 80-120%.
193        Its presence in various environmental matrices has been reported.
194 of small amounts of nanofillers in polymeric matrices has enabled new applications in several industr
195 ese exhibit few or no cycles, and associated matrices have small leading eigenvalues.
196 the great dispersing attitude in a plenty of matrices, have made graphene powerful in large-scale pro
197  purple corncob (PCC) anthocyanin extraction matrices (hot water, 40% ethanol, C18 purified), drying
198 FAC) of fluorescence excitation and emission matrices identified six components: Model 1 (pheophytin-
199 sualize the viscosity of intragranular mucin matrices in a large population of individual granules in
200 nd protection of bioactive molecules in food matrices in different food production and storage stages
201  the rheological properties of mucin granule matrices in live cells.
202 nted muSPE device was applied to challenging matrices in oil and gas industry, such as crude oil and
203 ey, which is one of the most complex natural matrices in terms of saccharides composition, this innov
204  sufficient for cell penetration of collagen matrices in the absence of Ncad.
205 ked to the winding numbers of the reflection matrices in the electrodes, which also equal to the bulk
206             Degradation of the extracellular matrices in the human body is controlled by matrix metal
207                   PCB concentrations in most matrices in the lake are decreasing, which drove the dec
208  optical absorption exhibited by some of the matrices in the visible wavelength range, ion yields gen
209 y used in recent years to look at biological matrices, in particular for biomedical research, althoug
210 vasion that were mediated by cell-associated matrices including symbiotic polysaccharide (Syp) and ce
211 ethods are needed to quantify BPA in various matrices including water, serum, and food products.
212 els of contaminants in various environmental matrices, including fish tissue.
213                         However, HA-enriched matrices increased production of vascular endothelial gr
214 cter 'un-scoring' using three published data matrices indicate that this approach is flawed and shoul
215 f carcinoma collectives on fibrillar FN-rich matrices is achieved through alphavbeta6 and alpha9beta1
216 , the generation and maintenance of distance matrices is computationally intensive, and rapid methods
217 oundly enhanced motility in aligned collagen matrices is observed for the subpopulation of carcinoma
218 e algae antimicrobial potential in real food matrices is still a research niche, being meat and baker
219                The main issue for biological matrices is the complexity of the mass spectra and there
220 t of exposure through analysis of biological matrices is, however, tedious as well as logistically an
221 rk, as well as the eigenvalues of associated matrices, is determined by a structural property called
222 covery after processing largely varied among matrices, mainly due to the treatments applied and the i
223 pplicability of the method in different food matrices might mean it has potential as a reference stan
224 thocyanin content of four different enriched matrices, namely custard dessert, milkshake, pancake and
225 ated plasma-induced lipid oxidation of model matrices, namely dairy and meat fats.
226 osphorus were pervasive in the mitochondrial matrices of a variety of mammalian cell types.
227 of gaining access to conventional diagnostic matrices of blood, serum and others.
228                          Excitation-emission matrices of different red wine samples, without pretreat
229 fferent feeding regimens in different sample matrices of infants, 166 infants were enrolled from two
230 apable of encasing therapeutic molecules and matrices of interest to be eluted into the region of int
231 ies in Pakistan based on multiple biological matrices of the exposed workers and indoor dust samples.
232 g the invasion of melanoma cells in collagen matrices of varying concentration.
233                               However, these matrices often fail to capture the dynamic and heterogen
234 nanoparticulate species.Biological polymeric matrices often use molecular anchors, such as antibodies
235 oalkyl substances (PFASs) in different blood matrices, particularly for novel PFASs such as polyfluor
236 ivariate Analysis of Variance Using Distance Matrices (PERMANOVA) were used to determine the relation
237 e into water-swellable biocompatible polymer matrices (polyurethane hydrogels), thus enabling continu
238 ltures of HGFs were grown on Type I collagen matrices previously treated with MGO.
239                                      Thus MP matrices produce more functionally active NMJs-in-a-dish
240                                  Spray dried matrices produced with soy protein isolate had the highe
241                        The use of six-sample matrices provided a standard deviation on the results, a
242 overy study were carried out in the selected matrices, providing good linearity, relative recovery va
243            Phylogenetic analyses of selected matrices, ranging from 81 to 1,675 orthogroups and up to
244 ated based on the interaction of two complex matrices (red wine and saliva) by combining localized su
245 rst compared a comprehensive 95 substitution matrices reflecting various amino acids properties in pr
246  relaxation rates in rigid trehalose/sucrose matrices reveal approximately temperature independent va
247 monitoring of these residues in this type of matrices scarcely explored.
248 ro stability studies in different biological matrices show that 5'-exonuclease is the most prevalent
249 e first time in biological and environmental matrices, showing stereoselective metabolism of mephedro
250                          We show that enamel matrices stain positive for amyloids and we identify a s
251 on on the perception of fruity aromas in the matrices studied.
252 ect ranged from -17.8% to 19.9% in the three matrices studied.
253 he pathological destruction of extracellular matrices such as cartilage in osteoarthritis (OA).
254 rtant to determine the properties of natural matrices such as foodstuff and food ingredients.
255 eta-zearalenol and zearalanone, from complex matrices such as milk (whole and skimmed cow milk and se
256 n-target screening" in complex environmental matrices (such as wastewater treatment plant effluents).
257 active M-L multiple bonds within crystalline matrices supports direct characterization of these criti
258                                      For all matrices tested, matrix effects were negligible starting
259 tent across samples result in sparse feature matrices that are statistically hard to handle.
260 inforces the need to fabricate bioengineered matrices that mimic living tissue matrices for tissue re
261                                      In food matrices, the elimination of OTA by gamma-radiation was
262 ls of cell-cell communications in 3D fibrous matrices.The structure and mechanics of tissues is const
263 ial for enhancing the performance of polymer matrices, their reinforcement role still needs to be fur
264 d area of a cell and its nucleus across many matrices, timescales, and myosin-II activity levels indi
265                          We used correlation matrices to compute environmental and genetic disease cl
266  six tests performed on six different sample matrices to detect and characterize the effects of the m
267  seed extract [e-GSE]) and applied to dentin matrices to determine changes to the mechanical properti
268 ed in biochemically and mechanically defined matrices to examine matrix-mediated gene expression and
269  into ZIFs, and hybridization with polymeric matrices to form mixed matrix membranes for industrial g
270  with imprints that can be made into polymer matrices to mimic biological systems at a molecular leve
271 ecognition cavities can be made into polymer matrices to mimic lock-and-key actions seen in in vivo b
272 ials have been extensively used as alternate matrices to minimize the low molecular weight interferen
273 ry equations by converting the inversions of matrices to simpler vector manipulations.
274 ested (0 h, 24 h, 14 d) as well as two water matrices (ultrapure water and river water), including a
275  we infer high resolution brain connectivity matrices using diffusion imaging data from the Human Con
276 ion of 11 mycotoxins in plant-based beverage matrices, using a QuEChERS extraction followed by ultra-
277                Compatibility with biological matrices was demonstrated by the direct detection of rRN
278 nation of nitroguanidine in aqueous and soil matrices was developed.
279  manufacture of semi-solid casein-based food matrices was investigated and found to be very different
280        Diffusivity of nanocarriers in fibrin matrices was limited and could be improved significantly
281 gnificant interference present in the sample matrices was observed.
282 -protein nitrogen food additive from complex matrices was synthesized and characterized using FT-IR,
283 inactivation rates in wastewater and similar matrices, we extracted data to construct a model predict
284                                       Gellan matrices were both gels and solutions.
285                    Spatial cross-correlation matrices were built from real data to index the similari
286 eriences with different environmental sample matrices were considered in an improved and universally
287 ons and not the mechanical properties of the matrices were the dominant factor in the interpretation
288        Compositional biplots and correlation matrices were used to group centered log ratio transform
289                                              Matrices were validated in terms of their binding predic
290 nd it decreases in cells in aligned collagen matrices, where migration is facilitated.
291 e ATP:ADP ratio increases in cells in denser matrices, where migration is impaired, and it decreases
292 s in their capacity to remodel extracellular matrices, which has a direct impact on aqueous outflow r
293 g of biomonitoring data from different blood matrices, which is key knowledge for performing both exp
294 mbly rules by species-to-species association matrices, which may be estimated at multiple spatial or
295  also the incorporation of anthocyanins into matrices with different compositions and structures coul
296 lytes in serum, plasma, and other biological matrices with high sensitivity and specificity.
297                  Here, we show that collagen matrices with small pores and short fibers, but not Matr
298 roviding biological insight into subcellular matrices without well-designed fluorescent tags/probes.
299 acteria that can be used in different sample matrices would be beneficial.
300 rocyclopentadienylidene with BF3 in rare gas matrices yields a zwitterion consisting of a cyclopentad

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