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1 dia (saliva with 5%, 10%, or 20% inactivated human serum).
2 uracy of 98.9% in PBS, and 100% in undiluted human serum.
3 on HDL and albumin when it is incubated with human serum.
4 as optimized, and stability was evaluated in human serum.
5 or point-of-care diagnostics with samples of human serum.
6 or in vitro detection of Abeta aggregates in human serum.
7 nfirmed in a background of minimally diluted human serum.
8 ctrometry for rapid quantitation of 25OHD in human serum.
9 n (nanomolar range) in complex media such as human serum.
10 essfully applied to the detection of CD56 in human serum.
11 Extracellular RNAs (exRNAs) are present in human serum.
12 and furthermore 58 glycans are enriched from human serum.
13 causes prolongation of aptamer stability in human serum.
14 ) to quantify 25-hydroxyvitamin D (25OHD) in human serum.
15 om as low as 100 fg/mL of analytes spiked in human serum.
16 els containing only bovine synovial fluid or human serum.
17 gel was used for the analysis of proteins in human serum.
18 yrylcholinesterase enzyme (BChE) activity in human serum.
19 assays or background drift correction in 50% human serum.
20 ted by measuring Zika antigen in a simulated human serum.
21 evels of SRM 972a are composed of unmodified human serum.
22 a hemolymph, and also had a growth defect in human serum.
23 yolk and phospholipids/phosphopeptides from human serum.
24 tide alone, and showed enhanced stability in human serum.
25 to quantify glucose in honey, white wine and human serum.
26 ith macrophage colony-stimulating factor and human serum.
27 of the LIS device for detecting L-Alanine in human serum.
28 uit C1-INH to their surfaces when exposed to human serum.
29 selectivity that allowed us to detect LYS in human serum.
30 irectly measuring biological samples such as human serum.
31 abilized against degradation by nucleases in human serum.
32 more sensitive to beta-lactam antibiotics in human serum.
33 e mouse serum samples and a curated panel of human serum.
34 fHbp and promotes survival of N. cinerea in human serum.
35 ssfully identified from 161 glycoproteins in human serum.
36 lpha9alpha10 nAChR and improved stability in human serum.
37 ed enrichment of N-linked glycopeptides from human serum.
38 ation formats such as cell culture media and human serum.
39 mug/mL and operating well in the presence of human serum.
40 4) CFU/mL were successfully performed in 25% human serum.
41 concomitant with its inability to survive in human serum.
42 of zika, dengue, and chikungunya virus from human serum.
43 r MIC in this tissue culture medium with 20% human serum.
44 diotracers were immunoreactive and stable in human serum.
45 he mechanisms of these processes in mice and human serum.
46 to quantify 14 antiepileptic drugs (AEDs) in human serum.
47 ilieu of immune response proteins present in human serum.
48 entrations; and retains its functionality in human serum.
49 ce the minute amounts of absorbed Ara h 2 in human serum.
50 determine the level of Ara h 2 absorption in human serum.
51 y and retains its immunoreactive capacity in human serum.
52 formance of the designed system in undiluted human serum.
54 enrichment of PSA from a complex matrix of a human serum; 5) direct incubation of anti-PSA modified M
56 thmic BoNT/A concentrations in PBS, milk and human serum across a 0.27-268pgmL(-1) range and associat
57 3-LAHLA is the most abundant LAHLA isomer in human serum after ingestion of liposomes made of fractio
58 y depleting highly abundant proteins such as human serum albumin (>10(10) more abundant than cTnI).
59 ml PSA as high as 7-fold increase versus the human serum albumin (HSA) and 8-fold increase versus the
60 ntify pH-dependent conformational changes in human serum albumin (HSA) and cytochrome C by monitoring
61 ities towards the target biomarker proteins (human serum albumin (HSA) and human immunoglobulin G (HI
62 ermodynamics and kinetics of binding between human serum albumin (HSA) and resveratrol (RES) or its a
63 hierarchical structure for determination of human serum albumin (HSA) are designed and fabricated.
64 is study was to investigate the potential of human serum albumin (HSA) as a solubilising agent/drug d
65 resence of a high concentration (500 muM) of human serum albumin (HSA) as an interfering protein in t
69 cused on bovine serum albumin (BSA), leaving human serum albumin (HSA) comparatively understudied.
70 ein nanoparticle (SPNP) based on polymerized human serum albumin (HSA) equipped with the cell-penetra
75 finity for PSMA and appropriate affinity for human serum albumin (HSA) may demonstrate a higher thera
76 e of solution chemistry on the adsorption of human serum albumin (HSA) proteins on graphene oxide (GO
77 ally determined binding affinity of DOX with human serum albumin (HSA) was considered to simplify the
78 cyanate (FITC) after fluorescent labeling of human serum albumin (HSA) with electromembrane extractio
79 on of complexes with albumin (in particular, human serum albumin (HSA)) are fundamental for the chara
80 human glutathione S-transferase pi (hGSTP), human serum albumin (HSA), and bovine serum albumin (BSA
82 abundantly expressed extracellular protein, human serum albumin (HSA), inhibits alphaS oligomer (alp
83 , in the presence of physiological levels of human serum albumin (HSA), the r(1) relaxivity is amplif
84 enous inhibitor of Abeta self-association is human serum albumin (HSA), which binds approximately 90%
85 llenges, we rationally developed a drug-free human serum albumin (HSA)-based therapeutic (KH-1) that
92 librium dissociation constant for Zn(2+) and human serum albumin (Kd = (5.62 +/- 0.93) x 10(-7) M) un
93 -relevant delivery systems (liposomes and in human serum albumin [HSA]-fusion products) in combinatio
96 e was identified by X-ray crystallography in human serum albumin at drug site 3, which is also known
103 Noncovalent binding of biopharmaceuticals to human serum albumin protects against enzymatic degradati
104 er, lapatinib release from a nanoshell-based human serum albumin protein host complex resulted in inc
105 of the emodin and aloe-emodin derivatives to human serum albumin ranged from -7.30 and -10.62 kcal/mo
106 whole blood was removed and replaced with 5% human serum albumin to reduce haemoglobin concentration
108 Here, we examine the binding of an ABD to human serum albumin using isothermal titration calorimet
109 an antibody binding site, HSA Peptide 40, on human serum albumin with nanomolar affinity for all thre
111 ost completely removes p-cresyl sulfate from human serum albumin, a protein that these uremic toxins
112 1), 0.49 T, 37 degrees C) in the presence of human serum albumin, allowing a significant MRI signal i
114 ds in lysozyme and all 17 disulfide bonds in human serum albumin, including nested disulfide bonds an
115 hosphatase 4A3 binds to at least one site on human serum albumin, which is likely to extend the compo
116 We focused on modifications to Cys34 in human serum albumin, which is responsible for scavenging
126 3 N-glycosylation sites were identified from human serum and 149 glycopeptides derived from 129 glyco
128 nstrated to provide robust quantification in human serum and are shown to be compatible with each of
131 ed each member of this library for growth in human serum and discovered 178 mutants with significant
132 terol and 17,20-dihydroxypregnalumisterol in human serum and epidermis, and the porcine adrenal gland
134 AuNPs in various analytical matrixes such as human serum and natural creek water (Highland Creek, ON)
135 ed with this approach, low interference from human serum and other proteases and good reproducibility
136 iron oxide core-shell nanoworms incubated in human serum and plasma are rapidly opsonized with the th
137 trate ficolin-2/-3 heterocomplexes in normal human serum and plasma by ELISA using Abs specific for f
139 ny formation, as well as reduced survival in human serum and reduced adherence to human cervical and
140 s 20 copies of Ebola virus templates in both human serum and saliva and could be adapted to distingui
141 the receptor binding domain of SARS-CoV-2 in human serum and saliva, and for quantifying immunoglobul
142 presence of other nontarget microorganisms, human serum and shellfish homogenate, supporting the pot
143 assay for measuring the activity of sCD73 in human serum and show a strong linear correlation between
144 PEG-LA) were unstable in fetal bovine serum, human serum and synovial fluid, with varying levels of i
145 ion, for the isolation of EVs from 200 ul of human serum and their separation from non-EV protein and
149 reatly improved resistance to degradation in human serum and, surprisingly, displayed up to 52-fold h
150 challenged with either excess La(3+) ions or human serum, and did not accumulate in any organ after 5
151 PCB 11 and its metabolites are present in human serum, and emerging evidence demonstrates that PCB
154 on of the peptide is biochemically stable in human serum, and most serum-stable fragments have full a
156 egative-ion mode to phospholipids present in human serum, and the data set was used to evaluate the v
157 d collectively promote Y. pestis survival in human serum, antibiotic resistance, and cell envelope in
158 Immunoglobulin G1 (IgG1), a subclass of human serum antibodies, is the most widely used scaffold
159 l (SRM) 972a Vitamin D Metabolites in Frozen Human Serum as a replacement for SRM 972, which is no lo
161 y applied to analyze the N-glycan changes in human serum associated with hepatocellular carcinoma (HC
164 , surface plasmon resonance, and competitive human serum bactericidal assay, which is a surrogate for
165 on, this method showed excellent recovery in human serum (between 80 and 120% for all analytes).
166 ne diseases by highly sensitive measuring in human serum both critical characteristics of autoantibod
167 fied standard solutions and 1 muL samples of human serum, both glycoproteins can be immunocaptured an
169 idespread environmental contaminant found in human serum, breastmilk, and other tissues, capable of l
170 TKO PBMCs was significantly greater than of human serum, but there was no significant difference bet
171 Despite, CRP antigen was further detected in human serum by spiking CRP to run-through the detection
173 like protein 22 (CDH22), a cancer marker, in human serum by using easy and quickly prepared disposabl
176 enotypes in E. coli, including resistance to human serum, cosedimentation of human vitronectin, and p
182 onally measured endogenous GM-CSF and IL6 in human serum from n = 14 human subjects using our mobile
183 Indeed, direct exposure of PCCL3 cells to human serum from two patients with Graves' disease, but
184 characterizing two abundant and well-studied human serum glycoproteins, alpha-1-antitrypsin and immun
185 ment of human galectin-3 (hGal-3C) and three human serum GPs, alpha-1-acid glycoprotein (AGP), haptog
186 erumoxytol was incubated in media containing human serum (group 1), fetal bovine serum (group 2), Ste
190 S aureus extracellular proteins targeted by human serum IgG4 were identified by means of immunoblott
193 extent and allowed the recognition of NSE in human serum in a concentration range of 25-4000 pg/mL.
197 eover, the practical determination of AFP in human serum is also investigated, demonstrating its appl
199 of a standardized mixed meal showed that the human serum metabolome is remarkably stable: The median
201 nvestigating the temporal variability of the human serum metabolome under such tightly controlled con
203 cell-culture supernatant (and eventually in human serum) on magnetic particles modified with antibod
204 004 wt % of the total protein in 1:4 diluted human serum or 0.024 wt % of the total protein from brea
206 tifying C-reactive protein concentrations in human serum over a large portion of the physiological ra
207 roduced with taurolidine, hydrogen peroxide, human serum, potassium iodide and doxorubicin/ oxaliplat
208 ty in different in vitro models of VC (i.e., human serum, primary cell cultures, and tissue explants)
210 rnal factors, such as glucose, ascorbic acid human serum protein, immunoglobulin G, and immunoglobuli
211 ased from several glycoprotein standards and human serum proteins, we demonstrated that the Y1 ion tr
212 demonstrated in the analysis of a certified human serum reference material yielding excellent accura
214 viruses in the presence of either a bNAb or human serum resulted in rapid expansion of the mutant.
217 tra-high sensitivity detection in buffer and human serum sample down to 600 zM and 20 aM, respectivel
218 The determination of cytochrome c in the human serum sample is a regular medical investigation pe
219 Five sensor prototypes were tested in a human serum sample over one week and the maximum deviati
220 sed sensor was successfully used with spiked human serum sample with a limit of detection of 81 pM Th
222 the algorithm is demonstrated for correcting human serum samples analyzed by Fourier-transform mass s
223 ulation data with antibody binding data from human serum samples demonstrated qualitative and quantit
228 ept, the technology platform was tested with human serum samples spiked with exosomes derived from he
230 work, a DNA biosensor to detect ZIKV in real human serum samples was developed using an oxidized glas
231 imultaneous detection of CA125 and CA15-3 in human serum samples was evaluated and the obtained resul
232 concentration values directly measured in 35 human serum samples were found closely correlated to tho
234 Combining small RNA sequencing from 179 human serum samples with a neural network analysis produ
237 ssing West Nile viral IgM antibody levels in human serum samples yielding analyte detection limits co
238 lume in (~5 muL), performs sample cleanup on human serum samples, and delivers a small volume out, fo
239 )) of IgG antibody (CR3022) to SARS-CoV-2 in human serum samples, demonstrating the efficacy of these
240 7 (a tumor biomarker candidate) in undiluted human serum samples, operating with very low sample volu
241 was successfully applied in a cohort of 140 human serum samples, showing good sensitivity (64.6%) as
242 was successfully applied in a cohort of 127 human serum samples, showing good sensitivity (97.6%) as
243 emonstrated for its practical application in human serum samples, suggesting a promising application
244 can routinely measure PSA concentrations in human serum samples, very low concentrations have to be
245 sitivity and selectivity to quantify ZIKV in human serum samples, which suggests its promising clinic
258 The linear range for thrombin detection in human serum solution is from 10 pM to 1 muM, with a regr
259 f added L-glutamate acid (50 and 100 muM) in human serum soup were 96.1% and 97.5% respectively.
260 potency, receptor selectivity, and enhanced human serum stability to target the human alpha9alpha10
261 These prodrugs showed excellent stability in human serum (t(1/2) > 12 h) and potent activation of Vga
262 ntly used to measure the cancer biomarker in human serum that allows detecting 12 times lower concent
263 nded for the detection of a model protein in human serum, that is, human immunoglobulin G, with the a
264 When S. pneumoniae D39 was opsonized with human serum, the larger C4 activation products C4b and i
267 detection of multiplex cardiac biomarkers in human serum to expedite medical decisions for enhanced p
268 nveil the potential use of their quantity in human serum to mark the pathological elicitation of thes
269 ng of propofol, both in PBS and in undiluted human serum, to demonstrate that ML-based model solves e
270 rocedure significantly impacts EV yield from human serum, together with the presence of lipoprotein a
272 ty for the detection of CEA even in the real human serum, upon which it is proposed for the early det
274 etection of the cardiac marker troponin I in human serum using sample volumes of ~1 muL and with a li
275 ection of prostate specific antigen (PSA) in human serum using silicon nanowire field effect transist
276 deficient in incorporation of linoleate from human serum verifying the role of FakB3 in this process.
279 Neisseria meningitidis after incubation with human serum was completely C3-dependent, as detected by
280 s detection and quantification of HEV RNA in human serum was developed based on an adaptation of a pr
281 e four DENV serotypes spiked into 50% normal human serum was increased by at least a factor of 5 when
284 Recoveries of these proteins from spiked human serum were 85-115% or better, depending slightly o
285 ults from determination of HIV DNA target in human serum were obtained showing great potential of the
286 rus, dengue virus, and chikungunya virus, in human serum were simultaneously detected on the all-in-o
287 ng the presence of CPS type-specific IgGs in human serum when sample volumes are limited and/or numer
288 ection of 10(5) exosomes muL(-1) directly in human serum, when performing the immunomagnetic separati
289 2 monoclonal antibody spiked into monkey and human serum, where lower limits of quantification (LLOQ)
290 ated fatty acids and glycerophospholipids in human serum, where uncommon isomers of low abundance wer
291 nM in phosphate-buffered saline and 5 nM in human serum, which are physiologically relevant concentr
292 nd successfully exploited to analyze SGPs in human serum, which highlighted the feasibility of this s
293 erol efflux to acceptor (apo)lipoprotein and human serum, while loss of TSPO resulted in impaired cho
296 alysis of squamous cell carcinoma antigen in human serum with recoveries of 97.3%, 102.4% and 107.4%.