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1 To characterize the nuclear and cytoplasmic transcriptomes du
2 To characterize the relative importance of environmental cond
3 To characterize the survival benefit of accepting DCD50 kidne
7 We used multidimensional statistical analyses to characterize the impact of age on the overall changes in t
8 erformed a comprehensive immunomolecular biomarker analysis to characterize the role of immune cells and inhibitory check
9 n of protein semisynthesis, NMR, and enzymological analysis to characterize structural features of the PH domain in its a
10 ls the potentiality and mechanism of the comprehensive ANLI to characterize the complicated ACRHP.
11 This workflow was automated and applied to characterize substrate transport kinetics and to test 294
12 lly, we conducted a household survey in each catchment area to characterize care seeking for febrile illness.
13 Yet, many current in vitro chemical assays to characterize antioxidant potential do not truly reflect th
15 es of silencing of covalently closed circular DNA (cccDNA), to characterize this dissociation, and virological outcomes.
16 and performed experiments with suspended human cancer cells to characterize the performance of the sensor platform.
17 ng number and diversity of sequenced species, the challenge to characterize genes with functional information is even mor
19 ulation (TMS) and simultaneous electroencephalography (EEG) to characterize individual brain dynamics within discrete bra
20 netheless, in recent years considerable efforts have ensued to characterize alternative electrophiles that exhibit irreve
21 ugh a number of noninvasive tests and scoring systems exist to characterize NAFLD and NASH, liver biopsy is the only acce
22 use of biologically motivated, structure-agnostic features to characterize molecules, should serve to mitigate these iss
23 embryonic day 12 submandibular and parotid salivary glands to characterize their molecular identities during bud initiat
24 ine gliomas with those of human pediatric and adult gliomas to characterize evolutionarily conserved mammalian mutational
25 me stamp" NK cells and type 1 innate lymphoid cells (ILC1s) to characterize the dynamics of their homeostatic turnover.
28 e intermediates at low temperature and creates a new method to characterize elusive intermediates in multiple redox-centr
29 We established a novel bioelectrochemical platform to characterize the catalytic behavior of NDH-2 from Caldalka
30 We design a simulated perturbation process to characterize the contribution of each gene to the overall
31 ds (47 burned, 32 unburned) throughout central Saskatchewan to characterize above- and belowground carbon stocks and comb
32 We use small-angle X-ray scattering (SAXS) to characterize the structure of this carotenoprotein in two
34 erimental and computational methodology that uses scRNA-seq to characterize dynamic cellular programs and their molecular
35 We applied nanopore-based direct RNA sequencing to characterize the developmental polyadenylated transcriptom
37 ulation-based data from ~22,000 persons of known HIV status to characterize migratory patterns and their relationship to
38 ges generates a diversity of structures that are sufficient to characterize a minor conformational state of the C-termina
39 ke venom gland in comparison with several non-venom tissues to characterize physiological and cellular processes associat
40 port rapid evolvability of disomic strains that can be used to characterize fitness effects of mutations under different
41 Near-isogenic lines (NILs) can be used to characterize, dissect and validate QTL, but the developmen
42 mass spectrometry coupling (HPLC-MS/MS) is classically used to characterize post-transcriptional modifications of ribonuc
43 Climate simulation-based scenarios are routinely used to characterize a range of plausible climate futures.
44 rial will provide a brief review of several techniques used to characterize the surface and interface regions of biologic