1 We designed a board game called "Gut Check: The Microbiome Ga
2 We designed a device containing an array of electrically driv
3 Herein,
we designed a fibronectin-targeting CREKA-modified liposomal
4 We designed a FOXO4 peptide that perturbs the FOXO4 interacti
5 To this end,
we designed a general framework, BeWith, for identifying modu
6 Here,
we designed a genetic screen around E. coli that identified h
7 Herein,
we designed a graphene foam/TiO2 nanosheet hybrid, which is a
8 We designed a heterotrimer from three pairs of heterodimeric
9 Thus,
we designed a high-throughput chemical screen platform to qua
10 Here
we designed a labeling strategy based on the bifunctional mCh
11 We designed a lymphangiogenic gene set (VEGFC, Nrp-2, PDPN, L
12 We designed a mathematical model to correlate the time consta
13 We designed a metasurface that converts left- and right-circu
14 To this end,
we designed a minigene (M), and in combination with a series
15 We designed a new computer-based algorithm that quantitativel
16 We designed a Phase II trial to assess whether a neurocritica
17 We designed a quasi-experimental intervention study with an i
18 osensitizers by cancer cells in photodynamic therapy (PDT),
we designed a smart plasma membrane-activatable polymeric nan
19 To demonstrate the capabilities of our method,
we designed a spatial-mode demultiplexer, wavelength demultip
20 To circumvent these problems,
we designed a system where the endogenous TCR-beta is knocked
21 We designed ADAGE signature analysis to perform gene set anal
22 We designed an alternative ICU staffing model to increase con
23 We designed an approach to target an extracellular matrix pro
24 We designed an ecological study taking as study unit Galician
25 We designed and applied dynorphin-inspired photoaffinity prob
26 We designed and developed a one-step synthesis of 5-amino-4-c
27 Here,
we designed and developed a range of molecule-level graphitic
28 We designed and optimized a synergic system based on two bifu
29 e beta2-adrenoceptor agonists procaterol and BI-167107 (4),
we designed and synthesized a collection of novel hydroxy-sub
30 On the basis of a Weinreb amide hit compound,
we designed and synthesized a diverse set of methoxybenzothio
31 We designed and synthesized a new azobenzene-based dark quenc
32 In this study,
we designed and synthesized a novel class of glucoside amphip
33 In this manner,
we designed and synthesized two new luminophores with direct
34 We designed and tested 22,660 mini-proteins of 37-43 residues
35 Thus,
we designed and tested simple de novo 98-residue polypeptides
36 In this study,
we designed experiments to examine the effects of two differe
37 Based on a resource allocation model,
we designed experiments to test how exposure to stressors may
38 To test our model,
we designed five different RNA hybridization networks with a
39 and electrospray conditions together with an automated tool
we designed for exhaustive mass spectra matching, the promisc
40 We designed HRM-specific primers for the Mytilus genus to ide
41 Using simulations and ex vivo measurements,
we designed mid-field antennas capable of operating efficient
42 tion pathways and their associated correlation communities,
we designed mutants to tune the mechanical stability of the w
43 We designed novel 4'-modified 2'-deoxy-2'-fluorouridine (2'-F
44 Here,
we designed novel ketal cross-linked cationic nanohydrogel pa
45 We designed novel PET imaging probes for the murine and human
46 We designed our strategy to select against re-targeting the '
47 We designed our study to assess the reliability and validity
48 ransition in the overall energetics of receptor activation,
we designed point-mutants (alanine to phenylalanine) in the p
49 To exert control over this rate-limiting step,
we designed sequence-specific synthetic transcription elongat
50 We designed soft artificial branches perforated with longitud