1 orous MOF environment suggests a potentially
general solution.
2 lem for which robotic engineering affords no
general solution.
3 tial in the standard models alter these more
general solutions.
4 We obtained a
general solution and applied it to four unique environme
5 Here we have developed a
general solution-
based chemical method for intercalating
6 The transformed scores offer a
general solution for analyzing a wide variety of sequenc
7 The implementation of a
general solution for assessment of functional immune res
8 This work discloses the first
general solution for converting oligoalkynes into polyar
9 Here, we present a
general solution for determining an optimal superpositio
10 remained unclear whether the CLec fold is a
general solution for DGRs.
11 Bicyclic peptides of this type may provide a
general solution for inhibition of protein-protein inter
12 tif-specific scaffold strategy may provide a
general solution for rapid, robust development of anti-P
13 eaction of d synthetic equivalents, finds no
general solution for reactions involving aliphatic acyl
14 mization of designed peptide materials and a
general solution for stabilizing the collagen triple hel
15 cine in collagen with aza-glycine provides a
general solution for stabilizing triple helical collagen
16 The box-nanocrystals may represent a
general solution for the commonly encountered instabilit
17 The knock-in approach provides a
general solution for the study of proteins to which anti
18 A
general solution for the synthesis of various oxetan-3-o
19 ions are used selectively rather than as the
general solution mechanism.
20 The synthesis was accomplished using a
general solution-
phase synthetic procedure which allows
21 Genetic assortment is the only
general solution stabilizing cooperation, but all known
22 The
general solution states that the optimal basal root grow
23 eveloped the oligo package to provide a more
general solution that supports a wide range of applicati
24 t of iodonium ylides has been developed as a
general solution to catalytic onium ylide rearrangements
25 Our approach represents a
general solution to describing the supertertiary structu
26 ation of neural connectivity may represent a
general solution to maintain coherent synaptic transmiss
27 perative catalysis constitutes a potentially
general solution to the direct catalytic asymmetric alph
28 concepts of causality and irreversibility a
general solution to the inverse scattering problem (or "
29 Here we describe a
general solution to the long-standing problem associated
30 This new methodology represents a
general solution to the problem of beta-amino carbonyl s
31 conformational sampling could lead to a more
general solution to the protein docking problem.
32 Here we provide a
general solution to this challenge by developing an opti
33 We present a
general solution to this issue by rotating the bias fiel
34 s responsible for a drug's action), though a
general solution to this long-standing challenge remains
35 We report here a
general solution to this long-standing problem with four
36 exciting new development that may provide a
general solution to this long-standing problem.
37 Here we describe a straightforward and
general solution to this potentially difficult design pr
38 We report here that a
general solution to this problem exists in the form of t
39 A
general solution to this problem is given, for either fo
40 Also, a
general solution to this problem is proposed by formulat
41 Here we present a
general solution to this problem which takes easily obta
42 As a
general solution to this problem, we genetically encoded
43 Toward a
general solution to this problem, we report here the Mic
44 We now provide a
general solution to this problem.
45 ir-stable boronates 1 has finally provided a
general solution to this problem.
46 We herein report the first
general solution to this problem: in situ slow release o
47 uripotent stem (iPS) cells may now provide a
general solution to this shortage of human neurons.
48 General solutions to the integrated dissolution model de
49 linked social-ecological systems and deduce
general solutions to the overuse of resources.
50 st-microbe interaction, there are only a few
general solutions to the problem of intracellular surviv
51 General solutions to this problem require geometric desc
52 Here we report a
general solution using two fundamental biological proces
53 With this
general solution,
we are able to determine the two impor
54 included along with demonstrations that the
general solution yields the correct behavior for several