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1 ficiently and precisely processed into gRNAs with desired 5' targeting sequences in vivo, which direc
5 a general approach to advanced NP catalysts with desired activity and durability control for practic
6 engineering modified FGF9 subfamily ligands, with desired activity for use in both basic and translat
7 s with experiments in the quest for surfaces with desired activity, an advanced concept in nanoscale
8 glycan structures for individual antibodies with desired activity, we have developed an effective me
9 nctional structures that bind target ligands with desired affinities in physiological concentrations
10 s (HSCs) is an alternative to create T cells with desired Ag specificity, because in this case expres
11 linearized dynamics, sinusoidal oscillations with desired amplitudes and periods, and a complex wavef
14 biomaterials of required mechanical strength with desired balance between stiffness and plasticity.
16 practical use in the engineering of peptides with desired binding properties and will aid in the inte
21 ed the chances for finding binding molecules with desired biological properties; however, achieving d
23 rement allows early selection of a cell line with desired characteristics (e.g., oligosaccharide prof
24 bilities to conveniently select participants with desired characteristics, and participants from diff
30 y to new assembled inorganic suprastructures with desired chiroptical response for wide-ranging funct
32 ter-soluble nearly monodisperse nanocrystals with desired composition and architecture, including cor
33 ent approach to fabrication of nanocatalysts with desired compositional distributions and performance
35 manufacturing future energy-storage devices with desired deformability together with high performanc
38 The ultimate goal is to obtain a material with desired elastic properties in as few iterations as
41 ein-protein interactions, design of proteins with desired flexibility or rigidity, and prediction of
42 ers flexibility for direct functionalization with desired functional groups (e.g., -COCH3, fluorescei
43 posed of short organic chains and terminated with desired functional groups are attractive for modify
45 ic control to self-organized superstructures with desired functionalities is an important leap necess
47 phase evolution allow manipulating materials with desired functionalities, and can be developed via r
50 nstruction of devices, systems and organisms with desired functionality based on modular well-charact
61 an 6000-fold improvement in ASBT inhibition with desired minimal systemic exposure of this locally a
62 es to predictably access conjugated polymers with desired Mn and highlights the importance of optimiz
63 ation of polymers that may be functionalized with desired moieties arrayed in a controlled fashion, t
64 ovements generated by electrical stimulation with desired movements yielded root mean squared errors
65 ot only easily identifies developing animals with desired mutations but also efficiently quantifies t
66 me 3 (ORF3), we constructed five HEV mutants with desired mutations in the ORF1 and ORF2 junction reg
69 This powerful tool uses a pre-existing guide with desired nanoscale features to direct the formation
73 s further optimization to obtain a candidate with desired nuclear magnetic resonance (NMR) properties
77 lization retaining their biological activity with desired orientation, to facilitate electron transfe
78 modular construction of foldable structures with desired performance and manufacturing scalability.
81 economical method to produce building blocks with desired physical properties for new generation of e
87 etic approaches used for obtaining materials with desired properties and the factors to be considered
88 researchers who aim to synthesize RNA pools with desired properties and/or experiment in silico with
90 hnique that can be used to identify proteins with desired properties from both natural proteome and c
92 d to the identification of protein sequences with desired properties from various natural proteome li
93 e system upon adding selective nanomaterials with desired properties in a multicomponent mixture foll
94 ic control to self-organized superstructures with desired properties is an important leap necessary i
96 ry evolution has generated many biomolecules with desired properties, but a single round of mutation,
119 owledge, we could rationally design peptides with desired residues to manipulate peptide-graphene int
120 which could be used to design novel peptides with desired self-assembly properties, by tuning a few p
122 cale chemical species, such as nanoparticles with desired shapes and compositions, offers the excitin
123 vested in the construction of nanostructures with desired shapes and physical and chemical properties
126 uidelines for producing surface nanodroplets with desired sizes by controlling the flow conditions.
127 fficiently uncovered developmental enhancers with desired spatial and temporal expression patterns in
129 he engineering of highly active FAR proteins with desired specificities for the production of fatty a
131 resent a novel platform for creating ligands with desired specificity, and they offer many potentiall
132 t success in designing Ca2+-binding proteins with desired structural and functional properties opens
135 ionship study of MDRR agents, some compounds with desired substructural features and activity were id
139 d N-alkylaminooxy groups enables conjugation with desired target molecules via established chemoselec
143 uccessful example of rational design of MOFs with desired topology, but also provides a strategy for
144 ul implementation of rational design of MOFs with desired topology, but also provides a systematic wa
147 lowed a rapid generation of multiple vectors with desired transgenes inserted in the deleted ICP6 loc
148 s to accelerate the development of cultivars with desired yield potential, quality, and enhanced adap
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