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Cross-linking strategy

Tang, X., Munske, G.R., Siems, W.F., and Bruce, J.E. (2005) Mass spectrometry identifiable cross-linking strategy for studying protein-protein interactions. Anal. Chem. 77, 311-318. [Pg.1120]

Hamdan, F. F., Ward, S. D., Siddiqui, N. A., Bloodworth, L. M., and Wess, J. (2002) Use of an in situ disulfide cross-linking strategy to map proximities between amino acid residues... [Pg.261]

Figure 5.17 Noncovalent cross-linking strategies of cyanuric acid functionalized poly-CA to form (a) poly-CA-triazine by using a diaminotriazine cross-linking agent or (b) poly-CA-wedge by using an isophthalamide cross-linking agent. Figure 5.17 Noncovalent cross-linking strategies of cyanuric acid functionalized poly-CA to form (a) poly-CA-triazine by using a diaminotriazine cross-linking agent or (b) poly-CA-wedge by using an isophthalamide cross-linking agent.
Ojida A et al (2003) Cross-linking strategy for molecular recognition and fluorescent sensing of a multi-phosphorylated peptide in aqueous solution. J Am Chem Soc 125(34) 10184—10185... [Pg.175]

CeUulose-Based Hydrogels and Cross-Linking Strategies.548... [Pg.535]

Cross-linking Strategies Employing Affinity Tags or Stable... [Pg.83]

Cross-linking Strategies Employing Solution-phase ... [Pg.84]

FIGURE 4.6 General representation of (a) affinity labeled, (b) stable isotope labeled, and (c) solution cleavable cross-linking strategies used to identify cross-liiiked peptides. [Pg.103]

Cross-Linking Strategies Employing Solution-phase Cleavage Sites... [Pg.104]

Cross-Linking Strategies Empeoying Gas-phase Ceeavage Sites... [Pg.104]

Jonker AM, Borrmann A, van Eck ERH et al (2015) A fast and activatable cross-linking strategy for hydrogel formation. Adv Mat 27 1235-1240... [Pg.78]

Figure 6 Various supramolecular cross-linking strategies based on (a) the three-point CA-triazine couple and the six-point CA-isophthalamide (Hamilton wedge) couple (b) ruthenium-terpyridine coordination complexes (c) and (d) the platinum- or palladium-based pincer complexes. ... Figure 6 Various supramolecular cross-linking strategies based on (a) the three-point CA-triazine couple and the six-point CA-isophthalamide (Hamilton wedge) couple (b) ruthenium-terpyridine coordination complexes (c) and (d) the platinum- or palladium-based pincer complexes. ...
This subchapter will describe how to prepare thin silicone elastomeric films for DBAs and includes a brief survey of present cross-linking strategies, how backbones can be modified with substituents other than methyl, and which composites have been developed to improve material performance. Cross-linking is required to obtain attractive elastic properties, while modification with polar substituents and the creation of composites aim at increasing the permittivity and therefore serve to increase the response of the material to an external electrical stimulus. [Pg.688]

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