Results for Bioconjugation Kits ( 145 )
- Ref: INVIVOCTL7.5From: £526.00
This Control CHP is a scrambled version of the Target that does not bind to unfolded collagen.The collagen hybridizing peptide (CHP) is a novel and unique peptide that specifically binds unfolded collagen chains both in vitro and in vivo.[1 2 3] By sharing the Gly-X-Y repeating sequence of natural collagen CHP has a strong capability to hybridize with denatured collagen chains by reforming the triple helical structure in a fashion similar to DNA fragments annealing to complementary DNA strands. CHP is extremely specific: it has negligible affinity to intact collagen molecules due to lack of binding sites and it is inert towards non-specific binding because of its neutral and hydrophilic nature.The in vivo CHP incorporates our newest sequence which allows them to be directly injected into animals without having to pre-activate them with a heating step. [4] Therefore the in vivo CHPs will always be in their active form and will not self-hybridize once injected. [4] The sCy7.5-
- From: £1,615.00
This kit contains 10 doses (24 nmoles) of the Target and 3 doses (8 nmoles) of the Control In Vivo Collagen Hybridizing Peptide Sulfo-Cy7.5 Conjugate.The collagen hybridizing peptide (CHP) is a novel and unique peptide that specifically binds unfolded collagen chains both in vitro and in vivo.[1 2 3] By sharing the Gly-X-Y repeating sequence of natural collagen CHP has a strong capability to hybridize with denatured collagen chains by reforming the triple helical structure in a fashion similar to DNA fragments annealing to complementary DNA strands. CHP is extremely specific: it has negligible affinity to intact collagen molecules due to lack of binding sites and it is inert towards non-specific binding because of its neutral and hydrophilic nature.The in vivo CHP incorporates our newest sequence which allows them to be directly injected into animals without having to pre-activate them with a heating step. [4] Therefore the in vivo CHPs will always be in their active form and