In the presentstudy, the artificial spider silk polymer, 6mer ((SGRGGLGGQGAGAAAAAGGAGQGGYGGLGSQGT) 6, 16 kDa) [10], was utilized to produce three different chimeras by fusing SiBPs A1, A3 and R5, respectively, to the C-terminus, to investigate the effect of molecular weight (MW) of silk domain in the fusion protein on the formation of silk–silica composite particles at the solution–solution
interface. In addition, recombinant silk protein and chimeras were fabricated into solid-state materials to investigate capacity and morphology of silica condensation on their surfaces.
In the presentstudy, the artificial spider silk polymer, 6mer ((SGRGGLGGQGAGAAAAAGGAGQGGYGGLGSQGT) 6, 16 kDa) [10], was utilized to produce three different chimeras by fusing SiBPs A1, A3 and R5, respectively, to the C-terminus, to investigate the effect of molecular weight (MW) of silk domain in the fusion protein on the formation of silk–silica composite particles at the solution–solutioninterface. In addition, recombinant silk protein and chimeras were fabricated into solid-state materials to investigate capacity and morphology of silica condensation on their surfaces.
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