SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3122453920> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W3122453920 endingPage "014002" @default.
W3122453920 startingPage "014002" @default.
W3122453920 abstract "Abstract Mineral deposition in biological systems is often templated by organic matrices including proteins directing the nucleation and growth of bioceramics by interacting with early stage species of the mineralization process or coordinating specific facets of the forming crystal. Structurally, charged surface patches are a characteristic motif of biomineralization-associated proteins, which are able to accumulate and bind ions from the surrounding media and, therefore, initiate, promote or inhibit mineralization. Controlled protein engineering enables the manipulation and control of bioinspired in vitro precipitation systems, and thus not only opens prospects for the design of environmentally benign synthetic strategies towards hierarchically structured functional materials, but also enhances the understanding of fundamental interaction mechanisms in biomineralization processes. Here, two recombinant variants of the spider silk protein ADF4 were engineered with oppositely charged peptide tags. Both were processed into micrometer-sized particles and investigated for their influence on manganese carbonate mineralization. Micro- and nano-structured manganese carbonate represents an attractive material for diverse applications including catalysis and wastewater treatment. While both types of spider silk particles were incorporated into the mineral structure, the positively tagged proteins appeared to interact more strongly with the formed manganese carbonate crystals than their negatively charged counterparts. Combination of the spider silk particles and poly(acrylic acid) (PAA), a water-soluble structure-directing agent associated with the stabilization of amorphous precursor phases in carbonates, resulted in the formation of film-like non-equilibrium structures of MnCO 3 entrapping the spider silk particles. With the aim to gain mechanistic insights and to elucidate the interaction between the different components involved in the mineralization process, we studied the interplay between PAA, positively or negatively tagged spider silk particles, and Mn(II) ions by time-resolved dynamic light scattering. The here used set-up affords the possibility to identify control strategies for the template-mediated mineralization of manganese carbonate." @default.
W3122453920 created "2021-02-01" @default.
W3122453920 creator A5016125513 @default.
W3122453920 creator A5028953248 @default.
W3122453920 creator A5031345745 @default.
W3122453920 creator A5043996285 @default.
W3122453920 creator A5085660128 @default.
W3122453920 date "2021-02-09" @default.
W3122453920 modified "2023-10-18" @default.
W3122453920 title "Recombinant major ampullate spidroin-particles as biotemplates for manganese carbonate mineralization" @default.
W3122453920 cites W1484646597 @default.
W3122453920 cites W1962132222 @default.
W3122453920 cites W1965557910 @default.
W3122453920 cites W1970637125 @default.
W3122453920 cites W1971492969 @default.
W3122453920 cites W1975208948 @default.
W3122453920 cites W1981683588 @default.
W3122453920 cites W1981925512 @default.
W3122453920 cites W1982922717 @default.
W3122453920 cites W1991205132 @default.
W3122453920 cites W1994671970 @default.
W3122453920 cites W1998255808 @default.
W3122453920 cites W1998816055 @default.
W3122453920 cites W2003535156 @default.
W3122453920 cites W2004118070 @default.
W3122453920 cites W2005709035 @default.
W3122453920 cites W2006799813 @default.
W3122453920 cites W2013739987 @default.
W3122453920 cites W2018809891 @default.
W3122453920 cites W2019867710 @default.
W3122453920 cites W2034057297 @default.
W3122453920 cites W2038443145 @default.
W3122453920 cites W2044803807 @default.
W3122453920 cites W2048740763 @default.
W3122453920 cites W2049210988 @default.
W3122453920 cites W2049379621 @default.
W3122453920 cites W2073758513 @default.
W3122453920 cites W2073974388 @default.
W3122453920 cites W2078978928 @default.
W3122453920 cites W2085029619 @default.
W3122453920 cites W2086863316 @default.
W3122453920 cites W2092882253 @default.
W3122453920 cites W2095258438 @default.
W3122453920 cites W2095559335 @default.
W3122453920 cites W2109308861 @default.
W3122453920 cites W2113147520 @default.
W3122453920 cites W2116689560 @default.
W3122453920 cites W2128072572 @default.
W3122453920 cites W2134171228 @default.
W3122453920 cites W2137279952 @default.
W3122453920 cites W2142529660 @default.
W3122453920 cites W2153653432 @default.
W3122453920 cites W2156631550 @default.
W3122453920 cites W2161170921 @default.
W3122453920 cites W2162723300 @default.
W3122453920 cites W2163820204 @default.
W3122453920 cites W2164187533 @default.
W3122453920 cites W2170882422 @default.
W3122453920 cites W2171356409 @default.
W3122453920 cites W2303362829 @default.
W3122453920 cites W2343949342 @default.
W3122453920 cites W2464472443 @default.
W3122453920 cites W2471895414 @default.
W3122453920 cites W2474608726 @default.
W3122453920 cites W2516363667 @default.
W3122453920 cites W2516658517 @default.
W3122453920 cites W2518686832 @default.
W3122453920 cites W2527840829 @default.
W3122453920 cites W2559508883 @default.
W3122453920 cites W2565052841 @default.
W3122453920 cites W2601784135 @default.
W3122453920 cites W2787772222 @default.
W3122453920 cites W2884199167 @default.
W3122453920 cites W2907919441 @default.
W3122453920 cites W2946503363 @default.
W3122453920 cites W2995283998 @default.
W3122453920 cites W3021123534 @default.
W3122453920 cites W3038044506 @default.
W3122453920 cites W4211200865 @default.
W3122453920 doi "https://doi.org/10.1088/2399-7532/abddc4" @default.
W3122453920 hasPublicationYear "2021" @default.
W3122453920 type Work @default.
W3122453920 sameAs 3122453920 @default.
W3122453920 citedByCount "2" @default.
W3122453920 countsByYear W31224539202023 @default.
W3122453920 crossrefType "journal-article" @default.
W3122453920 hasAuthorship W3122453920A5016125513 @default.
W3122453920 hasAuthorship W3122453920A5028953248 @default.
W3122453920 hasAuthorship W3122453920A5031345745 @default.
W3122453920 hasAuthorship W3122453920A5043996285 @default.
W3122453920 hasAuthorship W3122453920A5085660128 @default.
W3122453920 hasBestOaLocation W31224539201 @default.
W3122453920 hasConcept C111696902 @default.
W3122453920 hasConcept C127413603 @default.
W3122453920 hasConcept C159985019 @default.
W3122453920 hasConcept C171250308 @default.
W3122453920 hasConcept C178790620 @default.
W3122453920 hasConcept C183586093 @default.