SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2894375113> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2894375113 endingPage "11332" @default.
W2894375113 startingPage "11323" @default.
W2894375113 abstract "Aromatic–aromatic interactions between natural aromatic amino acids Phe, Tyr, and Trp play crucial roles in protein–protein recognition and protein folding. However, the function of such interactions in the preparation of different dimensional, ordered protein superstructures has not been recognized. Herein, by a combination of the directionality of the symmetry axes of protein building blocks and the strength of the aromatic–aromatic interactions coming from a group of aromatic amino acid residues, we built an engineering strategy to construct protein superlattices. Based on this strategy, substitution of single amino acid residue Glu162 around the C4 rotation axes near the outer surface of 24-mer ferritin nanocage with Phe, Tyr, and Trp, respectively, resulted in 2D and 3D protein superlattices where protein cages are aligned along the C4 axes, imposing a fixed disposition of neighboring ferritins. The self-assembly of these superlattices is reversible, which can be tuned by external stimuli (salt concentration or pH). Moreover, these superlattices can serve as biotemplates for the fabrication of 2D and 3D inorganic nanoparticle arrays." @default.
W2894375113 created "2018-10-05" @default.
W2894375113 creator A5023513323 @default.
W2894375113 creator A5041339619 @default.
W2894375113 creator A5078813359 @default.
W2894375113 creator A5082013054 @default.
W2894375113 creator A5087573244 @default.
W2894375113 creator A5088893498 @default.
W2894375113 date "2018-09-28" @default.
W2894375113 modified "2023-10-15" @default.
W2894375113 title "On-Axis Alignment of Protein Nanocage Assemblies from 2D to 3D through the Aromatic Stacking Interactions of Amino Acid Residues" @default.
W2894375113 cites W1505986412 @default.
W2894375113 cites W1619777468 @default.
W2894375113 cites W1964275463 @default.
W2894375113 cites W1987515055 @default.
W2894375113 cites W1988612384 @default.
W2894375113 cites W1989346024 @default.
W2894375113 cites W1997977268 @default.
W2894375113 cites W1998536115 @default.
W2894375113 cites W2004739063 @default.
W2894375113 cites W2019403558 @default.
W2894375113 cites W2022022844 @default.
W2894375113 cites W2023709887 @default.
W2894375113 cites W2024056647 @default.
W2894375113 cites W2025079144 @default.
W2894375113 cites W2028561024 @default.
W2894375113 cites W2030248928 @default.
W2894375113 cites W2038761964 @default.
W2894375113 cites W2044718961 @default.
W2894375113 cites W2045032030 @default.
W2894375113 cites W2049079862 @default.
W2894375113 cites W2063734425 @default.
W2894375113 cites W2066955681 @default.
W2894375113 cites W2077255131 @default.
W2894375113 cites W2081845177 @default.
W2894375113 cites W2083146987 @default.
W2894375113 cites W2086346836 @default.
W2894375113 cites W2087244548 @default.
W2894375113 cites W2087735060 @default.
W2894375113 cites W2089194603 @default.
W2894375113 cites W2089866954 @default.
W2894375113 cites W2090408264 @default.
W2894375113 cites W2095059784 @default.
W2894375113 cites W2108292482 @default.
W2894375113 cites W2108816504 @default.
W2894375113 cites W2109745203 @default.
W2894375113 cites W2113495611 @default.
W2894375113 cites W2113912523 @default.
W2894375113 cites W2132184418 @default.
W2894375113 cites W2135823444 @default.
W2894375113 cites W2139138867 @default.
W2894375113 cites W2149077102 @default.
W2894375113 cites W2160640932 @default.
W2894375113 cites W2203645018 @default.
W2894375113 cites W2272687962 @default.
W2894375113 cites W2282983841 @default.
W2894375113 cites W2294813177 @default.
W2894375113 cites W2344064011 @default.
W2894375113 cites W2491008760 @default.
W2894375113 cites W2517316787 @default.
W2894375113 cites W2520114224 @default.
W2894375113 cites W2551734180 @default.
W2894375113 cites W2594304084 @default.
W2894375113 cites W2614987463 @default.
W2894375113 cites W2622769043 @default.
W2894375113 cites W2745157863 @default.
W2894375113 cites W2769434378 @default.
W2894375113 cites W280694366 @default.
W2894375113 cites W4237414099 @default.
W2894375113 doi "https://doi.org/10.1021/acsnano.8b06091" @default.
W2894375113 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30265511" @default.
W2894375113 hasPublicationYear "2018" @default.
W2894375113 type Work @default.
W2894375113 sameAs 2894375113 @default.
W2894375113 citedByCount "42" @default.
W2894375113 countsByYear W28943751132019 @default.
W2894375113 countsByYear W28943751132020 @default.
W2894375113 countsByYear W28943751132021 @default.
W2894375113 countsByYear W28943751132022 @default.
W2894375113 countsByYear W28943751132023 @default.
W2894375113 crossrefType "journal-article" @default.
W2894375113 hasAuthorship W2894375113A5023513323 @default.
W2894375113 hasAuthorship W2894375113A5041339619 @default.
W2894375113 hasAuthorship W2894375113A5078813359 @default.
W2894375113 hasAuthorship W2894375113A5082013054 @default.
W2894375113 hasAuthorship W2894375113A5087573244 @default.
W2894375113 hasAuthorship W2894375113A5088893498 @default.
W2894375113 hasConcept C128355301 @default.
W2894375113 hasConcept C153064111 @default.
W2894375113 hasConcept C161790260 @default.
W2894375113 hasConcept C178790620 @default.
W2894375113 hasConcept C185592680 @default.
W2894375113 hasConcept C192386470 @default.
W2894375113 hasConcept C192562407 @default.
W2894375113 hasConcept C203036418 @default.
W2894375113 hasConcept C204328495 @default.
W2894375113 hasConcept C2777992278 @default.
W2894375113 hasConcept C2781338088 @default.