SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2104955056> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W2104955056 endingPage "117" @default.
W2104955056 startingPage "107" @default.
W2104955056 abstract "The use of consensus design to produce stable proteins has been applied to numerous structures and classes of proteins. Here, we describe the engineering of novel FN3 domains from two different proteins, namely human fibronectin and human tenascin-C, as potential alternative scaffold biotherapeutics. The resulting FN3 domains were found to be robustly expressed in Escherichia coli, soluble and highly stable, with melting temperatures of 89 and 78°C, respectively. X-ray crystallography was used to confirm that the consensus approach led to a structure consistent with the FN3 design despite having only low-sequence identity to natural FN3 domains. The ability of the Tenascin consensus domain to withstand mutations in the loop regions connecting the β-strands was investigated using alanine scanning mutagenesis demonstrating the potential for randomization in these regions. Finally, rational design was used to produce point mutations that significantly increase the stability of one of the consensus domains. Together our data suggest that consensus FN3 domains have potential utility as alternative scaffold therapeutics." @default.
W2104955056 created "2016-06-24" @default.
W2104955056 creator A5020367412 @default.
W2104955056 creator A5022926968 @default.
W2104955056 creator A5049562547 @default.
W2104955056 creator A5054688501 @default.
W2104955056 creator A5056550600 @default.
W2104955056 creator A5066462558 @default.
W2104955056 creator A5071614107 @default.
W2104955056 creator A5073649033 @default.
W2104955056 date "2012-01-12" @default.
W2104955056 modified "2023-10-16" @default.
W2104955056 title "Design of novel FN3 domains with high stability by a consensus sequence approach" @default.
W2104955056 cites W1526669805 @default.
W2104955056 cites W1534792972 @default.
W2104955056 cites W1555652588 @default.
W2104955056 cites W1581858536 @default.
W2104955056 cites W1964052001 @default.
W2104955056 cites W1970138467 @default.
W2104955056 cites W1978327148 @default.
W2104955056 cites W1984348923 @default.
W2104955056 cites W1986213229 @default.
W2104955056 cites W1992476540 @default.
W2104955056 cites W1995059751 @default.
W2104955056 cites W2000455214 @default.
W2104955056 cites W2002304568 @default.
W2104955056 cites W2002941584 @default.
W2104955056 cites W2009476769 @default.
W2104955056 cites W2013446961 @default.
W2104955056 cites W2021106586 @default.
W2104955056 cites W2021291422 @default.
W2104955056 cites W2024298562 @default.
W2104955056 cites W2025551193 @default.
W2104955056 cites W2027626583 @default.
W2104955056 cites W2028113659 @default.
W2104955056 cites W2028671110 @default.
W2104955056 cites W2031490326 @default.
W2104955056 cites W2033213918 @default.
W2104955056 cites W2038583114 @default.
W2104955056 cites W2039388179 @default.
W2104955056 cites W2042181696 @default.
W2104955056 cites W2048546654 @default.
W2104955056 cites W2048765448 @default.
W2104955056 cites W2049280483 @default.
W2104955056 cites W2051419400 @default.
W2104955056 cites W2052718768 @default.
W2104955056 cites W2054442821 @default.
W2104955056 cites W2057520802 @default.
W2104955056 cites W2058669625 @default.
W2104955056 cites W2060194574 @default.
W2104955056 cites W2060888437 @default.
W2104955056 cites W2061008335 @default.
W2104955056 cites W2064699148 @default.
W2104955056 cites W2065654184 @default.
W2104955056 cites W2089289562 @default.
W2104955056 cites W2091041102 @default.
W2104955056 cites W2092803887 @default.
W2104955056 cites W2096172752 @default.
W2104955056 cites W2106269045 @default.
W2104955056 cites W2109184569 @default.
W2104955056 cites W2116076986 @default.
W2104955056 cites W2117515539 @default.
W2104955056 cites W2117993227 @default.
W2104955056 cites W2121054327 @default.
W2104955056 cites W2122339645 @default.
W2104955056 cites W2124503497 @default.
W2104955056 cites W2128078969 @default.
W2104955056 cites W2130255732 @default.
W2104955056 cites W2134216529 @default.
W2104955056 cites W2136102235 @default.
W2104955056 cites W2137612801 @default.
W2104955056 cites W2140859187 @default.
W2104955056 cites W2144081223 @default.
W2104955056 cites W2144277255 @default.
W2104955056 cites W2144886557 @default.
W2104955056 cites W2147791888 @default.
W2104955056 cites W2153004318 @default.
W2104955056 cites W2153724411 @default.
W2104955056 cites W2158238509 @default.
W2104955056 cites W2160034474 @default.
W2104955056 cites W2166896398 @default.
W2104955056 cites W2168854517 @default.
W2104955056 cites W2169569988 @default.
W2104955056 cites W2172034373 @default.
W2104955056 cites W4248872320 @default.
W2104955056 doi "https://doi.org/10.1093/protein/gzr064" @default.
W2104955056 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22240293" @default.
W2104955056 hasPublicationYear "2012" @default.
W2104955056 type Work @default.
W2104955056 sameAs 2104955056 @default.
W2104955056 citedByCount "66" @default.
W2104955056 countsByYear W21049550562012 @default.
W2104955056 countsByYear W21049550562013 @default.
W2104955056 countsByYear W21049550562014 @default.
W2104955056 countsByYear W21049550562015 @default.
W2104955056 countsByYear W21049550562016 @default.
W2104955056 countsByYear W21049550562017 @default.
W2104955056 countsByYear W21049550562018 @default.