SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2063083328> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2063083328 endingPage "1041" @default.
W2063083328 startingPage "1030" @default.
W2063083328 abstract "Thermostable laccases with a high-redox potential have been engineered through a strategy that combines directed evolution with rational approaches. The original laccase signal sequence was replaced by the α-factor prepro-leader, and the corresponding fusion gene was targeted for joint laboratory evolution with the aim of improving kinetics and secretion by Saccharomyces cerevisiae, while retaining high thermostability. After eight rounds of molecular evolution, the total laccase activity was enhanced 34,000-fold culminating in the OB-1 mutant as the last variant of the evolution process, a highly active and stable enzyme in terms of temperature, pH range, and organic cosolvents. Mutations in the hydrophobic core of the evolved α-factor prepro-leader enhanced functional expression, whereas some mutations in the mature protein improved its catalytic capacities by altering the interactions with the surrounding residues." @default.
W2063083328 created "2016-06-24" @default.
W2063083328 creator A5001896150 @default.
W2063083328 creator A5052109553 @default.
W2063083328 creator A5066600601 @default.
W2063083328 creator A5070110953 @default.
W2063083328 creator A5082533531 @default.
W2063083328 creator A5086302402 @default.
W2063083328 date "2010-09-01" @default.
W2063083328 modified "2023-10-15" @default.
W2063083328 title "Laboratory Evolution of High-Redox Potential Laccases" @default.
W2063083328 cites W1485961420 @default.
W2063083328 cites W1553563369 @default.
W2063083328 cites W1579791543 @default.
W2063083328 cites W1588293005 @default.
W2063083328 cites W1794778178 @default.
W2063083328 cites W1795919710 @default.
W2063083328 cites W1967974885 @default.
W2063083328 cites W1968950011 @default.
W2063083328 cites W1977327759 @default.
W2063083328 cites W1992029173 @default.
W2063083328 cites W1996350754 @default.
W2063083328 cites W1998014161 @default.
W2063083328 cites W1999862146 @default.
W2063083328 cites W2005067906 @default.
W2063083328 cites W2006922919 @default.
W2063083328 cites W2015289968 @default.
W2063083328 cites W2018377801 @default.
W2063083328 cites W2023579027 @default.
W2063083328 cites W2026822031 @default.
W2063083328 cites W2028291957 @default.
W2063083328 cites W2028317212 @default.
W2063083328 cites W2038364394 @default.
W2063083328 cites W2042372957 @default.
W2063083328 cites W2047849624 @default.
W2063083328 cites W2049925893 @default.
W2063083328 cites W2052248603 @default.
W2063083328 cites W2059850101 @default.
W2063083328 cites W2063779182 @default.
W2063083328 cites W2064337193 @default.
W2063083328 cites W2090940453 @default.
W2063083328 cites W2091714383 @default.
W2063083328 cites W2092313455 @default.
W2063083328 cites W2092846883 @default.
W2063083328 cites W2093057097 @default.
W2063083328 cites W2096004249 @default.
W2063083328 cites W2102721181 @default.
W2063083328 cites W2109441358 @default.
W2063083328 cites W2118265845 @default.
W2063083328 cites W2123021399 @default.
W2063083328 cites W2126483682 @default.
W2063083328 cites W2138073891 @default.
W2063083328 cites W2140808096 @default.
W2063083328 cites W2150509153 @default.
W2063083328 cites W2154486038 @default.
W2063083328 cites W2160971143 @default.
W2063083328 cites W2164051598 @default.
W2063083328 cites W2216620189 @default.
W2063083328 cites W341803147 @default.
W2063083328 doi "https://doi.org/10.1016/j.chembiol.2010.07.010" @default.
W2063083328 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20851352" @default.
W2063083328 hasPublicationYear "2010" @default.
W2063083328 type Work @default.
W2063083328 sameAs 2063083328 @default.
W2063083328 citedByCount "143" @default.
W2063083328 countsByYear W20630833282012 @default.
W2063083328 countsByYear W20630833282013 @default.
W2063083328 countsByYear W20630833282014 @default.
W2063083328 countsByYear W20630833282015 @default.
W2063083328 countsByYear W20630833282016 @default.
W2063083328 countsByYear W20630833282017 @default.
W2063083328 countsByYear W20630833282018 @default.
W2063083328 countsByYear W20630833282019 @default.
W2063083328 countsByYear W20630833282020 @default.
W2063083328 countsByYear W20630833282021 @default.
W2063083328 countsByYear W20630833282022 @default.
W2063083328 countsByYear W20630833282023 @default.
W2063083328 crossrefType "journal-article" @default.
W2063083328 hasAuthorship W2063083328A5001896150 @default.
W2063083328 hasAuthorship W2063083328A5052109553 @default.
W2063083328 hasAuthorship W2063083328A5066600601 @default.
W2063083328 hasAuthorship W2063083328A5070110953 @default.
W2063083328 hasAuthorship W2063083328A5082533531 @default.
W2063083328 hasAuthorship W2063083328A5086302402 @default.
W2063083328 hasBestOaLocation W20630833281 @default.
W2063083328 hasConcept C104317684 @default.
W2063083328 hasConcept C121332964 @default.
W2063083328 hasConcept C123894998 @default.
W2063083328 hasConcept C143065580 @default.
W2063083328 hasConcept C147816474 @default.
W2063083328 hasConcept C148898269 @default.
W2063083328 hasConcept C178790620 @default.
W2063083328 hasConcept C181199279 @default.
W2063083328 hasConcept C185592680 @default.
W2063083328 hasConcept C2777576037 @default.
W2063083328 hasConcept C2779222958 @default.
W2063083328 hasConcept C2781216036 @default.
W2063083328 hasConcept C2908542902 @default.