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W3203343719 endingPage "4750" @default.
W3203343719 startingPage "4738" @default.
W3203343719 abstract "To what degree are individual structural elements within proteins modular such that similar structures from unrelated proteins can be interchanged? We study subdomain modularity by creating 20 chimeras of an enzyme, Escherichia coli dihydrofolate reductase (DHFR), in which a catalytically important, 10-residue α-helical sequence is replaced by α-helical sequences from a diverse set of proteins. The chimeras stably fold but have a range of diminished thermal stabilities and catalytic activities. Evolutionary coupling analysis indicates that the residues of this α-helix are under selection pressure to maintain catalytic activity in DHFR. Reversion to phenylalanine at key position 31 was found to partially restore catalytic activity, which could be explained by evolutionary coupling values. We performed molecular dynamics simulations using replica exchange with solute tempering. Chimeras with low catalytic activity exhibit nonhelical conformations that block the binding site and disrupt the positioning of the catalytically essential residue D27. Simulation observables and in vitro measurements of thermal stability and substrate-binding affinity are strongly correlated. Several E. coli strains with chromosomally integrated chimeric DHFRs can grow, with growth rates that follow predictions from a kinetic flux model that depends on the intracellular abundance and catalytic activity of DHFR. Our findings show that although α-helices are not universally substitutable, the molecular and fitness effects of modular segments can be predicted by the biophysical compatibility of the replacement segment." @default.
W3203343719 created "2021-10-11" @default.
W3203343719 creator A5003188309 @default.
W3203343719 creator A5011258863 @default.
W3203343719 creator A5018618708 @default.
W3203343719 creator A5061240448 @default.
W3203343719 creator A5075916595 @default.
W3203343719 date "2021-11-01" @default.
W3203343719 modified "2023-10-02" @default.
W3203343719 title "Switching an active site helix in dihydrofolate reductase reveals limits to subdomain modularity" @default.
W3203343719 cites W1156389508 @default.
W3203343719 cites W1782760385 @default.
W3203343719 cites W1974093948 @default.
W3203343719 cites W1976499671 @default.
W3203343719 cites W1981575795 @default.
W3203343719 cites W1984148408 @default.
W3203343719 cites W1984481443 @default.
W3203343719 cites W1985173600 @default.
W3203343719 cites W1988167135 @default.
W3203343719 cites W1988883176 @default.
W3203343719 cites W1990033177 @default.
W3203343719 cites W1990526350 @default.
W3203343719 cites W2001840083 @default.
W3203343719 cites W2001900040 @default.
W3203343719 cites W2002238092 @default.
W3203343719 cites W2003057311 @default.
W3203343719 cites W2007886752 @default.
W3203343719 cites W2008545402 @default.
W3203343719 cites W2008708467 @default.
W3203343719 cites W2010424347 @default.
W3203343719 cites W2011301426 @default.
W3203343719 cites W2012977051 @default.
W3203343719 cites W2013404472 @default.
W3203343719 cites W2015449376 @default.
W3203343719 cites W2018082367 @default.
W3203343719 cites W2018590728 @default.
W3203343719 cites W2028215008 @default.
W3203343719 cites W2029758652 @default.
W3203343719 cites W2033111093 @default.
W3203343719 cites W2035238742 @default.
W3203343719 cites W2035418514 @default.
W3203343719 cites W2035832119 @default.
W3203343719 cites W2038359949 @default.
W3203343719 cites W2039104547 @default.
W3203343719 cites W2043701535 @default.
W3203343719 cites W2044573154 @default.
W3203343719 cites W2049268173 @default.
W3203343719 cites W2049708286 @default.
W3203343719 cites W2049870911 @default.
W3203343719 cites W2051510258 @default.
W3203343719 cites W2057308490 @default.
W3203343719 cites W2058276503 @default.
W3203343719 cites W2060528711 @default.
W3203343719 cites W2061042699 @default.
W3203343719 cites W2065247480 @default.
W3203343719 cites W2065863039 @default.
W3203343719 cites W2071167916 @default.
W3203343719 cites W2083939457 @default.
W3203343719 cites W2091497876 @default.
W3203343719 cites W2094503501 @default.
W3203343719 cites W2096506888 @default.
W3203343719 cites W2099540110 @default.
W3203343719 cites W2101447754 @default.
W3203343719 cites W2108726522 @default.
W3203343719 cites W2116137883 @default.
W3203343719 cites W2129092370 @default.
W3203343719 cites W2135753651 @default.
W3203343719 cites W2144494426 @default.
W3203343719 cites W2147988069 @default.
W3203343719 cites W2150300758 @default.
W3203343719 cites W2158266834 @default.
W3203343719 cites W2163304934 @default.
W3203343719 cites W2166461695 @default.
W3203343719 cites W2173732482 @default.
W3203343719 cites W2211953232 @default.
W3203343719 cites W2245592118 @default.
W3203343719 cites W2290502424 @default.
W3203343719 cites W2404280981 @default.
W3203343719 cites W2430714642 @default.
W3203343719 cites W2548003600 @default.
W3203343719 cites W2560771977 @default.
W3203343719 cites W2604693645 @default.
W3203343719 cites W2767095293 @default.
W3203343719 cites W2804523481 @default.
W3203343719 cites W2804730489 @default.
W3203343719 cites W2945243981 @default.
W3203343719 cites W2950343954 @default.
W3203343719 cites W2952244612 @default.
W3203343719 cites W2955316972 @default.
W3203343719 cites W2968494487 @default.
W3203343719 cites W2978837790 @default.
W3203343719 cites W3022117139 @default.
W3203343719 cites W3029129503 @default.
W3203343719 cites W3032970368 @default.
W3203343719 cites W3044941661 @default.
W3203343719 cites W3046751266 @default.
W3203343719 cites W3048591549 @default.
W3203343719 cites W3095087955 @default.