2018
DOI: 10.1101/272120
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Active degradation of a regulator controls coordination of downstream genes

Abstract: Several key transcription factors have unusually short half-lives compared to other cellular proteins. Here, we explore the utility of active degradation in shaping how a master regulator coordinates its downstream targets. We focus our studies on the multi-antibiotic resistance activator MarA, which controls a variety of stress response genes in Escherichia coli. We modify its half-life either by knocking down the protease that targets it via CRISPRi or by engineering MarA to protect it from degradation. Our … Show more

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“…The first intrinsic sequences used in complex synthetic circuits were MarA, MarAn20 and RepA70 (also called RepAn70) [43,49]. MarA is a transcription factor that regulates multiple genes involved in antibiotic-resistance pathways [128], and the N-terminus of MarA is a target of Lon [129]. The MarAn20 tag is the last 20 amino acid tag from the N-terminal of MarA.…”
Section: Engineering Degradation Signalsmentioning
confidence: 99%
“…The first intrinsic sequences used in complex synthetic circuits were MarA, MarAn20 and RepA70 (also called RepAn70) [43,49]. MarA is a transcription factor that regulates multiple genes involved in antibiotic-resistance pathways [128], and the N-terminus of MarA is a target of Lon [129]. The MarAn20 tag is the last 20 amino acid tag from the N-terminal of MarA.…”
Section: Engineering Degradation Signalsmentioning
confidence: 99%