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The Consistent Tick-Vertebrate Infectious Cycle of the Lyme Disease Spirochete Enables Borrelia burgdorferi To Control Protein Expression by Monitoring Its Physiological Status

Brian Stevenson, Andrew C. Krusenstjerna, Tatiana N. Castro-Padovani, Christina R. Savage, Brandon L. Jutras, Timothy C. Saylor

2022Journal of Bacteriology19 citationsDOIOpen Access PDF

Abstract

transcription. At least two of those regulators are, in turn, affected by DnaA, the master regulator of chromosome replication. Our data indicate that B. burgdorferi has evolved to detect the change from slow to rapid replication during tick feeding as a signal to begin expression of Erp and other vertebrate-specific proteins. The majority of other known regulatory factors of B. burgdorferi also respond to metabolic cues. These observations lead to a model in which the Lyme spirochete recognizes unique environmental conditions encountered during the infectious cycle to "know" where they are and adapt accordingly.

Topics & Concepts

BiologyBorrelia burgdorferiLyme diseaseSpirochaetaceaeBorreliaVirologyTickIxodesMicrobiologyLYMEImmunologyAntibodyVector-borne infectious diseasesViral Infections and VectorsVector-Borne Animal Diseases
The Consistent Tick-Vertebrate Infectious Cycle of the Lyme Disease Spirochete Enables Borrelia burgdorferi To Control Protein Expression by Monitoring Its Physiological Status | Litcius