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Abstract Bacteroidesspecies are prominent members of the human gut microbiota. The prevalence and stability ofBacteroidesin humans make them ideal candidates to engineer as programmable living therapeutics. Here we report a biotic decision-making technology in a community ofBacteroides(consortium transcriptional programming) with genetic circuit compression. Circuit compression requires systematic pairing of engineered transcription factors with cognate regulatable promoters. In turn, we demonstrate the compression workflow by designing, building, and testing all fundamental two-input logic gates dependent on the inputs isopropyl-β-D-1-thiogalactopyranoside and D-ribose. We then deploy complete sets of logical operations in five human donorBacteroides, with which we demonstrate sequential gain-of-function control in co-culture. Finally, we couple transcriptional programs with CRISPR interference to achieve loss-of-function regulation of endogenous genes—demonstrating complex control over community composition in co-culture. This work provides a powerful toolkit to program gene expression inBacteroidesfor the development of bespoke therapeutic bacteria. 

Allosteric function is a critical component of many of the parts used to construct gene networks throughout synthetic biology. In this review, we discuss an emerging field of research and education, biomolecular systems engineering, that expands on the synthetic biology edifice—integrating workflows and strategies from protein engineering, chemical engineering, electrical engineering, and computer science principles. We focus on the role of engineered allosteric communication as it relates to transcriptional gene regulators—i.e., transcription factors and corresponding unit operations. In this review, we ( a) explore allosteric communication in the lactose repressor LacI topology, ( b) demonstrate how to leverage this understanding of allostery in the LacI system to engineer non-natural BUFFER and NOT logical operations, ( c) illustrate how engineering workflows can be used to confer alternate allosteric functions in disparate systems that share the LacI topology, and ( d) demonstrate how fundamental unit operations can be directed to form combinational logical operations. 

Three brothers, black males, one murdered, one incarcerated—one unscathed (me). Three cousins, black males, two incarcerated—one with his liberties intact (me). Six siblings, only two completed high school—one being me. I remember, when I was 4 years old, walking to the store with my sister and being scolded for picking up a hypodermic needle someone used to inject heroin… and we lived in the better part of my neighborhood. This is the legacy of redlining, compounded by mass incarceration. If you do not know what redlining is, look it up. Purportedly, redlining ended in 1968; however, it is still the birthright of many black Americans. My early life experience is the product of this legacy.