Engineering synthetic gene regulatory circuits proceeds through iterative cycles of design, building, and testing. Initial circuit designs must rely on often-incomplete models of regulation established by fields of reductive inquiry—biochemistry and molecular and systems biology. As differences in designed and experimentally observed circuit behavior are inevitably encountered, investigated, and resolved, each turn of the engineering cycle can force a resynthesis in understanding of natural network function. Here, we outline research that uses the process of gene circuit engineering to advance biological discovery. Synthetic gene circuit engineering research has not only refined our understanding of cellular regulation but furnished biologi...
AbstractDuring the last decades, biology has decomposed cellular systems into genetic, functional an...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...
Living cells are exquisite systems. They are strongly regulated to perform in highly specific ways, ...
Gene regulatory networks lay at the foundation of biological function and are responsible for drivin...
AbstractThe ongoing merge between engineering and biology has contributed to the emerging field of s...
Background: In order to understand and regulate complex genetic networks in living cells, it is impo...
A major goal of synthetic biology is to develop a deeper understanding of biological design principl...
In the era of post-genomic research two new disciplines, Systems and Synthetic biology, act in a com...
The development and progress in synthetic biologyhas been remarkable. Although still in its infancy,...
Abstract As synthetic biology permeates society, the signal processing circuits in engineered living...
Systems and Synthetic biology are emerging fields at the intersection of Biology, Physics and Engine...
Synthetic biology is focused on the rational construction of biological systems based on engineering...
The complex genetic circuits found in cells are ordinarily studied by analysis of genetic and bioche...
In 1961, Jacob and Monod proposed the operon model of gene regulation. At the model's core was the m...
Thesis (Ph.D.)--Boston UniversitySynthetic biology is a field that is tending towards maturity. Synt...
AbstractDuring the last decades, biology has decomposed cellular systems into genetic, functional an...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...
Living cells are exquisite systems. They are strongly regulated to perform in highly specific ways, ...
Gene regulatory networks lay at the foundation of biological function and are responsible for drivin...
AbstractThe ongoing merge between engineering and biology has contributed to the emerging field of s...
Background: In order to understand and regulate complex genetic networks in living cells, it is impo...
A major goal of synthetic biology is to develop a deeper understanding of biological design principl...
In the era of post-genomic research two new disciplines, Systems and Synthetic biology, act in a com...
The development and progress in synthetic biologyhas been remarkable. Although still in its infancy,...
Abstract As synthetic biology permeates society, the signal processing circuits in engineered living...
Systems and Synthetic biology are emerging fields at the intersection of Biology, Physics and Engine...
Synthetic biology is focused on the rational construction of biological systems based on engineering...
The complex genetic circuits found in cells are ordinarily studied by analysis of genetic and bioche...
In 1961, Jacob and Monod proposed the operon model of gene regulation. At the model's core was the m...
Thesis (Ph.D.)--Boston UniversitySynthetic biology is a field that is tending towards maturity. Synt...
AbstractDuring the last decades, biology has decomposed cellular systems into genetic, functional an...
A challenge in biology is to understand how complex molecular networks in the cell execute sophistic...
Living cells are exquisite systems. They are strongly regulated to perform in highly specific ways, ...