Combinatorial metabolic pathway assembly approaches and toolkits for modular assembly
R Young, M Haines, M Storch, PS Freemont - Metabolic Engineering, 2021 - Elsevier
Synthetic Biology is a rapidly growing interdisciplinary field that is primarily built upon
foundational advances in molecular biology combined with engineering design principles …
foundational advances in molecular biology combined with engineering design principles …
[HTML][HTML] Space bioprocess engineering on the horizon
AJ Berliner, I Lipsky, D Ho, JM Hilzinger… - Communications …, 2022 - nature.com
Abstract Space bioprocess engineering (SBE) is an emerging multi-disciplinary field to
design, realize, and manage biologically-driven technologies specifically with the goal of …
design, realize, and manage biologically-driven technologies specifically with the goal of …
[HTML][HTML] Engineered Pseudomonas putida simultaneously catabolizes five major components of corn stover lignocellulose: Glucose, xylose, arabinose, p-coumaric …
Valorization of all major lignocellulose components, including lignin, cellulose, and
hemicellulose is critical for an economically viable bioeconomy. In most biochemical …
hemicellulose is critical for an economically viable bioeconomy. In most biochemical …
[HTML][HTML] The synthetic biology open language (SBOL) version 3: simplified data exchange for bioengineering
The Synthetic Biology Open Language (SBOL) is a community-developed data standard that
allows knowledge about biological designs to be captured using a machine-tractable …
allows knowledge about biological designs to be captured using a machine-tractable …
DNA-BOT: a low-cost, automated DNA assembly platform for synthetic biology
M Storch, MC Haines, GS Baldwin - Synthetic Biology, 2020 - academic.oup.com
Multi-part DNA assembly is the physical starting point for many projects in Synthetic and
Molecular Biology. The ability to explore a genetic design space by building extensive …
Molecular Biology. The ability to explore a genetic design space by building extensive …
[HTML][HTML] Contemporary tools for regulating gene expression in bacteria
Insights from novel mechanistic paradigms in gene expression control have led to the
development of new gene expression systems for bioproduction, control, and sensing …
development of new gene expression systems for bioproduction, control, and sensing …
[HTML][HTML] Scaling up genetic circuit design for cellular computing: advances and prospects
Synthetic biology aims to engineer and redesign biological systems for useful real-world
applications in biomanufacturing, biosensing and biotherapy following a typical design-build …
applications in biomanufacturing, biosensing and biotherapy following a typical design-build …
Engineering synthetic regulatory circuits in plants
Plant synthetic biology is a rapidly emerging field that aims to engineer genetic circuits to
function in plants with the same reliability and precision as electronic circuits. These circuits …
function in plants with the same reliability and precision as electronic circuits. These circuits …
Multiplexing cell‐cell communication
The engineering of advanced multicellular behaviors, such as the programmed growth of
biofilms or tissues, requires cells to communicate multiple aspects of physiological …
biofilms or tissues, requires cells to communicate multiple aspects of physiological …
Industrializing a Bacterial Strain for l-Serine Production through Translation Initiation Optimization
M Rennig, H Mundhada, GG Wordofa… - ACS synthetic …, 2019 - ACS Publications
Turning a proof-of-concept synthetic biology design into a robust, high performing cell
factory is a major time and money consuming task, which severely limits the growth of the …
factory is a major time and money consuming task, which severely limits the growth of the …