ASU Scholarship Showcase
This growing collection consists of scholarly works authored by ASU-affiliated faculty, students and community members, and contains many open access articles. ASU-affiliated authors are encouraged to Share Your Work in the ASU Digital Repository.
- 2 College of Liberal Arts and Sciences
- 2 Ira A. Fulton Schools of Engineering
- 2 School of Biomedical and Health Systems Engineering
- 2 School of Life Sciences
- 1 Aerospace Engineering
- 1 Daer, Rene
- 1 Department of Chemistry and Biochemistry
- 1 Haynes, Karmella
- 1 Hellman, Randall
- 1 Helms Tillery, Stephen
- 1 Interactive Media and Sensorimotor Studies
- 1 Mechanical Engineering
- 1 Muller, Ryan Yue
- 1 Nieves, Lizbeth
- 1 Overstreet, Cynthia
- 1 Panyon, Larry
- 1 Ponce Wong, Ruben
- 1 Santos, Veronica
- 1 School for the Engineering of Matter, Transport and Energy
- 1 Wang, Xuan
- 3 English
- 3 Text
- 3 Public
Production of fuels and chemicals through a fermentation-based manufacturing process that uses renewable feedstock such as lignocellulosic biomass is a desirable alternative to petrochemicals. Although it is still in its infancy, synthetic biology offers great potential to overcome the challenges associated with lignocellulose conversion. In this review, we will summarize the identification and optimization of synthetic biological parts used to enhance the utilization of lignocellulose-derived sugars and to increase the biocatalyst tolerance for lignocellulose-derived fermentation inhibitors. We will also discuss the ongoing efforts and future applications of synthetic integrated biological systems used to improve lignocellulose conversion.
- Nieves, Lizbeth, Panyon, Larry, Wang, Xuan, et al.
- Created Date
The addition of tactile and proprioceptive feedback to neuroprosthetic limbs is expected to significantly improve the control of these devices. Intracortical microstimulation (ICMS) of somatosensory cortex is a promising method of delivering this sensory feedback. To date, the main focus of somatosensory ICMS studies has been to deliver discriminable signals, corresponding to varying intensity, to a single location in cortex. However, multiple independent and simultaneous streams of sensory information will need to be encoded by ICMS to provide functionally relevant feedback for a neuroprosthetic limb (e.g., encoding contact events and pressure on multiple digits). In this study, we evaluated the …
- Overstreet, Cynthia, Hellman, Randall, Ponce Wong, Ruben, et al.
- Created Date
Quorum-sensing networks enable bacteria to sense and respond to chemical signals produced by neighboring bacteria. They are widespread: over 100 morphologically and genetically distinct species of eubacteria are known to use quorum sensing to control gene expression. This diversity suggests the potential to use natural protein variants to engineer parallel, input-specific, cell–cell communication pathways. However, only three distinct signaling pathways, Lux, Las, and Rhl, have been adapted for and broadly used in engineered systems. The paucity of unique quorum-sensing systems and their propensity for crosstalk limits the usefulness of our current quorum-sensing toolkit. This review discusses the need for more …
- Daer, Rene, Muller, Ryan Yue, Haynes, Karmella, et al.
- Created Date