To address limitations in dosing and releasing cargo from engineered microbes, Din et al. harnessed a previously designed oscillatory genetic circuit to achieve the synchronized release of cancer-killing protein payloads. Here, we briefly recap this study published in 2016 and its transformative impact on the field.
- SEO Powered Content & PR Distribution. Get Amplified Today.
- Platoblockchain. Web3 Metaverse Intelligence. Knowledge Amplified. Access Here.
- Source: https://www.cell.com/trends/biotechnology/fulltext/S0167-7799(23)00028-8?rss=yes
More from Biotechnology Trends
Killing two birds with one stone: chemical and biological upcycling of polyethylene terephthalate plastics into food
Source Node: 1888695
Time Stamp: Sep 1, 2022
Multiproduct Microalgae Biorefineries Mediated by Ionic Liquids
Source Node: 802522
Time Stamp: Mar 13, 2021
Factors affecting the competitiveness of bacterial fermentation
Source Node: 1785257
Time Stamp: Nov 7, 2022
Protein–nucleic acid thermodynamic databases for specific uses
Source Node: 2054066
Time Stamp: Apr 10, 2023
Thermodynamic database supports deciphering protein-nucleic acid interactions
Source Node: 1792243
Time Stamp: Oct 19, 2022
Untethered: using remote magnetic fields for regenerative medicine
Source Node: 1851519
Time Stamp: Oct 8, 2022
Tapping the potential of Gram-positive bacteria for bioelectrochemical applications
Source Node: 1776331
Time Stamp: Dec 17, 2022
Multienzymatic synthesis of nylon monomers from vegetable oils
Source Node: 1863335
Time Stamp: Sep 26, 2022
Microalgae: a revolution for salt-affected soil remediation
Source Node: 1881553
Time Stamp: Sep 15, 2022
Insights into methanotroph carbon flux pave the way for methane biocatalysis
Source Node: 1924429
Time Stamp: Jan 27, 2023
Repurposing biomedical muscle tissue engineering for cellular agriculture: challenges and opportunities
Source Node: 2006582
Time Stamp: Mar 11, 2023