AI Article Synopsis
- The avidin/biotin reaction is a common method used in research for immobilization and detection, but creating effective biotin-binding constructs is challenging due to poor solubility in bacterial systems.
- A new reporter fusion has been developed that combines the bioluminescence of Gaussia luciferase with the biotin-binding capability of tamavidin 2, allowing for enhanced signaling in biological assays.
- This construct is produced via a cold-shock expression system, making it possible to obtain high concentrations of the protein while maintaining its activity, and it has been successfully tested for sensitive detection of multiple miRNA targets.
Article Abstract
Despite the avidin/biotin reaction being one of the most ubiquitous noncovalent immobilization and sensing strategies in scientific research, the ability to synthesize useful amounts of biotin-binding fusion constructs is hampered by poor solubility in bacterial expression systems. As such, there are few reports of successful genetic reporter fusions incorporating a biotin-binding partner. To address this, a sensitivity-enhanced, synthetically facile reporter fusion is developed to merge the bioluminescence output of Gaussia luciferase (Gluc) with the recently characterized biotin-binding ability of tamavidin 2 (TA2) for general and universal signaling applications in biological and analytical systems. This fusion construct enables direct bacterial expression of a reporter system incorporating two important functionalities in a 1:1 stoichiometric relationship that can provide detection of discrete events at low concentrations. Using a cold-shock expression system, highly concentrated construct can be obtained from standard culture volumes while retaining essentially native protein activity. To demonstrate feasibility and provide an example application, this fusion construct is then included in a standard target-bridged assay design for the sensitive detection of four miRNA targets.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7169980 | PMC |
| http://dx.doi.org/10.1002/adbi.201900166 | DOI Listing |
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