AI Article Synopsis
- Protein tandem repeats (TRs) are sequences made of nearly identical duplications and account for about 14% of all proteins, playing key roles in various biological processes and interactions.
- The repetitive DNA sequences that code for TRs make them difficult to synthesize and modify using traditional techniques in molecular biology.
- A new computational method called TReSR was developed to redesign these DNA sequences for easier manipulation, demonstrating its effectiveness by creating a novel repressor from the LacI DNA binding domain, which can now be more easily used in protein engineering and synthetic biology projects.
Article Abstract
Protein tandem repeats (TRs) are motifs comprised of near-identical contiguous sequence duplications. They are found in approximately 14% of all proteins and are implicated in diverse biological functions facilitating both structured and disordered protein-protein and protein-DNA interactions. These functionalities make protein TR domains an attractive component for the modular design of protein constructs. However, the repetitive nature of DNA sequences encoding TR motifs complicates their synthesis and mutagenesis by traditional molecular biology workflows commonly employed by protein engineers and synthetic biologists. To address this challenge, we developed a computational protocol to significantly reduce the complementarity of DNA sequences encoding TRs called TReSR (for Tandem Repeat DNA Sequence Redesign). The utility of TReSR was demonstrated by constructing a novel constitutive repressor synthesized by duplicating the LacI DNA binding domain into a single-chain TR construct by assembly PCR. Repressor function was evaluated by expression of a fluorescent reporter delivered on a single plasmid encoding a three-component genetic circuit. The successful application of TReSR to construct a novel TR-containing repressor with a DNA sequence that is amenable to PCR-based construction and manipulation will enable the incorporation of a wide range of TR-containing proteins for protein engineering and synthetic biology applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10096509 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0281228 | PLOS |
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