Improved Combinatorial Assembly and Barcode Sequencing for Gene-Sized DNA Constructs

Overview

Journal ACS Synth Biol

Publisher American Chemical Society

Specialties Biotechnology
Molecular Biology

Date 2023 Aug 15

PMID 37582217

Authors

Diana Hernandez Hernandez

Lin Ding

Ayako Murao

Lukas R Dahlin

Gabriella Li

Kathleen L Arnolds

Melissa Amezola

Amit Klein

Aishwarya Mitra

Sonia Mecacci

Jeffrey G Linger

Michael T Guarnieri

Yo Suzuki

Affiliations

Soon will be listed here.

Abstract

Synergistic and supportive interactions among genes can be incorporated in engineering biology to enhance and stabilize the performance of biological systems, but combinatorial numerical explosion challenges the analysis of multigene interactions. The incorporation of DNA barcodes to mark genes coupled with next-generation sequencing offers a solution to this challenge. We describe improvements for a key method in this space, CombiGEM, to broaden its application to assembling typical gene-sized DNA fragments and to reduce the cost of sequencing for prevalent small-scale projects. The expanded reach of the method beyond currently targeted small RNA genes promotes the discovery and incorporation of gene synergy in natural and engineered processes such as biocontainment, the production of desired compounds, and previously uncharacterized fundamental biological mechanisms.

Citing Articles

Automated Design of Oligopools and Rapid Analysis of Massively Parallel Barcoded Measurements.

Hossain A, Cetnar D, LaFleur T, McLellan J, Salis H ACS Synth Biol. 2024; 13(12):4218-4232.

PMID: 39641628 PMC: 11669329. DOI: 10.1021/acssynbio.4c00661.

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