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Literature DB >> 24810038

Engineering genetic circuits that compute and remember.

Piro Siuti¹, John Yazbek², Timothy K Lu³.

Abstract

Memory and logic are central to complex state-dependent computing, and state-dependent behaviors are a feature of natural biological systems. Recently, we created a platform for integrated logic and memory by using synthetic gene circuits, and we demonstrated the implementation of all two-input logic gates with memory in living cells. Here we provide a detailed protocol for the construction of two-input Boolean logic functions with concomitant DNA-based memory. This technology platform allows for straightforward assembly of integrated logic-and-memory circuits that implement desired behaviors within a couple of weeks. It should enable the encoding of advanced computational operations in living cells, including sequential-logic and biological-state machines, for a broad range of applications in biotechnology, basic science and biosensing.

Entities: Species

Mesh：

Substances：
Recombinases

Year: 2014 PMID： 24810038 DOI： 10.1038/nprot.2014.089

Source DB: PubMed Journal: Nat Protoc ISSN： 1750-2799 Impact factor: 13.491

29 in total

1. Quantitative comparison of DNA looping in vitro and in vivo: chromatin increases effective DNA flexibility at short distances.

Authors: L Ringrose; S Chabanis; P O Angrand; C Woodroofe; A F Stewart
Journal: EMBO J Date: 1999-12-01 Impact factor: 11.598

5. Development of a high efficiency integration system and promoter library for rapid modification of Pseudomonas putida KT2440.

Authors: Joshua R Elmore; Anna Furches; Gara N Wolff; Kent Gorday; Adam M Guss
Journal: Metab Eng Commun Date: 2017-04-15

6. A novel optogenetically tunable frequency modulating oscillator.

Authors: Tarun Mahajan; Kshitij Rai
Journal: PLoS One Date: 2018-02-01 Impact factor: 3.240

6 in total

Engineering genetic circuits that compute and remember.

1. Quantitative comparison of DNA looping in vitro and in vivo: chromatin increases effective DNA flexibility at short distances.

2. Construction of a genetic toggle switch in Escherichia coli.

3. Positive feedback in eukaryotic gene networks: cell differentiation by graded to binary response conversion.

4. Programmable single-cell mammalian biocomputers.

Review 5. Synthetic biology: an emerging engineering discipline.

6. Genetic switchboard for synthetic biology applications.

7. A tightly regulated inducible expression system utilizing the fim inversion recombination switch.

8. Mapping the environmental fitness landscape of a synthetic gene circuit.

9. Design, construction and characterization of a set of insulated bacterial promoters.

Review 10. Using movies to analyse gene circuit dynamics in single cells.

1. Stretchable living materials and devices with hydrogel-elastomer hybrids hosting programmed cells.

Review 2. Control theory meets synthetic biology.

3. A Recombinase-Based Genetic Circuit for Heavy Metal Monitoring.

4. An organic jelly made fractal logic gate with an infinite truth table.

5. Development of a high efficiency integration system and promoter library for rapid modification of Pseudomonas putida KT2440.

6. A novel optogenetically tunable frequency modulating oscillator.