A frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits

A frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits

Abstract Background Frame-shifted genes results in non-functional peptides. Because of this complete loss of function, frame-shifted genes have never been used in constructing synthetic gene circuits. Results Here we report that the function of gene circuits is rescued by a frame-shifted gene, which...

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Main Authors: Kathakali Sarkar, Sayak Mukhopadhyay, Deepro Bonnerjee, Rajkamal Srivastava, Sangram Bagh
Format: Article
Language:English
Published: BMC 2019-03-01
Series:Journal of Biological Engineering
Subjects:
Frame-shifted gene
Non-natural start codons
Rescued function
Synthetic gene circuits
E. coli
Non-directed evolution of synthetic gene circuit
Online Access:http://link.springer.com/article/10.1186/s13036-019-0151-x
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spelling doaj-5f12b12313734d37b04c5485d706d3222020-11-25T02:08:41ZengBMCJournal of Biological Engineering1754-16112019-03-0113111010.1186/s13036-019-0151-xA frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuitsKathakali Sarkar0Sayak Mukhopadhyay1Deepro Bonnerjee2Rajkamal Srivastava3Sangram Bagh4Biophysics and Structural Genomics Division, Saha Institute of Nuclear Physics, Homi Bhabha National InstituteBiophysics and Structural Genomics Division, Saha Institute of Nuclear Physics, Homi Bhabha National InstituteBiophysics and Structural Genomics Division, Saha Institute of Nuclear Physics, Homi Bhabha National InstituteBiophysics and Structural Genomics Division, Saha Institute of Nuclear Physics, Homi Bhabha National InstituteBiophysics and Structural Genomics Division, Saha Institute of Nuclear Physics, Homi Bhabha National InstituteAbstract Background Frame-shifted genes results in non-functional peptides. Because of this complete loss of function, frame-shifted genes have never been used in constructing synthetic gene circuits. Results Here we report that the function of gene circuits is rescued by a frame-shifted gene, which functions by translating from a non-natural start codon. We report a single nucleotide deletion mutation that developed in the λ-repressor cI within a synthetic genetic NOT gate in Escherichia coli during growth and through this mutation, a non-functional synthetic gene circuit became functional. This mutation resulted in a frame-shifted cI, which showed effective functionality among genetic NOT-gates in Escherichia coli with high regulatory ranges (> 300) and Hill coefficient (> 6.5). The cI worked over a large range of relative copy numbers between the frame-shifted gene and its target promoter. These properties make this frame-shifted gene an excellent candidate for building synthetic gene circuits. We hypothesized a new operating mechanism and showed evidence that frame-shifted cI was translated from non-natural start codon. We have engineered and tested a series of NOT gates made from a library of cI genes, each of which starts from a different codon within the first several amino acids of the frame-shifted cI. It is found that one form with start codon ACA, starting from the 3rd codon had similar repression behavior as the whole frame-shifted gene. We demonstrated synthetic genetic NAND and NOR logic-gates with frame-shifted cI. This is the first report of synthetic-gene-circuits made from a frame-shifted gene. Conclusions This study inspires a new view on frame-shifted gene and may serve as a novel way of building and optimizing synthetic-gene-circuits. This work may also have significance in the understanding of non-directed evolution of synthetic genetic circuits.http://link.springer.com/article/10.1186/s13036-019-0151-xFrame-shifted geneNon-natural start codonsRescued functionSynthetic gene circuitsE. coliNon-directed evolution of synthetic gene circuit
collection DOAJ
language English
format Article
sources DOAJ
author Kathakali Sarkar
Sayak Mukhopadhyay
Deepro Bonnerjee
Rajkamal Srivastava
Sangram Bagh
spellingShingle Kathakali Sarkar
Sayak Mukhopadhyay
Deepro Bonnerjee
Rajkamal Srivastava
Sangram Bagh
A frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits
Journal of Biological Engineering
Frame-shifted gene
Non-natural start codons
Rescued function
Synthetic gene circuits
E. coli
Non-directed evolution of synthetic gene circuit
author_facet Kathakali Sarkar
Sayak Mukhopadhyay
Deepro Bonnerjee
Rajkamal Srivastava
Sangram Bagh
author_sort Kathakali Sarkar
title A frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits
title_short A frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits
title_full A frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits
title_fullStr A frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits
title_full_unstemmed A frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits
title_sort frame-shifted gene, which rescued its function by non-natural start codons and its application in constructing synthetic gene circuits
publisher BMC
series Journal of Biological Engineering
issn 1754-1611
publishDate 2019-03-01
description Abstract Background Frame-shifted genes results in non-functional peptides. Because of this complete loss of function, frame-shifted genes have never been used in constructing synthetic gene circuits. Results Here we report that the function of gene circuits is rescued by a frame-shifted gene, which functions by translating from a non-natural start codon. We report a single nucleotide deletion mutation that developed in the λ-repressor cI within a synthetic genetic NOT gate in Escherichia coli during growth and through this mutation, a non-functional synthetic gene circuit became functional. This mutation resulted in a frame-shifted cI, which showed effective functionality among genetic NOT-gates in Escherichia coli with high regulatory ranges (> 300) and Hill coefficient (> 6.5). The cI worked over a large range of relative copy numbers between the frame-shifted gene and its target promoter. These properties make this frame-shifted gene an excellent candidate for building synthetic gene circuits. We hypothesized a new operating mechanism and showed evidence that frame-shifted cI was translated from non-natural start codon. We have engineered and tested a series of NOT gates made from a library of cI genes, each of which starts from a different codon within the first several amino acids of the frame-shifted cI. It is found that one form with start codon ACA, starting from the 3rd codon had similar repression behavior as the whole frame-shifted gene. We demonstrated synthetic genetic NAND and NOR logic-gates with frame-shifted cI. This is the first report of synthetic-gene-circuits made from a frame-shifted gene. Conclusions This study inspires a new view on frame-shifted gene and may serve as a novel way of building and optimizing synthetic-gene-circuits. This work may also have significance in the understanding of non-directed evolution of synthetic genetic circuits.
topic Frame-shifted gene
Non-natural start codons
Rescued function
Synthetic gene circuits
E. coli
Non-directed evolution of synthetic gene circuit
url http://link.springer.com/article/10.1186/s13036-019-0151-x
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