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Showing 1–6 of 6 results

Advanced filters: Author: Julius Fredens Clear advanced filters

Author Correction: Creating custom synthetic genomes in Escherichia coli with REXER and GENESIS

Wesley E. Robertson
Louise F. H. Funke
Jason W. Chin
Amendments and Corrections21 Nov 2024
Nature Protocols

P: 1
Total synthesis of Escherichia coli with a recoded genome

High-fidelity convergent total synthesis is used to produce Escherichia coli with a 61-codon synthetic genome that uses 59 codons to encode all of the canonical amino acids.

Julius Fredens
Kaihang Wang
Jason W. Chin
Research15 May 2019
Nature

Volume: 569, P: 514-518
Continuous synthesis of E. coli genome sections and Mb-scale human DNA assembly

BAC stepwise insertion synthesis (BASIS) can be used to build synthetic genomes for diverse organisms, and continuous genome synthesis (CGS) enables the rapid synthesis of entire Escherichia coli genomes from functional designs.

Jérôme F. Zürcher
Askar A. Kleefeldt
Jason W. Chin
Research28 Jun 2023
Nature

Volume: 619, P: 555-562
Defining synonymous codon compression schemes by genome recoding

REXER, a new method that allows long sections of DNA to be inserted or replaced in the genome of the bacterium Escherichia coli, is used to investigate codon replacement schemes for the generation of synthetic genomes.

Kaihang Wang
Julius Fredens
Jason W. Chin
Research24 Oct 2016
Nature

Volume: 539, P: 59-64
Quantitative proteomics by amino acid labeling in C. elegans

A method for performing quantitative proteomics experiments in Caenorhabditis elegans using stable-isotope labeling of lysine is described. The method can be coupled with RNA interference to examine global effects on the proteome. Also in this issue, Larance et al. describe a very similar method.

Julius Fredens
Kasper Engholm-Keller
Nils J Færgeman
Research28 Aug 2011
Nature Methods

Volume: 8, P: 845-847
Creating custom synthetic genomes in Escherichia coli with REXER and GENESIS

This protocol describes a recombination-based approach for accurate replacement of genomic DNA with large synthetic DNA fragments in E. coli (REXER). Iterative repetition of REXER (GENESIS) combined with genome assembly methods enables the creation of custom synthetic E. coli genomes.

Wesley E. Robertson
Louise F. H. Funke
Jason W. Chin
Protocols26 Apr 2021
Nature Protocols

Volume: 16, P: 2345-2380