BW25113 Competent Cells Prepared Using a Simple Chemical Method Have Unmatched Transformation and Cloning Efficiencies

Overview

Journal Front Microbiol

Specialty Microbiology

Date 2022 Apr 11

PMID 35401484

Authors

Yuqing Yang

Qiaoli Yu

Min Wang

Rui Zhao

Huaiwei Liu

Luying Xun

Yongzhen Xia

Affiliations

Soon will be listed here.

Abstract

strains are usually used for cloning to prevent insert instability RecA-dependent recombination. Here, we report that BW25113 ( ) competent cells prepared by using a previously reported transformation and storage solution (TSS) had 100-fold or higher transformation efficiency than the commonly used cloning strains, including XL1-Blue MRF'. The cloning success rates with BW25113 were 440 to 1,267-fold higher than those with XL1-Blue MRF' when several inserts were assembled into four vectors by using a simple DNA assembly method. The difference was in part due to RecA, as the deletion in BW25113 reduced the transformation efficiency by 16 folds and cloning success rate by about 10 folds. However, the transformation efficiency and the cloning success rate of the deletion mutant of BW25113 are still 12- and >48-fold higher than those of XL1-Blue MRF', which is a commonly used cloning strain. The cloned inserts with different lengths of homologous sequences were assembled into four vectors and transformed into BW25113, and they were stably maintained in BW25113. Thus, we recommend using BW25113 for efficient cloning and DNA assembly.

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