作 者:宛雯��、李璐璐�����、徐倩倩����、王哲凡��、姚遠(yuǎn)�、汪榮亮、張佳�、劉海燕、高曉連���、洪泂
Abstract:
The development of economical de novo gene synthesis methods using microchip-synthesized oligonucleotides has been limited by their high error rates. In this study, a low-cost, effective and improved-throughput (up to 32 oligos per run) error-removal method using an immobilized cellulose column containing the mismatch binding protein MutS was produced to generate high-quality DNA from oligos, particularly microchip-synthesized oligonucleotides. Error-containing DNA in the initial material was specifically retained on the MutS-immobilized cellulose column (MICC), and error-depleted DNA in the eluate was collected for downstream gene assembly. Significantly, this method improved a population of synthetic enhanced green fluorescent protein (720 bp) clones from 0.93% to 83.22%, corresponding to a decrease in the error frequency of synthetic gene from 11.44/kb to 0.46/kb. In addition, a parallel multiplex MICC error-removal strategy was also evaluated in assembling 11 genes encoding ~21 kb of DNA from 893 oligos. The error frequency was reduced by 21.59-fold (from 14.25/kb to 0.66/kb), resulting in a 24.48-fold increase in the percentage of error-free assembled fragments (from 3.23% to 79.07%). Furthermore, the standard MICC error-removal process could be completed within 1.5
h at a cost as low as $0.374 per MICC.
DOI: 10.1093/nar/gku405
版權(quán)與免責(zé)聲明:本網(wǎng)頁(yè)的內(nèi)容由收集互聯(lián)網(wǎng)上公開發(fā)布的信息整理獲得�。目的在于傳遞信息及分享�����,并不意味著贊同其觀點(diǎn)或證實(shí)其真實(shí)性,也不構(gòu)成其他建議�。僅提供交流平臺(tái),不為其版權(quán)負(fù)責(zé)��。如涉及侵權(quán)����,請(qǐng)聯(lián)系我們及時(shí)修改或刪除����。郵箱:sales@allpeptide.com