Construction of Gpm6a/ReelinGFPCreERT2 by BAC recombination using a specific gene in hepatic mesothelial or stellate cells

AIM To prepare a Gpm6a/ReelinGFPCreERT2 construct with a rapid and reliable strategy using a bacterial artificial chromosome(BAC). METHODS Gpm6 a and Reelin BACs were purified and transformed into SW102 E. coli by electroporation. The GFPCreE RT2 fragment was prepared from a shuttle vector and trans...

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Published inWorld journal of gastroenterology : WJG Vol. 23; no. 2; pp. 224 - 231
Main Authors Shi, Hong-Bo, Lou, Jin-Li, Shi, Hong-Lin, Ren, Feng, Chen, Yu, Duan, Zhong-Ping
Format Journal Article
LanguageEnglish
Published Baishideng Publishing Group Inc 14.01.2017
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Basic Study
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Summary:AIM To prepare a Gpm6a/ReelinGFPCreERT2 construct with a rapid and reliable strategy using a bacterial artificial chromosome(BAC). METHODS Gpm6 a and Reelin BACs were purified and transformed into SW102 E. coli by electroporation. The GFPCreE RT2 fragment was prepared from a shuttle vector and transformed into SW102 E. coli carrying a BAC. Homologous recombination was induced in SW102 E. coli. Recombinant clones were screened and confirmed by PCR and restriction enzyme digestion. Recombinant clones were transformed into SW102 E. coli to remove the kanamycin unit.RESULTS A complete BAC was successfully transformed into SW102 E. coli by electroporation because BAC purified from SW102 E. coli showed the same pattern as the original BAC with Bam H I digestion. The GFPCre ERT2 fragment was deemed to have been prepared successfully because we obtained the same size fragment as expected. Homologous recombination was induced, and GFPCre ERT2 was deemed to have been inserted into the correct site of the BAC because we found the band change was the same as the expected pattern after restriction enzyme digestion. The kanamycin unit was deemed to have been removed successfully because we obtained different sizes of bands that were consistent with the results expected by PCR with different primers. CONCLUSION The construct of Gpm6 aGFPCreERT2 or ReelinGFPCreERT2 was prepared successfully, which will establish a foundation for tracing the hepatic stellate cell lineage and studying its function.
Bibliography:Hong-Bo Shi;Jin-Li Lou;Hong-Lin Shi;Feng Ren;Yu Chen;Zhong-Ping Duan;Beijing Institute of Hepatology, Beijing Youan Hospital, Capital Medical University;Clinical Laboratory Center, Beijing Youan Hospital, Capital Medical University;Artificial Liver Center, Beijing Youan Hospital, Capital Medical University
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Supported by National Natural Science Foundation of China, No. 81300349 and No. 81270532; the Beijing Natural Science Foundation, No. 7144216; the Beijing Nova Program, No. Z131107000413016; the Project of Science and Technology Activities of Preferred Overseas Personnel of Beijing (2014); the Project of Cultivation of High Level Medical Technical Personnel in the Health System of Beijing, No. 2014-3-090 and No. 2013-3-071; Beijing Municipal Institute of public medical research development and reform pilot project, No. 2016-2.
Correspondence to: Zhong-Ping Duan, MD, PhD, Professor, Beijing Institute of Hepatology, Beijing Youan Hospital, Capital Medical University, 8 Xitoutiao, Youwai Street, Fengtai District, Beijing 100069, China. duan2517@163.com
Telephone: +86-10-63291007 Fax: +86-10-63295258
Author contributions: Shi HB and Lou JL contributed equally to this work; Shi HB and Shi HL carried out most of the experiments; Ren F purified the strain and performed PCR; Chen Y analyzed the pattern of restriction enzyme digestion; Shi HB drafted the manuscript, and Lou JL analyzed the experimental data; Duan ZP and Lou JL conceived and supervised the study; Duan ZP was involved in editing the manuscript; all authors read and approved the final manuscript.
ISSN:1007-9327
2219-2840
DOI:10.3748/wjg.v23.i2.224