Cell Wall-Treated Lactococcus lactis Increases the Plasmid Transfer Efficiency of Internal Ribosome Entry Site-Incorporated Lactococcal Bicistronic Vector into DF1 Cells.

IF 1.2 Q2 Biochemistry, Genetics and Molecular Biology
Nurulfiza Mat Isa, Nur Elina Abdul Mutalib, Noorjahan Banu Alitheen, Adelene Ai-Lian Song, Raha Abdul Rahim
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引用次数: 0

Abstract

This study demonstrates that cell wall treatment of Lactococcus lactis harbouring the internal ribosome entry site-incorporated lactococcal bicistronic vector pNZ:VIG mediated the delivery of genes into an eukaryotic cell line, DF1 cells, through bactofection. Bactofection analysis showed that the pNZ:VIG plasmid in L. lactis can be transferred into DF1 cells and that both the VP2 and gfp genes cloned in the plasmid can be transcribed and translated. The protein band relative to the Mr of VP2 protein (49 kDa) was successfully detected via Western blot analysis, while green fluorescence was successfully detected using a fluorescence microscope. The intensity of the bands detected increased for samples treated with both 1.5% (w/v) glycine and 10 μg/mL of lysozyme when compared to L. lactis treated with glycine alone and without treatment. Cell wall treatment of L. lactis with a combination of both glycine and lysozyme was not only shown to mediate plasmid transfer to DF1 cells, but also to increase the plasmid transfer efficiency.

细胞壁处理乳酸乳球菌提高了内核糖体进入位点结合乳球菌双链载体向DF1细胞的质粒转移效率。
本研究表明,乳酸乳球菌细胞壁处理含有内部核糖体进入位点,结合乳球菌双胞载体pNZ:VIG介导基因通过细菌感染进入真核细胞系DF1细胞。细菌感染分析表明,乳酸菌pNZ:VIG质粒可转入DF1细胞,克隆的VP2和gfp基因均可转录和翻译。Western blot分析成功检测到VP2蛋白Mr (49 kDa)相关的蛋白带,荧光显微镜成功检测到绿色荧光。1.5% (w/v)甘氨酸和10 μg/mL溶菌酶处理的乳酸乳杆菌的条带强度均高于单独处理和未处理的乳酸乳杆菌。甘氨酸和溶菌酶联合处理乳杆菌细胞壁,不仅可以介导质粒向DF1细胞的转移,而且可以提高质粒的转移效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Molecular Microbiology and Biotechnology
Journal of Molecular Microbiology and Biotechnology 生物-生物工程与应用微生物
CiteScore
3.90
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: We are entering a new and exciting era of microbiological study and application. Recent advances in the now established disciplines of genomics, proteomics and bioinformatics, together with extensive cooperation between academic and industrial concerns have brought about an integration of basic and applied microbiology as never before.
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