Development of a small shuttle plasmid for use in oral Veillonella and initial appraisal of potential for fluorescence-based applications.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-05 DOI:10.1093/lambio/ovae069
M Paula Goetting-Minesky, Jordan Kim, Duane T White, Michael Hayashi, Alexander H Rickard, J Christopher Fenno
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Abstract

Oral Veillonella species are among the early colonizers of the human oral cavity. We constructed a small, single-selectable-marker shuttle plasmid, examined its ability to be transformed into diverse oral Veillonella strains, and assessed its potential use for expressing a gene encoding an oxygen-independent fluorescent protein, thus generating a fluorescent Veillonella parvula strain. Because tetracycline resistance is common in Veillonella, we replaced genes encoding ampicillin- and tetracycline-resistance in a previously described shuttle plasmid (pBSJL2) with a chloramphenicol acetyltransferase gene. The resulting plasmid pCF1135 was successfully introduced into four strains representing V. parvula and V. atypica by either natural transformation or electroporation. We then modified this plasmid to express a gene encoding an oxygen-independent fluorescent protein in V. parvula SKV38. The resulting strain yielded a fluorescence signal intensity ∼16 times higher than the wild type in microplate-based fluorimetry experiments. While fluorescence microscopy demonstrated that planktonic cells, colonies, and biofilms of fluorescent V. parvula could also be imaged, photobleaching was a significant issue. In conclusion, we anticipate this genetic system and information provided here will facilitate expanded studies of oral Veillonella species' properties and behavior.

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开发用于口服 Veillonella 的小型穿梭质粒,并初步评估基于荧光的应用潜力。
口腔维氏菌是人类口腔的早期定植菌之一。我们构建了一个小型、单一可选择标记的穿梭质粒,检验了其转化为不同口腔维龙菌菌株的能力,并评估了其用于表达编码不依赖氧的荧光蛋白的基因的潜力,从而产生了一种荧光副维龙菌菌株。由于四环素抗性在维氏菌中很常见,我们用氯霉素乙酰转移酶基因替换了之前描述的穿梭质粒(pBSJL2)中编码氨苄西林和四环素抗性的基因。由此产生的质粒 pCF1135 通过自然转化或电穿孔成功地导入了四株代表 V. parvula 和 V. atypica 的菌株中。然后,我们对该质粒进行了改造,使其在副栉水母 SKV38 中表达一种编码不依赖氧的荧光蛋白的基因。在基于微孔板的荧光测定法实验中,产生的菌株的荧光信号强度比野生型高出约 16 倍。荧光显微镜显示,荧光噬菌体的浮游细胞、菌落和生物膜也能成像,但光漂白是一个重要问题。总之,我们预计这种基因系统和本文提供的信息将有助于扩大对口腔 Veillonella 物种特性和行为的研究。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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