• 미생물학회지
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• 제30권4호
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• pp.286-290
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• 1992

광주근교 지역의 근권 토양으로부터 cetrimide agar medium을 이용하여 형광성 pseudomonads를 분리하였고, CAS medium에서 siderophore의 생성능력이 우수한 pseudomonads만을 분리하여 생리화학적인 실험을 수행하였다. Kanamycin-sensitive pseudomonads를 Tn5를 이용한 mutagenesis를 실시하여 Kanamycin에 내성을 갖는 transconjugants를 선별하였고, siderophore 생합성을 하지 못하는 돌연변이주를 선별하기 위하여 CAS medium에서 yellow hallow를 형성하지 못하거나 King's B medium에서 형광성을 나타내지 못하는 colony를 선별하였다. 선별된 mutants들의 genomic DNA에 Tn5가 삽입되었는지를 확인하기 위하여 Southern blot hybridization을 실시한 결과 intact Tn5에 homology를 나타내는 하나의 single band를 확인하였다.

• The Plant Pathology Journal
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• 제37권6호
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• pp.555-565
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• 2021

Bacteriophages infecting Acidovorax citrulli, the causal agent of bacterial fruit blotch, have been proven to be effective for the prevention and control of this disease. However, the occurrence of bacteriophage-resistant bacteria is one of hurdles in phage biocontrol and the understanding of phage resistance in this bacterium is an essential step. In this study, we aim to investigate possible phage resistance of A. citrulli and relationship between phage resistance and pathogenicity, and to isolate and characterize the genes involved in these phenomena. A phage-resistant and less-virulent mutant named as AC-17-G1 was isolated among 3,264 A. citrulli Tn5 mutants through serial spot assays and plaque assays followed by pathogenicity test using seed coating method. The mutant has the integrated Tn5 in the middle of a cupin protein gene. This mutant recovered its pathogenicity and phage sensitivity by complementation with corresponding wild-type gene. Site-directed mutation of this gene from wild-type by CRISPR/Cas9 system resulted in the loss of pathogenicity and acquisition of phage resistance. The growth of AC-17-G1 in King's B medium was much less than the wild-type, but the growth turned into normal in the medium supplemented with D-mannose 6-phosphate or D-fructose 6-phosphate indicating the cupin protein functions as a phosphomannos isomerase. Sodium dodecyl sulfa analysis of lipopolysaccharide (LPS) extracted from the mutant was smaller than that from wild-type. All these data suggest that the cupin protein is a phosphomannos isomerase involved in LPS synthesis, and LPS is an important determinant of pathogenicity and phage susceptibility of A. citrulli.