Burkholderia species in human infections in Mexico: Identification of B. cepacia, B. contaminans, B. multivorans, B. vietnamiensis,B. pseudomallei and a new Burkholderia species

Meza-Radilla, Georgina; Larios-Serrato, Violeta; Hernández‐Castro, Rigoberto; Ibarra, J. Antonio; Santos, Paulina Estrada‐de los

doi:10.1371/journal.pntd.0009541

Cited by 5 publications

(1 citation statement)

References 48 publications

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“…known as Pseudomonas cepacia could cause decay of onion bulbs in 1950. Subsequently, several studies have reported this bacterium as an opportunistic human bacterial pathogen (Martina et al, 2018;Radilla et al, 2021). However, in agriculture, B. cepacia has multiple functions such as biological control, biodegradation, and promoting plant growth, showing its broader agricultural application pros-Cauduro been developed correspondingly with the advancements in molecular biology techniques.…”

Section: Discussionmentioning

confidence: 99%

Identification of postharvest fruit biocontrol strain Burkholderia contaminans against fungi decay

Shi¹,

Du²

2023

Europ.J.Hortic.Sci.

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Botrytis cinerea (gray mold) infection can causepostharvest quality decline of various fruits, resulting in huge economic losses. The use of fungicides to maintain fruit quality will lead to potential environmental pollution, harming human health. successfully applied to control postharvest diseases of fruits. In the present study, bacterial strain B-1 with a high antifungal activity against Botrytis cinerea was isolated from the surface of apricots. Combining morphological and biochemical characterization with 16S rDNA and recA gene sequencing, this bacterial Burkholderia contaminans, which is a kind of B. cepacia complex (Bcc). In order to further reveal its antifungal mechanism, the bacterial cells were lysed, and a protein with antifungal activity was isolated by DEAE-52 ionexchange chromatography and sephadex G-100 gel a molecular weight of 17.5 kD was analyzed by mass spectrometry and retrieved from ncbiprot database, and was determined to be as superoxide dismutase.The bacterial protein could effectively inhibit mycelia growth of B. cinerea, Penicillium expansum, and Alternaria tenuissima in vitro. The protein exhibited a broad-spectrum antifungal activity against nine pathogenic fungi. Moreover, it could cinee mildew in grape and strawberry fruits. After six days of inoculation with antifungal crude protein, the inhibition rates of grape and strawberry fruits were 88.97% and 86.55%, respectively. In addition, it could affect the DNA level, reactive oxygen species and mitochondrial membrane potential in pathogenic fungi. This study demonstrated that the B. contaminans B-1 strain had a great potential to be used a biocontrol microorganism to protect against postharvest fruit fungal decay.

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Section: Discussionmentioning

confidence: 99%