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Relevant bibliographies by topics / Subtilomycin

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Journal articles

Academic literature on the topic 'Subtilomycin'

Author: Grafiati

Published: 2 June 2025

Last updated: 31 July 2025

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Journal articles on the topic "Subtilomycin"

1

Deng, Yun, Cong-Zhi Li, Yi-Guang Zhu, et al. "ApnI, a Transmembrane Protein Responsible for Subtilomycin Immunity, Unveils a Novel Model for Lantibiotic Immunity." Applied and Environmental Microbiology 80, no. 20 (2014): 6303–15. http://dx.doi.org/10.1128/aem.02280-14.

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ABSTRACTSubtilomycin was detected from the plant endophytic strainBacillus subtilisBSn5 and was first reported fromB. subtilisstrain MMA7. In this study, a gene cluster that has been proposed to be related to subtilomycin biosynthesis was isolated from the BSn5 genome and was experimentally validated by gene inactivation and heterologous expression. Comparison of the subtilomycin gene cluster with other verified related lantibiotic gene clusters revealed a particular organization of the genesapnIandapnTdownstream ofapnAPBC, which may be involved in subtilomycin immunity. Through analysis of ex

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2

Robert, W. Phelan, Barret Matthieu, D. Cotter Paul, et al. "Subtilomycin: A New Lantibiotic from Bacillus subtilis Strain MMA7 Isolated from the Marine Sponge Haliclona simulans." Marine Drugs 11, no. 2013 (2013): 1879–98. https://doi.org/10.3390/md11061878.

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Bacteriocins are attracting increased attention as an alternative to classic antibiotics in the fight against infectious disease and multidrug resistant pathogens. Bacillus subtilis strain MMA7 isolated from the marine sponge Haliclona simulans displays a broad spectrum antimicrobial activity, which includes Gram-positive and Gram-negative pathogens, as well as several pathogenic Candida species. This activity is in part associated with a newly identified lantibiotic, herein named as subtilomycin. The proposed biosynthetic cluster is composed of six genes, including protein-coding genes for La

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3

Phelan, Robert, Matthieu Barret, Paul Cotter, et al. "Subtilomycin: A New Lantibiotic from Bacillus subtilis Strain MMA7 Isolated from the Marine Sponge Haliclona simulans." Marine Drugs 11, no. 6 (2013): 1878–98. http://dx.doi.org/10.3390/md11061878.

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4

Mengistu, Anteneh Ademe. "Endophytes: Colonization, Behaviour, and Their Role in Defense Mechanism." International Journal of Microbiology 2020 (July 30, 2020): 1–8. http://dx.doi.org/10.1155/2020/6927219.

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Biotic and abiotic factors cause an enormous amount of yield and economical loss. However, endophytes can play a significant role in enhancing the tolerance of plants. Endophytes systematically colonize different parts of the host, but plants use a variety of defense mechanisms towards microbial infection. However, they have to survive the oxidative environments, and endophytes like Enterobacter sp. encode superoxide dismutases, catalases, and hydroperoxide reductases to cope up the oxidative stress during colonization. On the contrary, others produce subtilomycin which binds with flagella to

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5

Deng, Yun, Hanqiao Chen, Congzhi Li, et al. "Endophyte Bacillus subtilis evade plant defense by producing lantibiotic subtilomycin to mask self-produced flagellin." Communications Biology 2, no. 1 (2019). http://dx.doi.org/10.1038/s42003-019-0614-0.

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Abstract Microbes can enter into healthy plants as endophytes and confer beneficial functions. The entry of commensal microbes into plants involves penetrating plant defense. Most mechanisms about overcoming plant defense are focused on adapted pathogens, while the mechanism involved in beneficial endophyte evades plant defense to achieve harmonious commensalism is unclear. Here, we discover a mechanism that an endophyte bacterium Bacillus subtilis BSn5 reduce to stimulate the plant defensive response by producing lantibiotic subtilomycin to bind self-produced flagellin. Subtilomycin bind with

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6

Long, Yu, Shaoru Chen, Xiaochen Xu, et al. "High-Quality Genome Resource of Bacillus subtilis N4, a Biological Control Agent Isolated from Phoebe bournei." Phytopathology®, November 15, 2022. http://dx.doi.org/10.1094/phyto-05-22-0163-a.

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Bacillus subtilis strain N4 was an endophyte of isolated from the healthy leaves of Phoebe bournei, and possesses an excellent biocontrol effect on P. bournei stem canker caused by Lasiodiplodia theobromae. To understand its biocontrol mechanism, we assembled a high-quality genome of N4 using a combination of second and third generation sequencing methods. The genome of N4 contains only one circular DNA chromosome of 4,218,183 bp length with 43.5% GC content, and 11 secondary metabolite biosynthesis gene clusters such as subtilomycin synthesis exist in the genome. Taken together, this high-qua

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7

Heo, Yunjeong, Younmi Lee, Kotnala Balaraju, and Yongho Jeon. "Characterization and evaluation of Bacillus subtilis GYUN-2311 as a biocontrol agent against Colletotrichum spp. on apple and hot pepper in Korea." Frontiers in Microbiology 14 (January 8, 2024). http://dx.doi.org/10.3389/fmicb.2023.1322641.

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Crop plants are vulnerable to a variety of diseases, including anthracnose, caused by various species of Colletotrichum fungi that damages major crops, including apples and hot peppers. The use of chemical fungicides for pathogen control may lead to environmental pollution and disease resistance. Therefore, we conducted this research to develop a Bacillus subtilis-based biological control agent (BCA). B. subtilis GYUN-2311 (GYUN-2311), isolated from the rhizosphere soil of an apple orchard, exhibited antagonistic activity against a total of 12 fungal pathogens, including eight Colletotrichum s

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8

Patil, Basavaprabhu L., Amulya M. Gopalkrishna, Sandeep G. M. Kumar, and R. Umamaheswari. "Molecular characterization of an endophytic strain of Bacillus subtilis with plant growth promoting properties from a wild relative of Papaya." Journal of Applied Microbiology, January 7, 2025. https://doi.org/10.1093/jambio/lxaf010.

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Abstract Aim Bacillus subtilis is usually found in soil, and their biocontrol and plant growth promoting capabilities are being explored more recently than ever. However, knowledge about metabolite production and genome composition of endophytic Bacillus subtilis from seeds is limited. In the present study, Bacillus subtilis EVCu15 strain isolated from the seeds of Vasconcellea cundinamarcensis (mountain papaya) was subjected to whole genome sequencing, and detailed molecular and functional characterization. Methods and Results Whole genome sequencing and sequence analysis of the endophytic ba

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