Genome analysis of Bacillus amyloliquefaciens Subsp. plantarum UCMB5113: a rhizobacterium that improves plant growth and stress management

The Bacillus amyloliquefaciens subsp. plantarum strain UCMB5113 is a Gram-positive rhizobacterium that can colonize plant roots and stimulate plant growth and defense based on unknown mechanisms. This reinforcement of plants may provide protection to various forms of biotic and abiotic stress. To de...

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Bibliographic Details
Published in:PloS one 2014-08, Vol.9 (8), p.e104651
Main Authors: Niazi, Adnan, Manzoor, Shahid, Asari, Shashidar, Bejai, Sarosh, Meijer, Johan, Bongcam-Rudloff, Erik
Format: Article
Language:English
Subjects:
Acetic acid
Acetoin
Analysis
Annotations
Antibiotics
Arabidopsis
Arabidopsis - growth & development
Arabidopsis - microbiology
Bacillus
Bacillus - genetics
Bacillus amyloliquefaciens
Bacillus subtilis
Bacteria
Bacterial genetics
Bacterial Proteins - genetics
Base Sequence
Biofilms
Biofilms - growth & development
Bioinformatics
Bioinformatics and Systems Biology
Bioinformatik och systembiologi
Biology and Life Sciences
Biosurfactants
Biosynthesis
Brassica napus - growth & development
Brassica napus - microbiology
Breeding of animals
Carbohydrate metabolism
Carbohydrates
Cluster Analysis
Computational Biology
Enzymes
Fitness
Genes
Genetics
Genetics and Breeding
Genetik och förädling
Genome, Bacterial - genetics
Genomes
Genomics
Growth
Indoleacetic acid
Macromolecules
Metabolism
Metabolites
Microbiology
Microorganisms
Mikrobiologi
Molecular Sequence Annotation
Molecular Sequence Data
Motility
Nucleotide sequence
Nutrients
Organic acids
Pathogens
Phylogenetics
Phylogeny
Plant biology
Plant Biotechnology
Plant growth
Plant metabolites
Plant protection
Plant roots
Plant Roots - microbiology
Priming
Proteins
Reproductive fitness
Rhizosphere
Secondary metabolites
Sequence Analysis, DNA
Species Specificity
Stress management
Växtbioteknologi
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Summary:The Bacillus amyloliquefaciens subsp. plantarum strain UCMB5113 is a Gram-positive rhizobacterium that can colonize plant roots and stimulate plant growth and defense based on unknown mechanisms. This reinforcement of plants may provide protection to various forms of biotic and abiotic stress. To determine the genetic traits involved in the mechanism of plant-bacteria association, the genome sequence of UCMB5113 was obtained by assembling paired-end Illumina reads. The assembled chromosome of 3,889,532 bp was predicted to encode 3,656 proteins. Genes that potentially contribute to plant growth promotion such as indole-3-acetic acid (IAA) biosynthesis, acetoin synthesis and siderophore production were identified. Moreover, annotation identified putative genes responsible for non-ribosomal synthesis of secondary metabolites and genes supporting environment fitness of UCMB5113 including drug and metal resistance. A large number of genes encoding a diverse set of secretory proteins, enzymes of primary and secondary metabolism and carbohydrate active enzymes were found which reflect a high capacity to degrade various rhizosphere macromolecules. Additionally, many predicted membrane transporters provides the bacterium with efficient uptake capabilities of several nutrients. Although, UCMB5113 has the possibility to produce antibiotics and biosurfactants, the protective effect of plants to pathogens seems to be indirect and due to priming of plant induced systemic resistance. The availability of the genome enables identification of genes and their function underpinning beneficial interactions of UCMB5113 with plants.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0104651