Uncovering the potential of Bacillus amyloliquefaciens 14C2 against plant- parasitic nematodes
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Abstract
Plant-parasitic nematodes (PPN) are major constraints to agriculture
worldwide, affecting nearly all cultivated crops. The sustainable control of these
PPN is currently focused on biological strategies with low impact on the
environmental and human health, such as biological control. The genus Bacillus is
one of the most studied bacterial genera expressing antagonistic potential against
several important PPN. Their nematicidal effect is usually linked to the production
of several toxic molecules (e.g., shingosine produced by B. cereus S2 or secreted
proteases of endophytic B. cereus BCM2, both against the PPN Meloidogyne
incognita; or other proteases of B. cereus i.24 and Lysobacter capsica i.17 against
the root-lesion nematode Pratylenchus penetrans). Previously, we have evaluated
the nematicidal potential of endophytic and soil-inhabiting PGPR from genus
Bacillus against P. penetrans. In this work, we analysed the complete genome
sequence of B. amyloliquefaciens (= B. velezensis) 14C2 in search of potential
proteases to be explored as natural nematicides. The genome size of B.
amyloliquefaciens 14C2 is 3,528,213 bp with an average of GC content of 46.5% and
consists of one chromosome of 3.9 Mbp encoding for 3935 protein-coding and 131
RNA genes. Several serine proteases (C2_GM001392, C2_GM001840,
C2_GM001358, C2_GM003264 and C2_GM004060), known to be related with
nematicidal effect in other bacteria, have been identified and validated. Moreover,
247 proteins involved in biosynthesis of secondary metabolites pathways, also a
source of nematoxic molecules, were identified. The B. amyloliquefaciens 14C2
genome has shown to be a potential source for the development of new
biotechnological nematicides.
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Gordo J, Barbosa P, Espada M, Vicente CSL (2025)Uncovering the potential of Bacillus amyloliquefaciens 14C2 against plant-
parasitic nematodes. Microbiotec 2025, 4-6 Dezembro (Ponta Delgada, Portugal)