Anna Bonaterra
Overview
Explore the profile of Anna Bonaterra including associated specialties, affiliations and a list of published articles.
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Articles
22
Citations
289
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Recent Articles
1.
Riesco-Llach G, Oliveras A, Gil-Caballero S, Badosa E, Bonaterra A, Montesinos E, et al.
J Biomol Struct Dyn
. 2025 Jan;
:1-18.
PMID: 39885784
Antimicrobial and plant defence elicitor peptides have received attention on last decades as novel tools to combat bacterial plant diseases. We previously reported a library of peptide conjugates resulting from...
2.
Moll L, Badosa E, De La Fuente L, Montesinos E, Planas M, Bonaterra A, et al.
Plant Dis
. 2024 Sep;
109(2):327-340.
PMID: 39254847
is a xylem-limited plant pathogenic bacterium that is a menace to the agriculture worldwide, threating economically relevant crops such as almond. The pathogen presents a dual lifestyle in the plant...
3.
Moll L, Giralt N, Planas M, Feliu L, Montesinos E, Bonaterra A, et al.
Plant Cell Rep
. 2024 Jul;
43(8):190.
PMID: 38976088
New defense elicitor peptides have been identified which control Xylella fastidiosa infections in almond. Xylella fastidiosa is a plant pathogenic bacterium that has been introduced in the European Union (EU),...
4.
Daranas N, Badosa E, Montesinos E, Bonaterra A
Front Microbiol
. 2024 Jan;
14:1324965.
PMID: 38249452
The ecological fitness of the biological control strains A17 and PM411 was evaluated in different crops, geographical zones, and growing seasons. Both strains (2 g L of dried formulation) were...
5.
Badosa E, Planas M, Feliu L, Montesinos L, Bonaterra A, Montesinos E
Microorganisms
. 2022 Sep;
10(9).
PMID: 36144386
The control of plant diseases caused by bacteria that seriously compromise crop productivity around the world is still one of the most important challenges in food security. Integrated approaches for...
6.
Bonaterra A, Badosa E, Daranas N, Frances J, Rosello G, Montesinos E
Microorganisms
. 2022 Sep;
10(9).
PMID: 36144361
Biological control is an effective and sustainable alternative or complement to conventional pesticides for fungal and bacterial plant disease management. Some of the most intensively studied biological control agents are...
7.
Oliveras A, Camo C, Caravaca-Fuentes P, Moll L, Riesco-Llach G, Gil-Caballero S, et al.
Appl Environ Microbiol
. 2022 May;
88(12):e0057422.
PMID: 35638842
Thirty peptide conjugates were designed by combining an antimicrobial peptide (BP16, BP100, BP143, KSL-W, BP387, or BP475) at the N- or C-terminus of a plant defense elicitor peptide (flg15, BP13,...
8.
Moll L, Baro A, Montesinos L, Badosa E, Bonaterra A, Montesinos E
Phytopathology
. 2022 Apr;
112(9):1907-1916.
PMID: 35384723
is a plant pathogenic bacterium that has been introduced in the European Union (EU), causing significant yield losses in economically important Mediterranean crops. Almond leaf scorch (ALS) is currently one...
9.
Moll L, Badosa E, Planas M, Feliu L, Montesinos E, Bonaterra A
Front Microbiol
. 2021 Nov;
12:753874.
PMID: 34819923
is a plant pathogen that was recently introduced in Europe and is causing havoc to its agriculture. This Gram-negative bacterium invades the host xylem, multiplies, and forms biofilm occluding the...
10.
Oliveras A, Moll L, Riesco-Llach G, Tolosa-Canudas A, Gil-Caballero S, Badosa E, et al.
Int J Mol Sci
. 2021 Jul;
22(12).
PMID: 34205705
From a previous collection of lipopeptides derived from , we selected 18 sequences in order to improve their biological profile. In particular, analogues containing a D-amino acid at position 4...