Dyas, Maria


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2021 (2)


article (1)
dataset (1)


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Link to this page

http://intor.torlakinstitut.com/APP/faces/author.xhtml?author_id=c21dd09b-6b2c-40b4-99c5-86b8a22cdfc8&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
c21dd09b-6b2c-40b4-99c5-86b8a22cdfc8	Dyas, Maria (2)

Projects

Grant Number: 12/RI/2346	Irish Research Council, GOIPD/2018/115
Q-Exactive mass spectrometer was funded under the SFI Research Infrastructure Call 2012

Author's Bibliography

Supplementary information for the article: Kosanović, D.; Dyas, M.; Grogan, H.; Kavanagh, K. Differential Proteomic Response of Agaricus Bisporus and Trichoderma Aggressivum f. Europaeum to Bacillus Velezensis Supernatant. European Journal of Plant Pathology 2021, 160 (2). https://doi.org/10.1007/s10658-021-02252-5.

Kosanović, Dejana; Dyas, Maria; Grogan, Helen; Kavanagh, Kevin

(Springer, 2021)

TY  - DATA
AU  - Kosanović, Dejana
AU  - Dyas, Maria
AU  - Grogan, Helen
AU  - Kavanagh, Kevin
PY  - 2021
UR  - http://intor.torlakinstitut.com/handle/123456789/638
AB  - Table S1. Bacterial species used in this study with amplicon deposition number obtained from NCBI GeneBank; Figure S1. 16S rRNA gene analysis; Figure S2. Specific protein analysis- gyrB gene analysis; Figure S3a. Zone of inhibition test on NA plates104 T. aggressivum conidia per plate vs 10 μl of bacterial overnight culture incubated on 30°C; Figure S3b. Zone of inhibition test on YMEA and NA plates 104 T. aggressivum conidia per plate vs 10 μl of bacterial overnight culture incubated on 25°C; Figure S4. The effect of 25%v/v bacterial supernatants on T. aggressivum growth was assessed. B. subtilis R8.3 supernatant was found to inhibit growth of T. aggressivum by 37% and that was the maximum effect compared to other bacterial supernatants; Figure S5. PCA analysis. □ - Control group and ∆ - T. aggresivum + B. velezensis SN group; Figure S6. Protein abundance similarities of two sample group (T. aggressivum control and T. aggressivum treated with B. velezensis SN) based on hierarchical clustering; Figure S7; Figure S8. PCA analysis. □ - Control group and ∆ - A. bisporus + B. velezensis SN group.
PB  - Springer
T2  - European Journal of Plant Pathology
T1  - Supplementary information for the article: Kosanović, D.; Dyas, M.; Grogan, H.; Kavanagh, K. Differential Proteomic Response of Agaricus Bisporus and Trichoderma Aggressivum f. Europaeum to Bacillus Velezensis Supernatant. European Journal of Plant Pathology 2021, 160 (2). https://doi.org/10.1007/s10658-021-02252-5.
IS  - 2
VL  - 160
VL  - 397
UR  - https://hdl.handle.net/21.15107/rcub_intor_638
ER  -

@misc{
author = "Kosanović, Dejana and Dyas, Maria and Grogan, Helen and Kavanagh, Kevin",
year = "2021",
abstract = "Table S1. Bacterial species used in this study with amplicon deposition number obtained from NCBI GeneBank; Figure S1. 16S rRNA gene analysis; Figure S2. Specific protein analysis- gyrB gene analysis; Figure S3a. Zone of inhibition test on NA plates104 T. aggressivum conidia per plate vs 10 μl of bacterial overnight culture incubated on 30°C; Figure S3b. Zone of inhibition test on YMEA and NA plates 104 T. aggressivum conidia per plate vs 10 μl of bacterial overnight culture incubated on 25°C; Figure S4. The effect of 25%v/v bacterial supernatants on T. aggressivum growth was assessed. B. subtilis R8.3 supernatant was found to inhibit growth of T. aggressivum by 37% and that was the maximum effect compared to other bacterial supernatants; Figure S5. PCA analysis. □ - Control group and ∆ - T. aggresivum + B. velezensis SN group; Figure S6. Protein abundance similarities of two sample group (T. aggressivum control and T. aggressivum treated with B. velezensis SN) based on hierarchical clustering; Figure S7; Figure S8. PCA analysis. □ - Control group and ∆ - A. bisporus + B. velezensis SN group.",
publisher = "Springer",
journal = "European Journal of Plant Pathology",
title = "Supplementary information for the article: Kosanović, D.; Dyas, M.; Grogan, H.; Kavanagh, K. Differential Proteomic Response of Agaricus Bisporus and Trichoderma Aggressivum f. Europaeum to Bacillus Velezensis Supernatant. European Journal of Plant Pathology 2021, 160 (2). https://doi.org/10.1007/s10658-021-02252-5.",
number = "2",
volume = "160, 397",
url = "https://hdl.handle.net/21.15107/rcub_intor_638"
}

Kosanović, D., Dyas, M., Grogan, H.,& Kavanagh, K.. (2021). Supplementary information for the article: Kosanović, D.; Dyas, M.; Grogan, H.; Kavanagh, K. Differential Proteomic Response of Agaricus Bisporus and Trichoderma Aggressivum f. Europaeum to Bacillus Velezensis Supernatant. European Journal of Plant Pathology 2021, 160 (2). https://doi.org/10.1007/s10658-021-02252-5.. in European Journal of Plant Pathology
Springer., 160(2).
https://hdl.handle.net/21.15107/rcub_intor_638

Kosanović D, Dyas M, Grogan H, Kavanagh K. Supplementary information for the article: Kosanović, D.; Dyas, M.; Grogan, H.; Kavanagh, K. Differential Proteomic Response of Agaricus Bisporus and Trichoderma Aggressivum f. Europaeum to Bacillus Velezensis Supernatant. European Journal of Plant Pathology 2021, 160 (2). https://doi.org/10.1007/s10658-021-02252-5.. in European Journal of Plant Pathology. 2021;160(2).
https://hdl.handle.net/21.15107/rcub_intor_638 .

Kosanović, Dejana, Dyas, Maria, Grogan, Helen, Kavanagh, Kevin, "Supplementary information for the article: Kosanović, D.; Dyas, M.; Grogan, H.; Kavanagh, K. Differential Proteomic Response of Agaricus Bisporus and Trichoderma Aggressivum f. Europaeum to Bacillus Velezensis Supernatant. European Journal of Plant Pathology 2021, 160 (2). https://doi.org/10.1007/s10658-021-02252-5." in European Journal of Plant Pathology, 160, no. 2 (2021),
https://hdl.handle.net/21.15107/rcub_intor_638 .

Differential proteomic response of Agaricus bisporus and Trichoderma aggressivum f. europaeum to Bacillus velezensis supernatant

Kosanović, Dejana; Dyas, Maria; Grogan, Helen; Kavanagh, Kevin

(Springer, 2021)

TY  - JOUR
AU  - Kosanović, Dejana
AU  - Dyas, Maria
AU  - Grogan, Helen
AU  - Kavanagh, Kevin
PY  - 2021
UR  - http://intor.torlakinstitut.com/handle/123456789/613
AB  - Trichoderma aggressivum, a mycopathogen causing green mould disease, is a major problem in Agaricus bisporus cultivation due to crop loss, and resistance to chemical fungicides. There is an urgent need for novel biological ways to control mycopathogens without affecting the growth of A. bisporus. Bacteria from the mushroom-casing environment were identified and tested for antagonistic effect on T. aggressivum. Bacillus velezensis produced a large zone of inhibition and its supernatant inhibited the growth of T. aggressivum [−37%], and slightly stimulated A. bisporus growth [+2%]. Label free quantitative-proteomic (LFQ) analysis of changes in the abundance of T. aggressivum proteins following exposure to B. velezensis supernatant indicated increased abundance of proteins associated with catabolic processing of amino acids (40-fold), amino oxidase proteins (14-fold), oxidoreductase proteins (13-fold, 4-fold) and hydrolases (3-fold). Proteins that decreased in relative abundance were antioxidants (29-fold), NTF2 domain containing protein (17-fold), 60S ribosomal protein L-13 (14-fold), glucoamylase proteins (13-fold), proteasome subunit proteins (11-fold) and other ribosomal proteins (9-fold). LFQ analysis revealed that exposing A. bisporus to B. velezensis supernatant led to a decrease in: prohibitin (13-fold, 6-fold), proteasomal proteins (11-fold), cytosolic adaptor domain containing protein (5-fold), aldehyde dehydrogenase (4-fold), ribosomal proteins (4-fold), DLH domain-containing protein (4-fold) and PKS_ER domain containing protein (3-fold). The results indicate that A. bisporus was not under stress upon contact with B. velezensis. Whereas a detrimental effect of B. velezensis on T. aggressivum is shown by inhibition of growth and damage-preventing proteins and increased abundance of proteins associated with stress.
PB  - Springer
T2  - European Journal of Plant Pathology
T1  - Differential proteomic response of Agaricus bisporus and Trichoderma aggressivum f. europaeum to Bacillus velezensis supernatant
IS  - 2
VL  - 160
VL  - 397
DO  - 10.1007/s10658-021-02252-5
ER  -

@article{
author = "Kosanović, Dejana and Dyas, Maria and Grogan, Helen and Kavanagh, Kevin",
year = "2021",
abstract = "Trichoderma aggressivum, a mycopathogen causing green mould disease, is a major problem in Agaricus bisporus cultivation due to crop loss, and resistance to chemical fungicides. There is an urgent need for novel biological ways to control mycopathogens without affecting the growth of A. bisporus. Bacteria from the mushroom-casing environment were identified and tested for antagonistic effect on T. aggressivum. Bacillus velezensis produced a large zone of inhibition and its supernatant inhibited the growth of T. aggressivum [−37%], and slightly stimulated A. bisporus growth [+2%]. Label free quantitative-proteomic (LFQ) analysis of changes in the abundance of T. aggressivum proteins following exposure to B. velezensis supernatant indicated increased abundance of proteins associated with catabolic processing of amino acids (40-fold), amino oxidase proteins (14-fold), oxidoreductase proteins (13-fold, 4-fold) and hydrolases (3-fold). Proteins that decreased in relative abundance were antioxidants (29-fold), NTF2 domain containing protein (17-fold), 60S ribosomal protein L-13 (14-fold), glucoamylase proteins (13-fold), proteasome subunit proteins (11-fold) and other ribosomal proteins (9-fold). LFQ analysis revealed that exposing A. bisporus to B. velezensis supernatant led to a decrease in: prohibitin (13-fold, 6-fold), proteasomal proteins (11-fold), cytosolic adaptor domain containing protein (5-fold), aldehyde dehydrogenase (4-fold), ribosomal proteins (4-fold), DLH domain-containing protein (4-fold) and PKS_ER domain containing protein (3-fold). The results indicate that A. bisporus was not under stress upon contact with B. velezensis. Whereas a detrimental effect of B. velezensis on T. aggressivum is shown by inhibition of growth and damage-preventing proteins and increased abundance of proteins associated with stress.",
publisher = "Springer",
journal = "European Journal of Plant Pathology",
title = "Differential proteomic response of Agaricus bisporus and Trichoderma aggressivum f. europaeum to Bacillus velezensis supernatant",
number = "2",
volume = "160, 397",
doi = "10.1007/s10658-021-02252-5"
}

Kosanović, D., Dyas, M., Grogan, H.,& Kavanagh, K.. (2021). Differential proteomic response of Agaricus bisporus and Trichoderma aggressivum f. europaeum to Bacillus velezensis supernatant. in European Journal of Plant Pathology
Springer., 160(2).
https://doi.org/10.1007/s10658-021-02252-5

Kosanović D, Dyas M, Grogan H, Kavanagh K. Differential proteomic response of Agaricus bisporus and Trichoderma aggressivum f. europaeum to Bacillus velezensis supernatant. in European Journal of Plant Pathology. 2021;160(2).
doi:10.1007/s10658-021-02252-5 .

Kosanović, Dejana, Dyas, Maria, Grogan, Helen, Kavanagh, Kevin, "Differential proteomic response of Agaricus bisporus and Trichoderma aggressivum f. europaeum to Bacillus velezensis supernatant" in European Journal of Plant Pathology, 160, no. 2 (2021),
https://doi.org/10.1007/s10658-021-02252-5 . .

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