Novel s-triazine-degrading bacteria isolated from agricultural soils of central Chile for herbicide bioremediation.
Novel s-triazine-degrading bacteria isolated from agricultural soils of central Chile for herbicide bioremediation.
s-Triazine-degrading bacterial strains were isolated from long-term simazine-treated agricultural soils of central Chile. The number of culturable heterotrophic bacteria of these agricultural soils (7 x 106 CFU/g of dry soil) was not affected by simazine application on field. The simazine-degrading bacterial strains P51, P52 and C53 were isolated by enrichment in minimal medium using simazine as the sole nitrogen source. Resting cells of strains P51 and P52 degraded >80% of simazine within 48 hrs, whereas strain C53 was able to remove >60% of the herbicide. The atzA and atzD genes of the s-triazine upper and lower catabolic pathways were detected in strains P51 and C53, while only atzD gene was observed in strain P52. To compare the bacterial 16S rRNA gene sequence structure, ARDRA were performed using the restriction enzymes Msp1 and Hha1. ARDRA indicated that strain P52 was a different ribotype than C53 and P51 strains. For further characterization the novel isolates were identified by 16S rRNA gene sequencing. Strains C53 and P51 belong to the genus Stenotrophomonas and the strain P52 belongs to the genus Arthrobacter . s -Triazine-degrading bacterial strains isolated from contaminated soils could be used as biocatalysts for bioremediation of these herbicides.
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Hernandez Garcia, Marcela
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Morgante, Veronica
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Avila Perez, Marcela
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Villalobos Biaggini, Patricio
7cc4db65-25b8-4dcd-9406-f56dbd13d602
Miralles Noé, Pola
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González Vergara, Myriam
f9b2dd5f-9fc5-4603-affb-e6b375ad5d32
Seeger Pfeiffer, Michael
a3de1a8b-f155-409b-99b5-a94480a91e97
December 2008
Hernandez Garcia, Marcela
e73477e7-cf3e-4f50-97c8-4494c5b05cd0
Morgante, Veronica
91b8057f-efb9-4de7-a0df-bd0d2995c529
Avila Perez, Marcela
d6e23242-ccd2-4161-93a8-d306d3f2d80e
Villalobos Biaggini, Patricio
7cc4db65-25b8-4dcd-9406-f56dbd13d602
Miralles Noé, Pola
bdfb678a-6fbf-4bd4-8050-7c34e4e517f9
González Vergara, Myriam
f9b2dd5f-9fc5-4603-affb-e6b375ad5d32
Seeger Pfeiffer, Michael
a3de1a8b-f155-409b-99b5-a94480a91e97
Hernandez Garcia, Marcela, Morgante, Veronica, Avila Perez, Marcela, Villalobos Biaggini, Patricio, Miralles Noé, Pola, González Vergara, Myriam and Seeger Pfeiffer, Michael
(2008)
Novel s-triazine-degrading bacteria isolated from agricultural soils of central Chile for herbicide bioremediation.
Electronic Journal of Biotechnology, 5 (11), .
(doi:10.2225/vol11-issue5-fulltext-4).
Abstract
s-Triazine-degrading bacterial strains were isolated from long-term simazine-treated agricultural soils of central Chile. The number of culturable heterotrophic bacteria of these agricultural soils (7 x 106 CFU/g of dry soil) was not affected by simazine application on field. The simazine-degrading bacterial strains P51, P52 and C53 were isolated by enrichment in minimal medium using simazine as the sole nitrogen source. Resting cells of strains P51 and P52 degraded >80% of simazine within 48 hrs, whereas strain C53 was able to remove >60% of the herbicide. The atzA and atzD genes of the s-triazine upper and lower catabolic pathways were detected in strains P51 and C53, while only atzD gene was observed in strain P52. To compare the bacterial 16S rRNA gene sequence structure, ARDRA were performed using the restriction enzymes Msp1 and Hha1. ARDRA indicated that strain P52 was a different ribotype than C53 and P51 strains. For further characterization the novel isolates were identified by 16S rRNA gene sequencing. Strains C53 and P51 belong to the genus Stenotrophomonas and the strain P52 belongs to the genus Arthrobacter . s -Triazine-degrading bacterial strains isolated from contaminated soils could be used as biocatalysts for bioremediation of these herbicides.
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Published date: December 2008
Organisations:
Centre for Biological Sciences
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Local EPrints ID: 400795
URI: http://eprints.soton.ac.uk/id/eprint/400795
ISSN: 0717-3458
PURE UUID: 3a383294-de1b-4ee4-b6f0-08f14543d3ac
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Date deposited: 30 Sep 2016 10:26
Last modified: 15 Mar 2024 02:29
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Author:
Marcela Hernandez Garcia
Author:
Veronica Morgante
Author:
Marcela Avila Perez
Author:
Patricio Villalobos Biaggini
Author:
Pola Miralles Noé
Author:
Myriam González Vergara
Author:
Michael Seeger Pfeiffer
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