Tetracycline-resistant bacteria and ribosomal protection protein genes in soils from selected agricultural fields and livestock farms

Antibiotic resistance in soil environment has eminently been compared and studied between agricultural and pristine soils, and the role of concentrated animal feeding operations has markedly been recognized as one of the major sources of antibiotic resistance. This study described the tetracycline r...

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Bibliographic Details
Published inApplied biological chemistry Vol. 64; no. 1; pp. 1 - 9
Main Authors Nogrado, Kathyleen, Unno, Tatsuya, Hur, Hor-Gil, Lee, Ji-Hoon
Format Journal Article
LanguageEnglish
Published Singapore Springer Singapore 01.12.2021
Springer Nature B.V
한국응용생명화학회
Subjects
Agricultural land
Antibiotic resistance
Antibiotics
Applied Microbiology
Arable land
Bacteria
Biological Techniques
Bioorganic Chemistry
Chemistry
Chemistry and Materials Science
Copy number
Drug resistance
Erythromycin
Farms
Genes
Intensive farming
Livestock
Livestock farming
Multidrug resistance
Principal components analysis
Proteins
Small-scale farming
Soil bacteria
Soil environment
Soil resistance
Soils
Streptomycin
농학
Agricultural soil
RPP
Antibiotics-resistance
genes
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Summary:Antibiotic resistance in soil environment has eminently been compared and studied between agricultural and pristine soils, and the role of concentrated animal feeding operations has markedly been recognized as one of the major sources of antibiotic resistance. This study described the tetracycline resistance in small-scale farms in pursuit of presenting its possible role and contribution to the persistence of antibiotic resistance in the environment. Results of the study would render additional information on the occurrence of the ribosomal protection protein (RPP) tet genes among the isolated bacteria from the selected agricultural soils. Four tetracycline resistance and RPP genes were determined in two different agricultural soil settings. Both the culture and molecular method were used to determine and measure tetracycline resistance in soils from arable land and animal house. Results revealed a significantly higher number of culturable antibiotic-resistant bacteria in animal houses than arable lands which was suggestive of higher antibiotic resistance in areas where there was direct administration of the antibiotics. However, quantification of the gene copy numbers in the agricultural soils indicated a different result. Higher gene copy number of tet O was determined in one animal house (IAH-3), while the two other tet genes tet Q and tet W were found to be higher in arable lands. Of the total 110 bacterial isolates, tet W gene was frequently detected, while tet O gene was absent in any of the culturable bacterial isolates. Principal component analysis of occurrence and gene copy number of RPP tet genes tet O, tet Q, and tet W also revealed highest abundance of RPP tet genes in the manure and arable soils. Another important highlight of this study was the similarity of the RPP tet genes detected in the isolated bacteria from the agricultural soils to the identified RPP tet genes among pathogenic bacteria. Some of the tetracycline-resistant bacterial isolates were also multidrug resistant as it displayed resistance to tetracycline, erythromycin, and streptomycin using disk diffusion testing.
ISSN:2468-0834
2468-0842
DOI:10.1186/s13765-021-00613-6