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Abstract
Aims
In this experiment, we investigated the effect of ‘green odour’ products typical of those released from fresh forage postabiotic and biotic stresses on the rumen microbiota and lipid metabolism.
Methods and Results
Hydroperoxyoctadecatrienoic acid (HP), a combination of salicylic and jasmonic acid (T), and a combination of both (HPT) were incubated in vitro in the presence of freeze-dried ground silage and rumen fluid, under rumen-like conditions. 16S rRNA (16S cDNA) HaeIII-based terminal restriction fragment length polymorphism-based (T-RFLP) dendrograms, canonical analysis of principal coordinates graphs, peak number and Shanon-Weiner diversity indices show that HP, T and HPT likely had antimicrobial effects on the microbiota compared to control incubations. Following 6 h of in vitro incubation, 15·3% of 18:3n-3 and 4·4% of 18:2n-6 was biohydrogenated in control incubations, compared with 1·3, 9·4 and 8·3% of 18:3n-3 for HP, T and HPT treatments, respectively, with negligible 18:2n-6 biohydrogenation seen. T-RFLP peaks lost due to application of HP, T and HPT likely belonged to as yet uncultured bacteria within numerous genera.
Conclusions
Hydroperoxyoctadecatrienoic acid, T and HPT released due to plant stress potentially have an antimicrobial effect on the rumen microbiota, which may explain the decreased biohydrogenation in vitro.
Significance and Impact of the Study
These data suggest that these volatile chemicals may be responsible for the higher summer n-3 content of bovine milk.
In this experiment, we investigated the effect of ‘green odour’ products typical of those released from fresh forage postabiotic and biotic stresses on the rumen microbiota and lipid metabolism.
Methods and Results
Hydroperoxyoctadecatrienoic acid (HP), a combination of salicylic and jasmonic acid (T), and a combination of both (HPT) were incubated in vitro in the presence of freeze-dried ground silage and rumen fluid, under rumen-like conditions. 16S rRNA (16S cDNA) HaeIII-based terminal restriction fragment length polymorphism-based (T-RFLP) dendrograms, canonical analysis of principal coordinates graphs, peak number and Shanon-Weiner diversity indices show that HP, T and HPT likely had antimicrobial effects on the microbiota compared to control incubations. Following 6 h of in vitro incubation, 15·3% of 18:3n-3 and 4·4% of 18:2n-6 was biohydrogenated in control incubations, compared with 1·3, 9·4 and 8·3% of 18:3n-3 for HP, T and HPT treatments, respectively, with negligible 18:2n-6 biohydrogenation seen. T-RFLP peaks lost due to application of HP, T and HPT likely belonged to as yet uncultured bacteria within numerous genera.
Conclusions
Hydroperoxyoctadecatrienoic acid, T and HPT released due to plant stress potentially have an antimicrobial effect on the rumen microbiota, which may explain the decreased biohydrogenation in vitro.
Significance and Impact of the Study
These data suggest that these volatile chemicals may be responsible for the higher summer n-3 content of bovine milk.
Original language | English |
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Pages (from-to) | 1081-1090 |
Journal | Journal of Applied Microbiology |
Volume | 115 |
Issue number | 5 |
Early online date | 21 Aug 2013 |
DOIs | |
Publication status | Published - Nov 2013 |
Keywords
- bacteria
- biohydrogenation
- fatty acid
- green odour
- hydroperoxides
- jasmonic acid
- rumen
- salicylic acid
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Dive into the research topics of 'Fatty acid oxidation products (‘green odour’) released from perennial ryegrass following biotic and abiotic stress, potentially have antimicrobial properties against the rumen microbiota resulting in decreased biohydrogenation'. Together they form a unique fingerprint.Projects
- 1 Finished
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RSB : Rumen Systems Biology
Kingston-Smith, A. (PI)
Biotechnology and Biological Sciences Research Council
01 Apr 2012 → 31 Mar 2017
Project: Externally funded research