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Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro

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Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro. / Ramos-Morales, E.; Braganca, Radek; Murphy, Patrick et al.
In: Scientific Reports, 21.02.2019.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Ramos-Morales, E, Braganca, R, Murphy, P, Tibble-Howlings, J & Newbold, CJ 2019, 'Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro', Scientific Reports.

APA

Ramos-Morales, E., Braganca, R., Murphy, P., Tibble-Howlings, J., & Newbold, C. J. (2019). Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro. Scientific Reports.

CBE

Ramos-Morales E, Braganca R, Murphy P, Tibble-Howlings J, Newbold CJ. 2019. Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro. Scientific Reports.

MLA

Ramos-Morales, E. et al. "Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro". Scientific Reports. 2019.

VancouverVancouver

Ramos-Morales E, Braganca R, Murphy P, Tibble-Howlings J, Newbold CJ. Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro. Scientific Reports. 2019 Feb 21.

Author

Ramos-Morales, E. ; Braganca, Radek ; Murphy, Patrick et al. / Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro. In: Scientific Reports. 2019.

RIS

TY - JOUR

T1 - Slight changes in the chemical structure of haemanthamine greatly influence the effect of the derivatives on rumen fermentation in vitro

AU - Ramos-Morales, E.

AU - Braganca, Radek

AU - Murphy, Patrick

AU - Tibble-Howlings, Jamie

AU - Newbold, C. Jamie

PY - 2019/2/21

Y1 - 2019/2/21

N2 - Although the potential of plants extracts to improve feed efficiency and animal productivity and decrease methane emissions by enteric fermentation has been shown, the information available is often contradictory which has been attributed to differences in the complex mixture of bioactive compounds and their interactions. Understanding the degree to which structural features in a compound may affect the biological activity of an extract is essential. We hypothesised that relative small variations in the structure of a compound can have a significant influence on the ability of the derivatives to alter fermentation in the rumen. Nine compounds were synthetized from the natural alkaloid haemanthamine and tested in vitro for their effects on rumen protozoa and fermentation parameters. Our results showed that simple esterifications of haemanthamine or its derivative dihydrohaemanthamine with acetate, butyrate, pivalate or hexanoate led to compounds that differed in their effects on rumen fermentation.

AB - Although the potential of plants extracts to improve feed efficiency and animal productivity and decrease methane emissions by enteric fermentation has been shown, the information available is often contradictory which has been attributed to differences in the complex mixture of bioactive compounds and their interactions. Understanding the degree to which structural features in a compound may affect the biological activity of an extract is essential. We hypothesised that relative small variations in the structure of a compound can have a significant influence on the ability of the derivatives to alter fermentation in the rumen. Nine compounds were synthetized from the natural alkaloid haemanthamine and tested in vitro for their effects on rumen protozoa and fermentation parameters. Our results showed that simple esterifications of haemanthamine or its derivative dihydrohaemanthamine with acetate, butyrate, pivalate or hexanoate led to compounds that differed in their effects on rumen fermentation.

M3 - Article

JO - Scientific Reports

JF - Scientific Reports

SN - 2045-2322

ER -