Comparison of fecal microbiota of three captive carnivore species inhabiting Korea

doi:10.1292/jvms.16-0472

. 2017 Mar 18;79(3):542-546.

doi: 10.1292/jvms.16-0472. Epub 2016 Dec 30.

Comparison of fecal microbiota of three captive carnivore species inhabiting Korea

Choa An¹, Yumiko Okamoto, Siyu Xu, Kyung Yeon Eo, Junpei Kimura, Naomichi Yamamoto

Affiliations

PMID: 28049922
PMCID: PMC5383174
DOI: 10.1292/jvms.16-0472

Free PMC article

Comparison of fecal microbiota of three captive carnivore species inhabiting Korea

Choa An et al. J Vet Med Sci. 2017.

Free PMC article

. 2017 Mar 18;79(3):542-546.

doi: 10.1292/jvms.16-0472. Epub 2016 Dec 30.

Authors

Choa An¹, Yumiko Okamoto, Siyu Xu, Kyung Yeon Eo, Junpei Kimura, Naomichi Yamamoto

Affiliation

¹ Department of Environmental Health Sciences, Graduate School of Public Health, Seoul National University, Seoul 151-742, South Korea.

PMID: 28049922
PMCID: PMC5383174
DOI: 10.1292/jvms.16-0472

Abstract

This study aimed at characterizing fecal microbiota of three captive carnivore species of leopard cats Prionailurus bengalensis, Eurasian otters Lutra lutra and raccoon dogs Nyctereutes procyonoides. We used DNA barcoding sequencing to analyze 16S rRNA genes of uncultured bacteria in the feces collected in the Seoul Zoo. The sequencing analyses revealed that: 1) Firmicutes was the most dominant phylum for all three animals; 2) bacterial genus-rank compositions were distinct across species of the animals; and 3) bacterial community memberships were different across species of the studied animals. We expect such baseline information is useful for better understanding of these endangered species and future management of their health in zoos.

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Figures

**Fig. 1.**
Relative abundances of bacterial phyla. The numbers in the sample names indicate sampling days (YYMMDD). The alphabets indicate L for leopard cats, O for otters and R for raccoon dogs.

**Fig. 2.**
Relative abundances of the 30 most abundant taxa. The numbers in the sample names indicate sampling days (YYMMDD). The alphabets indicate L for leopard cat, O for otter and R for raccoon dog.

**Fig. 3.**
Principal coordinates analysis plots of the Jaccard and Yue and Clayton distances based on operational taxonomic units (OTUs) at 97% sequence identity. The libraries with less than 1,200 sequences were not included for the analyses.

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References

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1. Bisgaard H., Li N., Bonnelykke K., Chawes B. L. K., Skov T., Paludan-Müller G., Stokholm J., Smith B., Krogfelt K. A.2011. Reduced diversity of the intestinal microbiota during infancy is associated with increased risk of allergic disease at school age. J. Allergy Clin. Immunol. 128: 646–52.e1, 5. doi: 10.1016/j.jaci.2011.04.060 - DOI - PubMed
1. Daniels L., Budding A. E., de Korte N., Eck A., Bogaards J. A., Stockmann H. B., Consten E. C., Savelkoul P. H., Boermeester M. A.2014. Fecal microbiome analysis as a diagnostic test for diverticulitis. Eur. J. Clin. Microbiol. Infect. Dis. 33: 1927–1936. doi: 10.1007/s10096-014-2162-3 - DOI - PubMed
1. Garcia-Mazcorro J. F., Lanerie D. J., Dowd S. E., Paddock C. G., Grützner N., Steiner J. M., Ivanek R., Suchodolski J. S.2011. Effect of a multi-species synbiotic formulation on fecal bacterial microbiota of healthy cats and dogs as evaluated by pyrosequencing. FEMS Microbiol. Ecol. 78: 542–554. doi: 10.1111/j.1574-6941.2011.01185.x - DOI - PubMed
1. Hooda S., Minamoto Y., Suchodolski J. S., Swanson K. S.2012. Current state of knowledge: the canine gastrointestinal microbiome. Anim. Health Res. Rev. 13: 78–88. doi: 10.1017/S1466252312000059 - DOI - PubMed

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[1] Arumugam M., Raes J., Pelletier E., Le Paslier D., Yamada T., Mende D. R., Fernandes G. R., Tap J., Bruls T., Batto J. M., Bertalan M., Borruel N., Casellas F., Fernandez L., Gautier L., Hansen T., Hattori M., Hayashi T., Kleerebezem M., Kurokawa K., Leclerc M., Levenez F., Manichanh C., Nielsen H. B., Nielsen T., Pons N., Poulain J., Qin J., Sicheritz-Ponten T., Tims S., Torrents D., Ugarte E., Zoetendal E. G., Wang J., Guarner F., Pedersen O., de Vos W. M., Brunak S., Doré J., Antolín M., Artiguenave F., Blottiere H. M., Almeida M., Brechot C., Cara C., Chervaux C., Cultrone A., Delorme C., Denariaz G., Dervyn R., Foerstner K. U., Friss C., van de Guchte M., Guedon E., Haimet F., Huber W., van Hylckama-Vlieg J., Jamet A., Juste C., Kaci G., Knol J., Lakhdari O., Layec S., Le Roux K., Maguin E., Mérieux A., Melo Minardi R., M’rini C., Muller J., Oozeer R., Parkhill J., Renault P., Rescigno M., Sanchez N., Sunagawa S., Torrejon A., Turner K., Vandemeulebrouck G., Varela E., Winogradsky Y., Zeller G., Weissenbach J., Ehrlich S. D., Bork P., MetaHIT Consortium. 2011. Enterotypes of the human gut microbiome. Nature 473: 174–180. doi: 10.1038/nature09944 - DOI - PMC - PubMed

[2] Arumugam M., Raes J., Pelletier E., Le Paslier D., Yamada T., Mende D. R., Fernandes G. R., Tap J., Bruls T., Batto J. M., Bertalan M., Borruel N., Casellas F., Fernandez L., Gautier L., Hansen T., Hattori M., Hayashi T., Kleerebezem M., Kurokawa K., Leclerc M., Levenez F., Manichanh C., Nielsen H. B., Nielsen T., Pons N., Poulain J., Qin J., Sicheritz-Ponten T., Tims S., Torrents D., Ugarte E., Zoetendal E. G., Wang J., Guarner F., Pedersen O., de Vos W. M., Brunak S., Doré J., Antolín M., Artiguenave F., Blottiere H. M., Almeida M., Brechot C., Cara C., Chervaux C., Cultrone A., Delorme C., Denariaz G., Dervyn R., Foerstner K. U., Friss C., van de Guchte M., Guedon E., Haimet F., Huber W., van Hylckama-Vlieg J., Jamet A., Juste C., Kaci G., Knol J., Lakhdari O., Layec S., Le Roux K., Maguin E., Mérieux A., Melo Minardi R., M’rini C., Muller J., Oozeer R., Parkhill J., Renault P., Rescigno M., Sanchez N., Sunagawa S., Torrejon A., Turner K., Vandemeulebrouck G., Varela E., Winogradsky Y., Zeller G., Weissenbach J., Ehrlich S. D., Bork P., MetaHIT Consortium. 2011. Enterotypes of the human gut microbiome. Nature 473: 174–180. doi: 10.1038/nature09944 - DOI - PMC - PubMed

[3] Bisgaard H., Li N., Bonnelykke K., Chawes B. L. K., Skov T., Paludan-Müller G., Stokholm J., Smith B., Krogfelt K. A.2011. Reduced diversity of the intestinal microbiota during infancy is associated with increased risk of allergic disease at school age. J. Allergy Clin. Immunol. 128: 646–52.e1, 5. doi: 10.1016/j.jaci.2011.04.060 - DOI - PubMed

[4] Bisgaard H., Li N., Bonnelykke K., Chawes B. L. K., Skov T., Paludan-Müller G., Stokholm J., Smith B., Krogfelt K. A.2011. Reduced diversity of the intestinal microbiota during infancy is associated with increased risk of allergic disease at school age. J. Allergy Clin. Immunol. 128: 646–52.e1, 5. doi: 10.1016/j.jaci.2011.04.060 - DOI - PubMed

[5] Daniels L., Budding A. E., de Korte N., Eck A., Bogaards J. A., Stockmann H. B., Consten E. C., Savelkoul P. H., Boermeester M. A.2014. Fecal microbiome analysis as a diagnostic test for diverticulitis. Eur. J. Clin. Microbiol. Infect. Dis. 33: 1927–1936. doi: 10.1007/s10096-014-2162-3 - DOI - PubMed

[6] Daniels L., Budding A. E., de Korte N., Eck A., Bogaards J. A., Stockmann H. B., Consten E. C., Savelkoul P. H., Boermeester M. A.2014. Fecal microbiome analysis as a diagnostic test for diverticulitis. Eur. J. Clin. Microbiol. Infect. Dis. 33: 1927–1936. doi: 10.1007/s10096-014-2162-3 - DOI - PubMed

[7] Garcia-Mazcorro J. F., Lanerie D. J., Dowd S. E., Paddock C. G., Grützner N., Steiner J. M., Ivanek R., Suchodolski J. S.2011. Effect of a multi-species synbiotic formulation on fecal bacterial microbiota of healthy cats and dogs as evaluated by pyrosequencing. FEMS Microbiol. Ecol. 78: 542–554. doi: 10.1111/j.1574-6941.2011.01185.x - DOI - PubMed

[8] Garcia-Mazcorro J. F., Lanerie D. J., Dowd S. E., Paddock C. G., Grützner N., Steiner J. M., Ivanek R., Suchodolski J. S.2011. Effect of a multi-species synbiotic formulation on fecal bacterial microbiota of healthy cats and dogs as evaluated by pyrosequencing. FEMS Microbiol. Ecol. 78: 542–554. doi: 10.1111/j.1574-6941.2011.01185.x - DOI - PubMed

[9] Hooda S., Minamoto Y., Suchodolski J. S., Swanson K. S.2012. Current state of knowledge: the canine gastrointestinal microbiome. Anim. Health Res. Rev. 13: 78–88. doi: 10.1017/S1466252312000059 - DOI - PubMed

[10] Hooda S., Minamoto Y., Suchodolski J. S., Swanson K. S.2012. Current state of knowledge: the canine gastrointestinal microbiome. Anim. Health Res. Rev. 13: 78–88. doi: 10.1017/S1466252312000059 - DOI - PubMed

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Comparison of fecal microbiota of three captive carnivore species inhabiting Korea

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Comparison of fecal microbiota of three captive carnivore species inhabiting Korea

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