TY - JOUR
T1 - Enrichment and characterization of a bacterial mixture capable of utilizing C-mannosyl tryptophan as a carbon source
AU - Hossain, Tanim J.
AU - Manabe, Shino
AU - Ito, Yukishige
AU - Iida, Toshiya
AU - Kosono, Saori
AU - Ueda, Kenji
AU - Hosomi, Akira
AU - Inoue, Daishi
AU - Suzuki, Tadashi
N1 - Funding Information:
We gratefully acknowledge Dr. Minoru Yoshida (Chemical Genetics Laboratory and Center for Sustainable Resource Science, RIKEN) for his generous guidance and discussions concerning this project. We also wish to thank Dr. Futoshi Kurisu (Research Center for Water Environment Technology, The University of Tokyo) for helpful discussions, and Dr. Naoshi Dohmae (Biomolecular Characterization Unit, RIKEN) and Dr. Yoshiki Yamaguchi (Structural Glycobiology Team, RIKEN) for their generous help on this project. We also thank the members of the Glycometabolome Team, RIKEN for fruitful discussions. TJH was an International Program Associate (IPA) and financially supported by RIKEN.
Funding Information:
Funding This study was funded by management expenses grant from RIKEN and Saitama University.
Funding Information:
Acknowledgements We gratefully acknowledge Dr. Minoru Yoshida (Chemical Genetics Laboratory and Center for Sustainable Resource Science, RIKEN) for his generous guidance and discussions concerning this project. We also wish to thank Dr. Futoshi Kurisu (Research Center for Water Environment Technology, The University of Tokyo) for helpful discussions, and Dr. Naoshi Dohmae (Biomolecular Characterization Unit, RIKEN) and Dr. Yoshiki Yamaguchi (Structural Glycobiology Team, RIKEN) for their generous help on this project. We also thank the members of the Glycometabolome Team, RIKEN for fruitful discussions. TJH was an International Program Associate (IPA) and financially supported by RIKEN.
Publisher Copyright:
© 2018, Springer Science+Business Media, LLC, part of Springer Nature.
PY - 2018/4/1
Y1 - 2018/4/1
N2 - C-Mannosylation, a protein-modification found in various eukaryotes, involves the attachment of a single mannose molecule to selected tryptophan residues of proteins. Since C-mannosyl tryptophan (CMW) was detected in human urine, it is generally thought that CMW is not catabolized inside our body and instead is excreted via the urine. This paper reports enrichment of a bacterial consortium from soil that degrades CMW. The bacteria grew in minimal medium supplemented with CMW as the carbon source. Interestingly, even after successive clonal picks of individual colonies, several species were still present in each colony as revealed by 16S rRNA gene sequence analysis, indicating that a single species may not be responsible for this activity. A next generation sequencing (NGS) analysis was therefore carried out in order to determine which bacteria were responsible for the catabolism of CMW. It was found that a species of Sphingomonadaceae family, but not others, increased with simultaneous decrease of CMW in the media, suggesting that this species is most likely the one that is actively involved in the degradation of CMW.
AB - C-Mannosylation, a protein-modification found in various eukaryotes, involves the attachment of a single mannose molecule to selected tryptophan residues of proteins. Since C-mannosyl tryptophan (CMW) was detected in human urine, it is generally thought that CMW is not catabolized inside our body and instead is excreted via the urine. This paper reports enrichment of a bacterial consortium from soil that degrades CMW. The bacteria grew in minimal medium supplemented with CMW as the carbon source. Interestingly, even after successive clonal picks of individual colonies, several species were still present in each colony as revealed by 16S rRNA gene sequence analysis, indicating that a single species may not be responsible for this activity. A next generation sequencing (NGS) analysis was therefore carried out in order to determine which bacteria were responsible for the catabolism of CMW. It was found that a species of Sphingomonadaceae family, but not others, increased with simultaneous decrease of CMW in the media, suggesting that this species is most likely the one that is actively involved in the degradation of CMW.
KW - 16S rRNA gene sequence
KW - Biodegradation
KW - C-Mannosyl tryptophan
KW - C-Mannosylation
KW - Next generation sequencing
KW - Sphingomonadaceae
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UR - http://www.scopus.com/inward/citedby.url?scp=85041851642&partnerID=8YFLogxK
U2 - 10.1007/s10719-017-9807-2
DO - 10.1007/s10719-017-9807-2
M3 - Article
C2 - 29335800
AN - SCOPUS:85041851642
SN - 0282-0080
VL - 35
SP - 165
EP - 176
JO - Glycoconjugate Journal
JF - Glycoconjugate Journal
IS - 2
ER -