Author
Listed:
- Jeong Seon Kim
(University of Kentucky
University of Kentucky)
- Zhenhang Chen
(Emory University School of Medicine)
- Sara Andrea Espinosa Garcia
(Emory University School of Medicine)
- Christoph Buhlheller
(Medical University of Graz)
- Botao Zhang
(University of Kentucky)
- Stephen J. Richards
(University of Kentucky)
- Tingfei Chen
(University of Kentucky)
- Jingjing Wu
(University of Kentucky)
- Ronald C. Bruntz
(University of Kentucky)
- Marisa E. Gilliam
(University of Kentucky)
- Mitsuo Yamauchi
(University of North Carolina at Chapel Hill)
- Bo Liang
(Emory University School of Medicine)
- Houfu Guo
(University of Kentucky
University of Kentucky)
Abstract
Collagen glucosyltransferases catalyze collagen glucosylation critical for biology and diseases, yet their structural regulation remains unclear. Here, we report crystal structures of a mimiviral collagen glucosyltransferase in its apo form and in complexes with uridine diphosphate (UDP) and the disaccharide product. We reveal that the enzyme forms a homodimer, stabilized by a loop from one subunit locking into a cleft on the other, enabling UDP-glucose binding cooperativity and enzymatic activity, a property conserved in the human homolog. The structures support an induced fit model for UDP interaction. The dimerization also forms an extended cleft flanked by two active sites, likely facilitating collagen recognition. Unexpectedly, the mimiviral enzyme also synthesizes a prebiotic disaccharide kojibiose. An elongated pocket near the active site allows the enzyme to use UDP-glucose and glucose for kojibiose production. We confirm the enzyme’s kojibiose synthesis activity in vitro and in vivo. These insights inform glucosyltransferase function and open new avenues for inhibitor development and kojibiose biosynthesis.
Suggested Citation
Jeong Seon Kim & Zhenhang Chen & Sara Andrea Espinosa Garcia & Christoph Buhlheller & Botao Zhang & Stephen J. Richards & Tingfei Chen & Jingjing Wu & Ronald C. Bruntz & Marisa E. Gilliam & Mitsuo Yam, 2025.
"Structural basis of collagen glucosyltransferase function and its serendipitous role in kojibiose synthesis,"
Nature Communications, Nature, vol. 16(1), pages 1-11, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61973-x
DOI: 10.1038/s41467-025-61973-x
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