Yikun Yang scite author profile

Trypanosomes cause the devastating disease trypanosomiasis, in which the action of trans-sialidase (TS) enzymes harbored on their surface is a key virulence factor. TS are highly N-glycosylated, but the biological functions of the glycans remain elusive. In this study, we investigated the influence of N-glycans on the enzymatic activity and structure stability of TconTS1, a recombinant TS from the African parasite Trypanosoma congolense. MALDI-TOF MS revealed that eight asparagine sites were glycosylated with high-mannose type N-glycans. Deglycosylation of TconTS1 led to a 5-fold decrease in substrate affinity but to the same conversion rate relative to the untreated enzyme. After deglycosylation, no changes in secondary structure elements were observed in circular dichroism experiments. Molecular dynamics simulations revealed interactions between the highly flexible N-glycans and some conserved amino acids belonging to the catalytic site. These interactions led to conformational changes, possibly enhancing substrate accessibility and promoting enzyme/substrate complex stability. The here-observed modulation of catalytic activity via the N-glycan shield may be a structure-function relationship intrinsic of several members of the TS family.

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N-glycosylation modulates enzymatic activity of Trypanosoma congolense trans-sialidase

Rosenau¹,

Grothaus²,

Yang³

et al. 2022

Journal of Biological Chemistry

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Correction: N-glycosylation modulates enzymatic activity of Trypanosoma congolense trans-sialidase

Rosenau¹,

Grothaus²,

Yang³

et al. 2023

Journal of Biological Chemistry

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Yikun Yang

N-glycosylation modulates enzymatic activity ofTrypanosoma congolensetrans-sialidase

N-glycosylation modulates enzymatic activity of Trypanosoma congolense trans-sialidase

Correction: N-glycosylation modulates enzymatic activity of Trypanosoma congolense trans-sialidase

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