Microgels with Immobilized Glycosyltransferases for Enzymatic Glycan Synthesis

Isabel Katja Sommerfeld; Philip Palm; Kai Philip Hussnaetter; Maria Isabell Pieper; Selin Bulut; Tudor Lile; Rebekka Wagner; Jacek Janusz Walkowiak; Lothar Elling; Andrij Pich

doi:10.1021/acs.biomac.4c00409

Microgels with Immobilized Glycosyltransferases for Enzymatic Glycan Synthesis

Isabel Katja Sommerfeld
, Philip Palm
, Kai Philip Hussnaetter
, Maria Isabell Pieper
, Selin Bulut
, Tudor Lile
, Rebekka Wagner
, Jacek Janusz Walkowiak
, Lothar Elling^*
, Andrij Pich^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Glycans, composed of linked monosaccharides, play crucial roles in biology and find diverse applications. Enhancing their enzymatic synthesis can be achieved by immobilizing enzymes on materials such as microgels. Here, we present microgels with immobilized glycosyltransferases, synthesized through droplet microfluidics, immobilizing enzymes either via encapsulation or postattachment. SpyTag-SpyCatcher interaction was used for enzyme binding, among others. Fluorescamine and permeability assays confirmed enzyme immobilization and microgel porosity, while enzymatic activities were determined using HPLC. The potential application of microgels in cascade reactions involving multiple enzymes was demonstrated by combining β4GalT and α3GalT in an enzymatic reaction with high yields. Moreover, a cascade of β4GalT and β3GlcNAcT was successfully implemented. These results pave the way toward a modular membrane bioreactor for automated glycan synthesis containing the presented biocatalytic microgels.

Original language	English
Pages (from-to)	3807-3822
Number of pages	16
Journal	Biomacromolecules
Volume	25
Issue number	6
DOIs	https://doi.org/10.1021/acs.biomac.4c00409
Publication status	Published - 10 Jun 2024

Keywords

QUANTITATION
TECHNOLOGY
PROTEINS

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title = "Microgels with Immobilized Glycosyltransferases for Enzymatic Glycan Synthesis",

abstract = "Glycans, composed of linked monosaccharides, play crucial roles in biology and find diverse applications. Enhancing their enzymatic synthesis can be achieved by immobilizing enzymes on materials such as microgels. Here, we present microgels with immobilized glycosyltransferases, synthesized through droplet microfluidics, immobilizing enzymes either via encapsulation or postattachment. SpyTag-SpyCatcher interaction was used for enzyme binding, among others. Fluorescamine and permeability assays confirmed enzyme immobilization and microgel porosity, while enzymatic activities were determined using HPLC. The potential application of microgels in cascade reactions involving multiple enzymes was demonstrated by combining β4GalT and α3GalT in an enzymatic reaction with high yields. Moreover, a cascade of β4GalT and β3GlcNAcT was successfully implemented. These results pave the way toward a modular membrane bioreactor for automated glycan synthesis containing the presented biocatalytic microgels.",

keywords = "QUANTITATION, TECHNOLOGY, PROTEINS",

author = "Sommerfeld, \{Isabel Katja\} and Philip Palm and Hussnaetter, \{Kai Philip\} and Pieper, \{Maria Isabell\} and Selin Bulut and Tudor Lile and Rebekka Wagner and Walkowiak, \{Jacek Janusz\} and Lothar Elling and Andrij Pich",

year = "2024",

month = jun,

day = "10",

doi = "10.1021/acs.biomac.4c00409",

language = "English",

volume = "25",

pages = "3807--3822",

journal = "Biomacromolecules",

issn = "1525-7797",

publisher = "American Chemical Society",

number = "6",

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TY - JOUR

T1 - Microgels with Immobilized Glycosyltransferases for Enzymatic Glycan Synthesis

AU - Sommerfeld, Isabel Katja

AU - Palm, Philip

AU - Hussnaetter, Kai Philip

AU - Pieper, Maria Isabell

AU - Bulut, Selin

AU - Lile, Tudor

AU - Wagner, Rebekka

AU - Walkowiak, Jacek Janusz

AU - Elling, Lothar

AU - Pich, Andrij

PY - 2024/6/10

Y1 - 2024/6/10

N2 - Glycans, composed of linked monosaccharides, play crucial roles in biology and find diverse applications. Enhancing their enzymatic synthesis can be achieved by immobilizing enzymes on materials such as microgels. Here, we present microgels with immobilized glycosyltransferases, synthesized through droplet microfluidics, immobilizing enzymes either via encapsulation or postattachment. SpyTag-SpyCatcher interaction was used for enzyme binding, among others. Fluorescamine and permeability assays confirmed enzyme immobilization and microgel porosity, while enzymatic activities were determined using HPLC. The potential application of microgels in cascade reactions involving multiple enzymes was demonstrated by combining β4GalT and α3GalT in an enzymatic reaction with high yields. Moreover, a cascade of β4GalT and β3GlcNAcT was successfully implemented. These results pave the way toward a modular membrane bioreactor for automated glycan synthesis containing the presented biocatalytic microgels.

AB - Glycans, composed of linked monosaccharides, play crucial roles in biology and find diverse applications. Enhancing their enzymatic synthesis can be achieved by immobilizing enzymes on materials such as microgels. Here, we present microgels with immobilized glycosyltransferases, synthesized through droplet microfluidics, immobilizing enzymes either via encapsulation or postattachment. SpyTag-SpyCatcher interaction was used for enzyme binding, among others. Fluorescamine and permeability assays confirmed enzyme immobilization and microgel porosity, while enzymatic activities were determined using HPLC. The potential application of microgels in cascade reactions involving multiple enzymes was demonstrated by combining β4GalT and α3GalT in an enzymatic reaction with high yields. Moreover, a cascade of β4GalT and β3GlcNAcT was successfully implemented. These results pave the way toward a modular membrane bioreactor for automated glycan synthesis containing the presented biocatalytic microgels.

KW - QUANTITATION

KW - TECHNOLOGY

KW - PROTEINS

U2 - 10.1021/acs.biomac.4c00409

DO - 10.1021/acs.biomac.4c00409

M3 - Article

SN - 1525-7797

VL - 25

SP - 3807

EP - 3822

JO - Biomacromolecules

JF - Biomacromolecules

IS - 6

ER -

Microgels with Immobilized Glycosyltransferases for Enzymatic Glycan Synthesis

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