Chemoselective reagents for covalent capture and display of glycans in microarrays

TY - JOUR

T1 - Chemoselective reagents for covalent capture and display of glycans in microarrays

AU - Cló, Emiliano

AU - Blixt, Klas Ola

AU - Jensen, Knud Jørgen

PY - 2010

Y1 - 2010

N2 - Glycobiology has made very significant progress in the past: decades. However, further progress will significantly depend on the establishment of novel methods for miniaturized, high-throughput analysis of glycan-protein interactions. Robust: solid-phase chemical tools and new, chemoselective reagents for biologically meaningful display of surface-immobilized glycans are likely to play a key role. Here we present four new bifunctional linkers that allow highly chemoselective capture of unprotected glycans in solution to form glycan-linker conjugates for direct construction of glycan microarrays (glycochips). The bifunctional linkere carry O-liriked aminooxy moieties, some with N-substituents at one end and an amino group at the other. In addition, they contain a substituted benzene ring for UV traceability and improved pari-fication of glycan-linker conjugates. NMR spectroscopic studies in solution proved that N-substituted amlnooxy linkers provided model glycan-linker conjugates with the β-glucopyranoside configuration, i. e. the ring-closed form required for biological, recognition. Then an ensemble of glycan-linker conjugates were assembled from mannobiose, lactose, and N-acetyl-lactosamine and used for covalent printing of glycan microarrays. The stability of oximes were studied both in solution and on-chip. In solution, two of the linkers provided glycan-linker conjugates with a remarkable stability at pH 4 or higher, on-chip this relative stability was upheld. Two of the linkers, with different properties, are recommended for the glycobiology toolbox for the construction of glycan microarrays from unprotected glycans.

AB - Glycobiology has made very significant progress in the past: decades. However, further progress will significantly depend on the establishment of novel methods for miniaturized, high-throughput analysis of glycan-protein interactions. Robust: solid-phase chemical tools and new, chemoselective reagents for biologically meaningful display of surface-immobilized glycans are likely to play a key role. Here we present four new bifunctional linkers that allow highly chemoselective capture of unprotected glycans in solution to form glycan-linker conjugates for direct construction of glycan microarrays (glycochips). The bifunctional linkere carry O-liriked aminooxy moieties, some with N-substituents at one end and an amino group at the other. In addition, they contain a substituted benzene ring for UV traceability and improved pari-fication of glycan-linker conjugates. NMR spectroscopic studies in solution proved that N-substituted amlnooxy linkers provided model glycan-linker conjugates with the β-glucopyranoside configuration, i. e. the ring-closed form required for biological, recognition. Then an ensemble of glycan-linker conjugates were assembled from mannobiose, lactose, and N-acetyl-lactosamine and used for covalent printing of glycan microarrays. The stability of oximes were studied both in solution and on-chip. In solution, two of the linkers provided glycan-linker conjugates with a remarkable stability at pH 4 or higher, on-chip this relative stability was upheld. Two of the linkers, with different properties, are recommended for the glycobiology toolbox for the construction of glycan microarrays from unprotected glycans.

U2 - 10.1002/ejoc.200901234

DO - 10.1002/ejoc.200901234

M3 - Journal article

SN - 1434-193X

VL - 2010

SP - 540

EP - 554

JO - European Journal of Organic Chemistry

JF - European Journal of Organic Chemistry

IS - 3

ER -