丝氨酸糖基化与苏氨酸糖基化：甲基导致碳水化合物取向及周围水壳发生剧烈改变。

Serine versus threonine glycosylation: the methyl group causes a drastic alteration on the carbohydrate orientation and on the surrounding water shell.

作者信息

Corzana Francisco, Busto Jesús H, Jiménez-Osés Gonzalo, García de Luis Marisa, Asensio Juan L, Jiménez-Barbero Jesús, Peregrina Jesús M, Avenoza Alberto

机构信息

Departamento de Química, Universidad de La Rioja, UA-CSIC, Madre de Dios 51, Logroño, Spain.

出版信息

J Am Chem Soc. 2007 Aug 1;129(30):9458-67. doi: 10.1021/ja072181b. Epub 2007 Jul 7.

DOI:10.1021/ja072181b

PMID:17616194

Abstract

Different behavior has been observed for the psi torsion angle of the glycosidic linkages of D-GalNAc-Ser and D-GalNAc-Thr motifs, allowing the carbohydrate moiety to adopt a completely different orientation. In addition, the fact that the water pockets found in alpha-D-GalNAc-Thr differ from those obtained for its serine analogue could be related to the different capability that the two model glycopeptides have to structure the surrounding water. This fact could have important biological inferences (i.e., antifreeze activity).

摘要

已观察到D-GalNAc-Ser和D-GalNAc-Thr基序的糖苷键的ψ扭转角表现出不同行为，使得碳水化合物部分采取完全不同的取向。此外，在α-D-GalNAc-Thr中发现的水袋与其丝氨酸类似物的水袋不同这一事实，可能与这两种模型糖肽构建周围水结构的不同能力有关。这一事实可能具有重要的生物学推论（即抗冻活性）。

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丝氨酸糖基化与苏氨酸糖基化：甲基导致碳水化合物取向及周围水壳发生剧烈改变。

Serine versus threonine glycosylation: the methyl group causes a drastic alteration on the carbohydrate orientation and on the surrounding water shell.

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