Insights into miRNA regulation of the human glycome

Brian T. Kasper; Sujeethraj Koppolu; Lara K. Mahal

doi:10.1016/j.bbrc.2014.01.034

Insights into miRNA regulation of the human glycome

Brian T. Kasper
, Sujeethraj Koppolu
, Lara K. Mahal

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

32 Scopus citations

Abstract

Glycosylation is an intricate process requiring the coordinated action of multiple proteins, including glycosyltransferases, glycosidases, sugar nucleotide transporters and trafficking proteins. Work by several groups points to a role for microRNA (miRNA) in controlling the levels of specific glycosyltransferases involved in cancer, neural migration and osteoblast formation. Recent work in our laboratory suggests that miRNA are a principal regulator of the glycome, translating genomic information into the glycocode through tuning of enzyme levels. Herein we overlay predicted miRNA regulation of glycosylation related genes (glycogenes) onto maps of the common N-linked and O-linked glycan biosynthetic pathways to identify key regulatory nodes of the glycome. Our analysis provides insights into glycan regulation and suggests that at the regulatory level, glycogenes are non-redundant.

Original language	English
Pages (from-to)	774-779
Number of pages	6
Journal	Biochemical and Biophysical Research Communications
Volume	445
Issue number	4
DOIs	https://doi.org/10.1016/j.bbrc.2014.01.034
State	Published - 21 Mar 2014
Externally published	Yes

Keywords

Carbohydrate pathways
Glycan biosynthesis
Glycan regulation
Glycogenes
Glycosylation
MicroRNA
miRNA

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10.1016/j.bbrc.2014.01.034

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title = "Insights into miRNA regulation of the human glycome",

abstract = "Glycosylation is an intricate process requiring the coordinated action of multiple proteins, including glycosyltransferases, glycosidases, sugar nucleotide transporters and trafficking proteins. Work by several groups points to a role for microRNA (miRNA) in controlling the levels of specific glycosyltransferases involved in cancer, neural migration and osteoblast formation. Recent work in our laboratory suggests that miRNA are a principal regulator of the glycome, translating genomic information into the glycocode through tuning of enzyme levels. Herein we overlay predicted miRNA regulation of glycosylation related genes (glycogenes) onto maps of the common N-linked and O-linked glycan biosynthetic pathways to identify key regulatory nodes of the glycome. Our analysis provides insights into glycan regulation and suggests that at the regulatory level, glycogenes are non-redundant.",

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T1 - Insights into miRNA regulation of the human glycome

AU - Kasper, Brian T.

AU - Koppolu, Sujeethraj

AU - Mahal, Lara K.

PY - 2014/3/21

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N2 - Glycosylation is an intricate process requiring the coordinated action of multiple proteins, including glycosyltransferases, glycosidases, sugar nucleotide transporters and trafficking proteins. Work by several groups points to a role for microRNA (miRNA) in controlling the levels of specific glycosyltransferases involved in cancer, neural migration and osteoblast formation. Recent work in our laboratory suggests that miRNA are a principal regulator of the glycome, translating genomic information into the glycocode through tuning of enzyme levels. Herein we overlay predicted miRNA regulation of glycosylation related genes (glycogenes) onto maps of the common N-linked and O-linked glycan biosynthetic pathways to identify key regulatory nodes of the glycome. Our analysis provides insights into glycan regulation and suggests that at the regulatory level, glycogenes are non-redundant.

AB - Glycosylation is an intricate process requiring the coordinated action of multiple proteins, including glycosyltransferases, glycosidases, sugar nucleotide transporters and trafficking proteins. Work by several groups points to a role for microRNA (miRNA) in controlling the levels of specific glycosyltransferases involved in cancer, neural migration and osteoblast formation. Recent work in our laboratory suggests that miRNA are a principal regulator of the glycome, translating genomic information into the glycocode through tuning of enzyme levels. Herein we overlay predicted miRNA regulation of glycosylation related genes (glycogenes) onto maps of the common N-linked and O-linked glycan biosynthetic pathways to identify key regulatory nodes of the glycome. Our analysis provides insights into glycan regulation and suggests that at the regulatory level, glycogenes are non-redundant.

KW - Carbohydrate pathways

KW - Glycan biosynthesis

KW - Glycan regulation

KW - Glycogenes

KW - Glycosylation

KW - MicroRNA

KW - miRNA

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JO - Biochemical and Biophysical Research Communications

JF - Biochemical and Biophysical Research Communications

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Insights into miRNA regulation of the human glycome

Abstract

Keywords

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