Genetic defects in the human glycome

HH Freeze - Nature Reviews Genetics, 2006 - nature.com
Nature Reviews Genetics, 2006nature.com
The spectrum of all glycan structures—the glycome—is immense. In humans, its size is
orders of magnitude greater than the number of proteins that are encoded by the genome,
one percent of which encodes proteins that make, modify, localize or bind sugar chains,
which are known as glycans. In the past decade, over 30 genetic diseases have been
identified that alter glycan synthesis and structure, and ultimately the function of nearly all
organ systems. Many of the causal mutations affect key biosynthetic enzymes, but more …
Abstract
The spectrum of all glycan structures — the glycome — is immense. In humans, its size is orders of magnitude greater than the number of proteins that are encoded by the genome, one percent of which encodes proteins that make, modify, localize or bind sugar chains, which are known as glycans. In the past decade, over 30 genetic diseases have been identified that alter glycan synthesis and structure, and ultimately the function of nearly all organ systems. Many of the causal mutations affect key biosynthetic enzymes, but more recent discoveries point to defects in chaperones and Golgi-trafficking complexes that impair several glycosylation pathways. As more glycosylation disorders and patients with these disorders are identified, the functions of the glycome are starting to be revealed.
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