Literature DB >> 22516721

Vitamin K oxygenation, glutamate carboxylation, and processivity: defining the three critical facets of catalysis by the vitamin K-dependent carboxylase.

Mark A Rishavy1, Kathleen L Berkner.   

Abstract

The vitamin K-dependent carboxylase uses vitamin K oxygenation to drive carboxylation of multiple glutamates in vitamin K-dependent proteins, rendering them active in a variety of physiologies. Multiple carboxylations of proteins are required for their activity, and the carboxylase is processive, so that premature dissociation of proteins from the carboxylase does not occur. The carboxylase is unique, with no known homology to other enzyme families, and structural determinations have not been made, rendering an understanding of catalysis elusive. Although a model explaining the relationship of oxygenation to carboxylation had been developed, until recently almost nothing was known of the function of the carboxylase itself in catalysis. In the past decade, discovery and analysis of naturally occurring carboxylase mutants has led to identification of functionally relevant residues and domains. Further, identification of nonmammalian carboxylase orthologs has provided a basis for bioinformatic analysis to identify candidates for critical functional residues. Biochemical analysis of rationally chosen carboxylase mutants has led to breakthroughs in understanding vitamin K oxygenation, glutamate carboxylation, and maintenance of processivity by the carboxylase. Protein carboxylation has also been assessed in vivo, and the intracellular environment strongly affects carboxylase function. The carboxylase is an integral membrane protein, and topological analysis, coupled with biochemical determinations, suggests that interaction of the carboxylase with the membrane is an important facet of function. Carboxylase homologs, likely acquired by horizontal transfer, have been discovered in some bacteria, and functional analysis of these homologs has the potential to lead to the discovery of new roles of vitamin K in biology.

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Year:  2012        PMID: 22516721      PMCID: PMC3648714          DOI: 10.3945/an.111.001719

Source DB:  PubMed          Journal:  Adv Nutr        ISSN: 2161-8313            Impact factor:   8.701


  62 in total

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3.  Expression and characterization of the naturally occurring mutation L394R in human gamma-glutamyl carboxylase.

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4.  gamma -Glutamyl carboxylation: An extracellular posttranslational modification that antedates the divergence of molluscs, arthropods, and chordates.

Authors:  Pradip K Bandyopadhyay; James E Garrett; Reshma P Shetty; Tyler Keate; Craig S Walker; Baldomero M Olivera
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Review 5.  Dietary intake and adequacy of vitamin K.

Authors:  S L Booth; J W Suttie
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Journal:  Eur J Biochem       Date:  2002-12

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Authors:  T Li; C T Yang; D Jin; D W Stafford
Journal:  J Biol Chem       Date:  2000-06-16       Impact factor: 5.157

8.  Identification of sequences within the gamma-carboxylase that represent a novel contact site with vitamin K-dependent proteins and that are required for activity.

Authors:  B N Pudota; E L Hommema; K W Hallgren; B A McNally; S Lee; K L Berkner
Journal:  J Biol Chem       Date:  2001-10-08       Impact factor: 5.157

9.  Novel mutation in the gamma-glutamyl carboxylase gene resulting in congenital combined deficiency of all vitamin K-dependent blood coagulation factors.

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Journal:  Proc Natl Acad Sci U S A       Date:  2000-11-21       Impact factor: 11.205
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6.  Recombinant Mouse Osteocalcin Secreted by Lactococcus lactis Promotes Glucagon-Like Peptide-1 Induction in STC-1 Cells.

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Review 7.  Periostin and TGF-β-induced protein: Two peas in a pod?

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Review 8.  Structural and functional insights into enzymes of the vitamin K cycle.

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Review 9.  A critical review of the effects of vitamin K on glucose and lipid homeostasis: its potential role in the prevention and management of type 2 diabetes.

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10.  γ-Glutamyl carboxylase mutations differentially affect the biological function of vitamin K-dependent proteins.

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