Difference between revisions of "Kinase Family FN3K"
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Fructosamine 3' Kinase phosphorylates glycated amino acids in proteins as a first step in deglycation. | Fructosamine 3' Kinase phosphorylates glycated amino acids in proteins as a first step in deglycation. | ||
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====Evolution==== | ====Evolution==== | ||
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====Function==== | ====Function==== | ||
| − | Primary amines of proteins can react with sugars such as glucose and accumulate these glycan adducts as they age. FN3K phosphorylates these sugars, leading to non-enzymatic removal of the sugar phosphate, restoring the protein to its native state. | + | Primary amines of proteins can react with sugars such as glucose and accumulate these glycan adducts as they age. FN3K phosphorylates these sugars, leading to non-enzymatic removal of the sugar phosphate, restoring the protein to its native state. Polymorphisms in human FN3K have been linked to levels of glycated hemoglobin (HbA1c) and incidence of diabetes <cite>Mohas</cite>. |
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====References==== | ====References==== | ||
<biblio> | <biblio> | ||
#Collard pmid=14633848 | #Collard pmid=14633848 | ||
| + | #Mohas pmid=19834870 | ||
#Szwergold pmid=21924559 | #Szwergold pmid=21924559 | ||
</biblio> | </biblio> | ||
Latest revision as of 23:48, 11 January 2017
Kinase Classification: Group PKL: Family FN3K
Fructosamine 3' Kinase phosphorylates glycated amino acids in proteins as a first step in deglycation.
Evolution
FN3K is seen in most eukaryotes, but with substantial losses, including most insects, yeasts, amoebozoa and most excavates. It is also found in many bacteria.
Vertebrates have two family members, one of which (FN3K) is a fructosamine-3-kinase and the other is a ketosamine-3-kinase (FN3KRP) [1, 2], phosphorylating amino acids that have reacted with ketoses (monosaccharides with ketone groups, such as fructose, ribulose and dihydroxyacetone). The two genes are chromosomal neighbors in birds and mammals.
Function
Primary amines of proteins can react with sugars such as glucose and accumulate these glycan adducts as they age. FN3K phosphorylates these sugars, leading to non-enzymatic removal of the sugar phosphate, restoring the protein to its native state. Polymorphisms in human FN3K have been linked to levels of glycated hemoglobin (HbA1c) and incidence of diabetes [3].
References
- Szwergold BS, Bunker RD, and Loomes KM. The physiological substrates of fructosamine-3-kinase-related-protein (FN3KRP) are intermediates of nonenzymatic reactions between biological amines and ketose sugars (fructation products). Med Hypotheses. 2011 Nov;77(5):739-44. DOI:10.1016/j.mehy.2011.07.027 |
- Collard F, Delpierre G, Stroobant V, Matthijs G, and Van Schaftingen E. A mammalian protein homologous to fructosamine-3-kinase is a ketosamine-3-kinase acting on psicosamines and ribulosamines but not on fructosamines. Diabetes. 2003 Dec;52(12):2888-95. DOI:10.2337/diabetes.52.12.2888 |
- Mohás M, Kisfali P, Baricza E, Mérei A, Maász A, Cseh J, Mikolás E, Szijártó IA, Melegh B, and Wittmann I. A polymorphism within the fructosamine-3-kinase gene is associated with HbA1c Levels and the onset of type 2 diabetes mellitus. Exp Clin Endocrinol Diabetes. 2010 Mar;118(3):209-12. DOI:10.1055/s-0029-1238319 |
