Abstract
Trypanosomatids contain an unusual DNA base J (beta-d-glucosylhydroxymethyluracil), which replaces a fraction of thymine in telomeric and other DNA repeats. To determine the function of base J, we have searched for enzymes that catalyze J biosynthesis. We present evidence that a protein that binds to J in DNA, the J-binding protein 1 (JBP1), may also catalyze the first step in J biosynthesis, the conversion of thymine in DNA into hydroxymethyluracil. We show that JBP1 belongs to the family of Fe(2+) and 2-oxoglutarate-dependent dioxygenases and that replacement of conserved residues putatively involved in Fe(2+) and 2-oxoglutarate-binding inactivates the ability of JBP1 to contribute to J synthesis without affecting its ability to bind to J-DNA. We propose that JBP1 is a thymidine hydroxylase responsible for the local amplification of J inserted by JBP2, another putative thymidine hydroxylase.
Publication types
-
Research Support, N.I.H., Extramural
-
Research Support, Non-U.S. Gov't
MeSH terms
-
Amino Acid Sequence
-
Amino Acid Substitution
-
Animals
-
Binding Sites
-
DNA-Binding Proteins / chemistry*
-
DNA-Binding Proteins / classification
-
DNA-Binding Proteins / metabolism*
-
Dioxygenases / classification
-
Glucosides / biosynthesis*
-
Glucosides / chemistry
-
Glucosides / metabolism
-
Leishmania / genetics
-
Mixed Function Oxygenases / chemistry*
-
Mixed Function Oxygenases / classification
-
Mixed Function Oxygenases / metabolism*
-
Molecular Sequence Data
-
Protein Structure, Tertiary
-
Protozoan Proteins / chemistry*
-
Protozoan Proteins / classification
-
Protozoan Proteins / metabolism*
-
Uracil / analogs & derivatives*
-
Uracil / biosynthesis
-
Uracil / chemistry
-
Uracil / metabolism
Substances
-
DNA-Binding Proteins
-
Glucosides
-
J-specific DNA-binding protein, protozoa
-
Protozoan Proteins
-
5-((glucopyranosyloxy)methyl)uracil
-
Uracil
-
Mixed Function Oxygenases
-
Dioxygenases
-
thymidine,2-oxoglutarate dioxygenase