African trypanosomes such as Trypanosoma brucei undergo antigenic variation in the bloodstream of their mammalian hosts by regularly changing the variant surface glycoprotein (VSG) gene expressed. The transcribed VSG gene is invariably located in a telomeric expression site. There are multiple expression sites and one way to change the VSG gene expressed is by activating a new site and inactivating the previously active one. The mechanisms that control expression site switching are unknown, but have been suggested to involve epigenetic regulation. We have found previously that VSG genes in silent (but not active) expression sites contain modified restriction endonuclease cleavage sites, and we have presented circumstantial evidence indicating that this is attributable to the presence of a novel modified base -D-glucosyl-hydroxymethyluracil, or J. To directly test this, we have generated antisera that specifically recognize J-containing DNA and have used these to determine the precise location of this modified thymine in the telomeric VSG expression sites. By anti J-DNA immunoprecipitations, we found that J is present in telomeric VSG genes in silenced expression sites and not in actively transcribed telomeric VSG genes. J was absent from inactive chromosome-internal VSG genes. DNA modification was also found at the boundaries of expression sites. In the long 50-bp repeat arrays upstream of the promoter and in the telomeric repeat arrays downstream of the VSG gene, J was found both in silent and active expression sites. This suggests that silencing results in a gradient of modification spreading from repetitive DNA flanks into the neighboring expression site sequences. In this paper, we discuss the possible role of J in silencing of expression sites.
We have previously shown that nuclear DNA of bloodstream from Trypanosoma brucei contains a novel base beta-glucosyl-hydroxymethyluracil, called J. Base J is enriched in minichromosome fractions but not in the minichromosome internal repeats, suggesting the association of J with telomeric DNA. To test whether J is present in the long telomeric (GGGTTA)n repeat arrays, which are 2-26 kb in T.brucei, we have purified these arrays both by hybrid selection and by isolating 2-26 kb fragments from DNA digested with multiple restriction enzymes. We find that in purified telomeric repeats approximately 13% of T is replaced by J, compared to 0.8% in total DNA, and we estimate that approximately 50% of the total J is in these repeats. Highly purified complementary strands of the repeats were obtained by alkaline CsCl equilibrium centrifugation. In the (TAACCC)n strand 14% of T was replaced by J. In the (GGGTTA)n strand approximately 36% of the second T was replaced by J; the first T was not detectably replaced. Modified bases have not been found in telomeric repeats before. How the bulky base J affects telomere function and structure in bloodstream form trypanosomes remains to be determined.
The synthesis of the recently discovered modified DNA base 5‐(β‐D‐glucopyranosyloxymethyl)‐2′‐deoxyuridine (β‐dJ, 1) is described. TMSOTf mediated β‐glucosylation of 5‐hydroxymethyl‐2′‐deoxyuridine (5‐HMdU) derivative 10 (obtained in 20% from 2′‐deoxyuridine) with trichloroacetimidate 12 gave dimer 13 in 47% yield. On the other hand, condensation of 12with N3‐POM‐protected derivative 20, readily available from thymidine in 48%, afforded the fully protected nucleoside 22 in 96% yield. The latter compound was converted into phosphoramidite 3 which was applied in the automated solid phase synthesis of several biological interesting β‐dJ containing DNA fragments.
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