A practical solid-phase synthesis of deoxynucleic guanidine (DNG), a positively charged DNA backbone analogue, is reported. The nucleoside coupling step in the solid-phase synthesis of DNG involves the attack of a terminal 3′-amine upon an electronically activated 5′-carbodiimide to create a protected guanidinium internucleoside linkage. The activated carbodiimide is synthesized in situ by the mercury(II) abstraction of sulfur from an unsymmetrically substituted thiourea in which one substituent is an electronwithdrawing protecting group and the other is the 5′-nucleoside monomer. This produces, in addition to the carbodiimide, a mercury sulfide precipitate which accumulates in the pores of the solid support, restricting solvent and reagent access and reducing the coupling yields with each successive cycle. This obstacle is overcome by a simple washing step involving a thiophenol solution which readily removes the mercury salt. The addition of this step to the cycle enables DNG oligomers to be synthesized using standard macroporous SPS supports. Coupling yields of 98% were estimated from the HPLC analysis of the product mixtures. An octameric thymidyl oligomer (II) was synthesized and the fidelity of binding to octameric adenyl DNA oligomers containing cytidyl mismatches was determined. Binding was studied by thermal denaturation (Tm), Job plots, and circular dichroism spectrophotometry. The DNG oligomer (II) formed a 2:1 complex with octameric adenyl DNA (III) with a melting temperature of 63°C. Each cytidyl mismatch induced a penalty of 4 to 5°C in the observed melting temperatures. DNA sequences with four or more mismatches showed no base pairing in the presence of II. No association was observed between II and octameric cytidyl DNA. These observations demonstrate that DNG oligomers of moderate length are able to discriminate between complementary and mismatched DNA oligomers.
RNA recovered from paraffin-embedded tissue has been reported to be a suitable substrate for polymerase chain reaction. During tissue fixation and paraffin embedding, RNA undergoes degradation, but with certain restrictions, it can be used for gene expression studies. At the same time, formalin-fixed, paraffin embedded histopathology archives contain an unestimable collection, which could be analyzed to investigate changes in mRNA expression in pathologic processes. To decide for future tissue conservation of pathology samples, it would be reasonable to satisfy both histologic and molecular biologic needs. The effect of three different fixation methods, RNAlater (SIGMA R 0901, St Louis, MO), acetone, and formalin, were compared by histology, immunohistochemistry, and real-time PCR. To assess tissue structure preservation and antigenicity, hematoxylin-eosin staining and immunohistochemistry were performed; to assess RNA quality, RNA was extracted and the transcription of different amplicon sizes (121, 225, 406 bp for GAPDH; 166, 310, 536 bp for beta globin) were examined on human endometrium samples. The most adequate tissue preservation was found in case of formalin fixation, while there were no significant differences in the three fixatives' yields for various size real-time PCR amplicons. Longer amplicons (above approximately 225 bp) have limited use for gene expression studies, while shorter amplicons could give more reliable results.
The first stepwise solid-phase synthesis of deoxynucleic guanidine (DNG), a positively charged DNA analog, using controlled pore glass as the solid support is reported. For the first time, purine bases have been incorporated into the DNG oligomer and DNG has been synthesized using a solid-phase method, proceeding in the 3'-->5' direction, that is compatible with the cleavage conditions used in the solid-phase synthesis of DNA. A DNG sequence containing a pentameric tract of adenosine nucleosides has been synthesized and the thermal denaturation temperature of its complexes with complementary thymidyl DNA oligomers was 79 degrees C. Binding of thymidyl DNA oligomers to adenyl DNG oligomers is 2:1, as seen in thymidyl and adenyl DNA triplexes. No binding of adenyl DNG with octameric cytidyl DNA was observed, indicating that the positive charge does not overcome base pairing fidelity.
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