A simple and efficient method for attaching amines to the terminal 5'-phosphate of unprotected oligonucleotides or nucleic acids in aqueous solution is described. The method is applicable to low molecular-weight amines, polypeptides, or proteins. The terminal 5'-phosphate of an oligonucleotide or nucleic acid reacts with a water-soluble carbodiimide in imidazole buffer at pH 6 to give good yields of the 5'-phosphorimidazolide. Exposure of the phosphorimidazolide to amine-containing molecules in aqueous solution results in the production of a wide range of stable phosphoramidates in high yield. The exposure of polynucleotides to carbodiimide does not result in significant breakage of phosphodiester bonds or damage to nucleoside bases. The biological activity of a drug resistant plasmid is not affected. The direct condensation of polynucleotides with amines in 1-methylimidazole buffer is also possible. However, it is not a satisfactory preparative method if the ligand is sensitive to carbodiimide.
Ethylenediaminetetraacetic acid and diethylenetriaminepentaacetic acid have been attached covalently to the 5' terminus of the deoxynucleotide sequence C-A-C-A-A-T-T-C-C-A-C-A-C-A-A-C (16-mer) via an ethylenediamine linker. In the presence of Fe2+ and dithiothreitol, these reagents bring about the hybridization-dependent cleavage of the sequence T-C-G-T-A-T-G-T-T-G-T-G-T-G-G-A-A-T-T-G-T-G-A-G-C-G-G-A-T-A-A-C-A-A-T-T- T (37-mer), a sequence that contains an internal subsequence complementary to the 16-mer. The principal cleavage sites on the 37-mer are about four residues on each side of the terminal phosphate group of the 16-mer.
We have developed general methods for joining together, via cleavable disulfide bonds, either two unprotected polynucleotides or a polynucleotide and a peptide or protein. To join two oligonucleotides, each is first converted to an adduct in which cystamine is joined to the 5'-terminal phosphate of the oligonucleotide by a phosphoramidate bond. The adducts are mixed and reduced with dithiothreitol. The dithiothreitol is then removed by dialysis. Oxidation by atmospheric oxygen occurs to yield the required dimer. To join an oligonucleotide to a cysteine-containing peptide or protein, the 5'-cystamine oligomer is first converted to a 2'-pyridyldisulfide adduct and then reacted with an excess of the peptide or protein. If the peptide does not contain a free cysteine residue, it is first treated with iminothiolane to introduce one or more sulfhydryl groups. We have used these procedures to join a 16 mer deoxynucleotide probe and MDV-1 RNA, a substrate of Q beta RNA polymerase. This adduct hybridizes with a complementary target DNA. We have also joined a 16mer probe to peroxidase and MDV-1 RNA to human IgG. The probe-peroxidase adduct maintains enzymatic activity and the MDV-1 RNA-IgG adduct binds to a complementary anti-IgG.
The replacement of reporter groups, such as fluorescent molecules or enzymes, by an amplifiable reporter should lead to bioassays of greatly increased sensitivity, since a very large number of copies of the reporter can be accumulated in a short time. Midivariant RNA is an appropriate reporter, since it is autocatalytically replicated by Q beta RNA polymerase in vitro. This RNA can be amplified exponentially, with a population doubling time of 36 seconds, resulting in the synthesis of 10(6) copies of each molecule in 12 minutes. We have used chemical methods to attach biotin to the 5' terminus of midivariant RNA via a disulfide linker. This biotinylated RNA combines with avidin to give a product that is readily purified by gel electrophoresis. The RNA-biotin-avidin adduct, and the RNA released from it by reductive cleavage of the linker arm, replicate normally. The RNA-biotin-avidin adduct should be a suitable reporter for a variety of replication-assisted bioassays involving biotinylated antibodies or biotinylated nucleic acid probes.
We have developed a simple, general synthesis of nonradioactive DNA probes in which biotin is attached to the 5'-terminal phosphate of an oligodeoxyribonucleotide 16 bases long via an ethylenediamine or hexamethylenediamine linker. The products are stable under normal hybridization conditions. They hybridize to target DNA as efficiently as the underivatized oligodeoxyribonucleotide. Color development, using a commercially available kit, is complete within 3 hr using the biotin-detection method. The sensitivity of detection of homologous DNA with a probe to which biotin was attached via a hexamethylenediamine linker is about one-tenth of that achieved overnight by autoradiography with the corresponding 32P-labeled probe.
A questionnaire survey was conducted to determine why librarians found themselves working in sci-tech library positions. Openended questions were included in the survey to solicit personal opinions and anecdotes regarding the choice of sci-tech librarianship. Three hundred eleven responses were received.
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