A photo-activatable analogue of biotin, N-(4-azido-2-nitrophenyl)-N'-(N-d-biotinyl-3-aminopropyl)-N'-methyl-1,3- propanediamine (photobiotin), has been synthesized and used for the rapid and reliable preparation of large amounts of stable, non-radioactive, biotin-labelled DNA and RNA hybridization probes. Upon brief irradiation with visible light, photobiotin formed stable linkages with single- and double-stranded nucleic acids yielding probes which were purified from excess reagent by 2-butanol extraction and ethanol precipitation. Using single-stranded phage M13 DNA probes chemically labelled with one biotin per 100-400 residues and dot-blot hybridization reactions on nitrocellulose, as little as 0.5 pg (6 X 10(-18) mol) of target DNA was detected colorimetrically by avidin or streptavidin complexes with acid or alkaline phosphatase from three commercial sources. The sensitivity of detection of target RNA in dot-blots and Northern blots was equivalent to that obtained with 32p-labelled DNA probes. Photobiotin was also used for the labelling of proteins with biotin.
In order to investigate the mechanism of replication of viroids and virusoids, we have compared the replication intermediates of three members of each group in nucleic acid extracts of infected plants. Viroids were avocado sunblotch viroid (ASBV), citrus exocortis viroid (CEV) and coconut cadang cadang viroid (CCCV). Virusoids were from velvet tobacco mottle virus (VTMoV), solanum nodiflorum mottle virus (SNMV) and lucerne transient streak virus (LTSV). Analysis of intermediates was by the Northern hybridization technique with single-strand DNA and RNA probes prepared from recombinant DNA clones. The results obtained are discussed in terms of current models of viroid and virusoid replication.The plus RNA species consisted of an oligomeric series up to decamers based on the unit of full-length viroid or virusoid, which was always the major component, except for CEV where only monomer and dimer species were found. In the case of ASBV and the virusoids of VTMoV and SNMV, a minor, multimeric series of components (X-bands) was superimposed on the main oligomeric series.The complementary minus species proved more difficult to detect and characterise, with each viroid and virusoid exhibiting a unique pattern on Northern hybridization. However, they all had greater than unit-length minus species. In addition, minus species analogous to the plus X-bands were found in ASBV and CEV. The experimental difficulties encountered in this work are discussed in terms of the problem of detecting minus species by Northern analysis in the presence of excess complementary plus species.
The properties of weak sources of randomness have been investigated in many contexts and using several models of weakly random behaviour. For two such models, developed by Santha and Vazirani, and Chor and Goldreich, it is known that the output from one such source cannot be "compressed" to produce nearly random bits. At the same time, however, a single source is sufficient to solve problems in the randomized complexity classes BPP and RP. It is natural to ask exactly which tasks can be done using a single, weak source of randomness and which cannot. The present work begins to answer this question by establishing that a single weakly random source of either model cannot be used to obtain a secure "one-time-pad" type of cryptosystem.
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