The 36 001 base pair DNA sequence of human adenovirus serotype 1 (HAdV-1) has been determined, using a 'leveraged primer sequencing strategy' to generate high quality sequences economically. This annotated genome (GenBank AF534906) confirms anticipated similarity to closely related species C (formerly subgroup), human adenoviruses HAdV-2 and-5, and near identity with earlier reports of sequences representing parts of the HAdV-1 genome. A first round of HAdV-1 sequence data acquisition used PCR amplification and sequencing primers from sequences common to the genomes of HAdV-2 and-5. The subsequent rounds of sequencing used primers derived from the newly generated data. Corroborative re-sequencing with primers selected from this HAdV-1 dataset generated sparsely tiled arrays of high quality sequencing ladders spanning both complementary strands of the HAdV-1 genome. These strategies allow for rapid and accurate low-pass sequencing of genomes. Such rapid genome determinations facilitate the development of specific probes for differentiation of family, serotype, subtype and strain (e.g. pathogen genome signatures). These will be used to monitor epidemic outbreaks of acute respiratory disease in a defined test bed by the Epidemic Outbreak Surveillance (EOS) project.
A combination of X-ray powder diffraction and single crystal studies on azithomycin pseudopolymorphs give the precise solid state composition of all monohydrate pseudopolymorphs reported. According to the X-ray results the four monohydrates of azithromycin studied have the same crystallographic parameters. Furthermore, the analysis of the relative intensities from the powder patterns points to very similar chemical compositions and crystal structures. This result has been confirmed by the single crystal studies. The single crystal studies show that the solid state conformation of the azithromycin molecules is affected by the presence of solvents. The solvent methanol molecules were found disordered probably due to the existence of many positions where the hydrogen bonding is favoured and the large size of the available space to host the solvents.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.