Identification of vaccinia promoters by heterologous expression of hepatitis B surface antigen in mouse cells infected by recombinant vaccinia viruses

DNA fragments preceding open reading frames in a conserved segment of the vaccinia virus genome (Plucienniczak A., et al. (1985) Nucleic Acids Res. 13, 985–998) were cloned into plasmids upstream of the S gene of the hepatitis B virus encoding the surface antigen (HBsAg). Recombinant vaccinia virus obtained after insertion of these constructs into the thymidine kinase gene were used to infect mouse 1D cells. HBsAg was assayed in cellular supernatants. A strong promoter was thus identified in a 295 bp fragment preceding the coding region of the 147 kDa subunit of the vaccinia RNA polymerase.     

Bacterial competition for human nasal cavity colonization: role of Staphylococcal agr alleles

We examined the bacterial aerobic nasal flora of 216 healthy volunteers to identify potential competitive interactions among different species, with special emphasis on the influence of staphylococcal agr alleles. The Staphylococcus aureus colonization rate correlated negatively with the rate of colonization by Corynebacterium spp. and non-aureus staphylococci, especially S. epidermidis, suggesting that both Corynebacterium spp. and S. epidermidis antagonize S. aureus colonization. Most of the S. aureus and S. epidermidis isolates were agr typed by a PCR method. Only one S. aureus agr (agr(Sa)) allele was detected in each carrier. Multiple logistic regression of the two most prevalent agr(Sa) alleles (agr-1(Sa) and agr-2(Sa)) and the three S. epidermidis agr (agr(Se)) alleles showed a specific influence of the agr system. The results of this model did not support conclusions drawn from previous in vitro agr-specific cross-inhibition experiments. Our findings suggest that the agr alleles, which are strongly linked to the bacterial genetic background, may simply be associated with common biological properties--including mediators of bacterial interference--in the strains that bear them.     

Drift in the tropics: Phylogenetics and biogeographical patterns in Combretaceae

Aim

The aim of this study was to further advance our understanding of the species-rich, and ecologically important angiosperm family Combretaceae to provide new insights into their evolutionary history. We assessed phylogenetic relationships in the family using target capture data and produced a dated phylogenetic tree to assess fruit dispersal modes and patterns of distribution.

Location

Tropical and subtropical regions.

Time Period

Cretaceous to present.

Major Taxa Studied

Family Combretaceae is a member of the rosid clade and comprises 10 genera and more than 500 species, predominantly assigned to genera Combretum and Terminalia, and occurring on all continents and in a wide range of ecosystems.

Methods

We use a target capture approach and the Angiosperms353 universal probes to reconstruct a robust dated phylogenetic tree for the family. This phylogenetic framework, combined with seed dispersal traits, biome data and biogeographic ranges, allows the reconstruction of the biogeographical history of the group.

Results

Ancestral range reconstructions suggest a Gondwanan origin (Africa/South America), with several intercontinental dispersals within the family and few transitions between biomes. Relative abundance of fruit dispersal types differed by both continent and biome. However, intercontinental colonizations were only significantly enhanced by water dispersal (drift fruit), and there was no evidence that seed dispersal modes influenced biome shifts.

Main Conclusions

Our analysis reveals a paradox as drift fruit greatly enhanced dispersal distances at intercontinental scale but did not affect the strong biome conservatism observed.     

Novel aminoglycosides increase SMN levels in spinal muscular atrophy fibroblasts

Spinal muscular atrophy (SMA) is the leading genetic cause of infant mortality. SMA is caused by the homozygous absence of survival motor neuron-1 (SMN1). SMN2, a nearly identical copy gene, is retained in all SMA patients and encodes an identical protein as SMN1; however, SMN1 and SMN2 differ by a silent C to T transition which results in the production of an alternatively spliced isoform (SMNΔ7), which encodes a defective protein, demonstrating that the absence of the short peptide encoded by SMN exon 7 is critical in SMA development. Previously, we have shown that for some functions heterologous sequences can compensate for the exon 7 peptide, suggesting that the SMN C-terminus functions non-specifically. Consistent with this hypothesis, we now identify novel aminoglycosides that can induce SMN protein levels in patient fibroblasts. This hypothesis was supported, in part, by a novel fluorescent SMN read-through assay. Interestingly, however, through the development of a SMN exon 7-specific antibody, results suggested that levels of normal full-length SMN might also be elevated by aminoglycoside treatment. These results demonstrate that the compounds that promote read-through may provide an alternative platform for the discovery of compounds that induce SMN protein levels.Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users.     

A physical map of wheat chloroplast DNA showing the location of the structural genes for the ribosomal RNAs and the large subunit of ribulose 1,5-bisphosphate carboxylase

Summary The restriction endonucleases SalGI and PstI have been used to construct a physical map of wheat ctDNA. The molecule was found to contain approximately 135 kbq, and in common with many other higher plant ctDNAs about 15% of the sequences are repeated in an inverted orientation. It was established by electron microscopy that, in wheat, each segment of the inverted repeat contains 21.0 kbp, and that the single copy regions separating the two repeated segments contain 12.8 kbp and 80.2 kbp. Blot hybridisation showed that one set of ribosomal genes is located in each segment of the inverted repeat region and the sizes of these genes were accurately determined by measuring the dimensions of hybrids between the chloroplast rRNAs and the identified Sal and Eco fragments on electron micrographs: the genes for the 16S and 23S rRNAs contain 1530 bp and 2850 bp respectively and are separated by a spacer region of 2350 bp. The Bgl fragment of maize ctDNA known to contain the structural gene for the large-subunit (LS) of ribulose 1,5-bisphosphate carboxylase was used as a probe to locate the LS gene in wheat ctDNA. A small (2.8 kbp) Eco fragment was found to contain most of the wheat LS gene and is derived from the larger single-copy region, 23.5 kbp away from one segment of the inverted repeat and 54.8 kbp from the other.     

Identification of Required Host Factors for SARS-CoV-2 Infection in Human Cells

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A gain-of-function screen in zebrafish identifies a guanylate cyclase with a role in neuronal degeneration

Manipulation of gene expression is one of the most informative ways to study gene function. Genetic screens have been an informative method to identify genes involved in developmental processes. In the zebrafish, loss-of-function screens have been the primary approach for these studies. We sought to complement loss-of-function screens using an unbiased approach to overexpress genes with a Gal4-UAS based system, similar to the gain-of-function screens in Drosophila. Using MMLV as a mutagenic vector, a cassette containing a UAS promoter was readily inserted in the genome, often at the 5′ end of genes, allowing Gal4-dependent overexpression. We confirmed that genes downstream of the viral insertions were overexpressed in a Gal4-VP16 dependent manner. We further demonstrate that misexpression of one such downstream gene gucy2F, a membrane-bound guanylate cyclase, throughout the nervous system results in multiple defects including a loss of forebrain neurons. This suggests proper control of cGMP production is important in neuronal survival. From this study, we propose that this gain-of-function approach can be applied to large-scale genetic screens in a vertebrate model organism and may reveal previously unknown gene function. Sequence data from this article have been deposited with the EMBL/GenBank Data Libraries under accession nos. FJ151012, FJ151013, and FJ151014.     

TOP1 inhibition therapy protects against SARS-CoV-2-induced lethal inflammation

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