A transiently expressed transposase system to generate <Emphasis Type="Italic">Ds</Emphasis>-tagged mutants for functional genomics in sorghum

Six T-DNA/Ds launch pad lines (T₀) previously generated by Agrobacterium-mediated transformation of M 35-1 genotype of sorghum were confirmed by PCR. T₁ plants of all six lines showed 3:1 segregation when sprayed with 12 ppm Basta herbicide, indicating single copy insertion, which was also confirmed by left border flanking sequence tag. Calli derived from pNU435-T₀(1) primary transformant was co-infected with Agrobacterium-carrying iAc construct for transient expression of transposase to generate stable Ds-tagged mutants in the T₀ generation. All nine regenerants were PCR-positive for Ds. However, four contained intact T-DNA/Ds launch pad, while five plants carried empty launch pad, indicating transposition of the Ds. One of these plants, IDs-T₀(8), was negative for iAc PCR, indicating that it was a stable Ds-tagged mutant. Of the four plants with intact T-DNA/Ds, IDs-T₀(5) carrying iAc was a double transformant and mutagenic, which can generate mutants in the subsequent generation. Hence, the transient expression of transposase system in sorghum reported here can be employed for high throughput mutagenesis.     

The Drosophila Hem/Kette/Nap1 protein regulates asymmetric division of neural precursor cells by regulating localization of Inscuteable and Numb

The Hem/Kette/Nap1 protein is involved in many biological processes. We have recently reported that Hem is required for the normal migration of neurons in the Drosophila embryo. In this paper, we report that Hem regulates the asymmetric division of neural precursor cells. We find that a well-studied Hem/Kette mutant allele produces at least two main, but possibly more, phenotypic classes of mutant embryos, and these phenotypes correlate with variable levels of maternal wild type Hem protein in the developing embryo. While the weaker class exhibits weak axon guidance defect and the mis-migration of neurons, the stronger class causes severe axon guidance defects, mis-migration of neurons and symmetric division of ganglion mother cells (GMC) of the RP2/sib lineage. We also show that the basis for the loss of asymmetric division is due to non-localization of Inscuteable and Numb in GMC-1. A non-asymmetric Numb segregates to both daughter cells of GMC-1, which then prevents Notch signaling from specifying a sib fate. This causes both cells to adopt an RP2 fate. Furthermore, loss of function for Abelson tyrosine kinase also causes loss of asymmetric localization of Inscuteable and Numb and symmetric division of GMC-1, the loss of function for WAVE has a very weakly penetrant loss of asymmetry defect. These results define another role for Hem/Kette/Nap1 in a neural precursor cell during neurogenesis.     

Inhibition of aggregation of human platelets by 8,15-dihydroperoxides of 5,9,11,13-eicosatetraenoic and 9,11,13-eicosatrienoic acids

The dihydroperoxy derivative of arachidonic acid, 8,15-dihydroperoxy-5,9,11,13-eicosatetraenoic acid, at , is an effective inhibitor of the aggregation of human blood platelets, induced by ADP, epinephrine and collagen. The nature of the effect is time dependent. If ADP is added 60 sec after the inhibitor, the first phase of aggregation occurs but the second phase is suppressed. When the time is prolonged to 240 sec, the first phase of aggregation is almost completely eliminated. The corresponding dihydroxy derivative is without effect on aggregation. The corresponding dihydroperoxy derivative obtained from 8,11,14-eicosatrienoic acid is also an effective inhibitor.     

The single Drosophila ZO-1 protein Polychaetoid regulates embryonic morphogenesis in coordination with Canoe/afadin and Enabled

Adherens and tight junctions play key roles in assembling epithelia and maintaining barriers. In cell culture zonula occludens (ZO)-family proteins are important for assembly/maturation of both tight and adherens junctions (AJs). Genetic studies suggest that ZO proteins are important during normal development, but interpretation of mouse and fly studies is limited by genetic redundancy and/or a lack of null alleles. We generated null alleles of the single Drosophila ZO protein Polychaetoid (Pyd). Most embryos lacking Pyd die with striking defects in morphogenesis of embryonic epithelia including the epidermis, segmental grooves, and tracheal system. Pyd loss does not dramatically affect AJ protein localization or initial localization of actin and myosin during dorsal closure. However, Pyd loss does affect several cell behaviors that drive dorsal closure. The defects, which include segmental grooves that fail to retract, a disrupted leading edge actin cable, and reduced zippering as leading edges meet, closely resemble defects in canoe zygotic null mutants and in embryos lacking the actin regulator Enabled (Ena), suggesting that these proteins act together. Canoe (Cno) and Pyd are required for proper Ena localization during dorsal closure, and strong genetic interactions suggest that Cno, Pyd, and Ena act together in regulating or anchoring the actin cytoskeleton during dorsal closure.     

Effect of root exudates and extracts on rhizosphere fungi

Summary The effects of root exudates and extracts of Cassia tora L. and Crotalaria medicaginea Lamk., on some dominant rhizosphere fungi isolated from the plants were studied. Root extracts induced a high degree of stimulation in rate of growth of a majority of the fungi tested. Root exudates caused only a marginal effect which was positive on all the fungi except Trichoderma lignorum which was inhibited by the root exudate of C. medicaginea.     

Manifold active-state conformations in GPCRs: agonist-activated constitutively active mutant AT1 receptor preferentially couples to Gq compared to the wild-type AT1 receptor

The angiotensin II type I (AT(1)) receptor mediates regulation of blood pressure and water-electrolyte balance by Ang II. Substitution of Gly for Asn(111) of the AT(1) receptor constitutively activates the receptor leading to Gq-coupled IP(3) production independent of Ang II binding. The Ang II-activated conformation of the AT1(N111G) receptor was proposed to be similar to that of the wild-type AT(1) receptor, although, various aspects of the Ang II-induced conformation of this constitutively active mutant receptor have not been systematically studied. Here, we provide evidence that the conformation of the active state of the wild-type and the constitutively active AT(1) receptors are different. Upon Ang II binding an activated conformation of the wild-type AT(1) receptor activates G protein and recruits beta-arrestin. In contrast, the agonist-bound AT1(N111G) mutant receptor preferentially couples to Gq and is inadequate in beta-arrestin recruitment.     

IL-28B is a Key Regulator of B- and T-Cell Vaccine Responses against Influenza

Influenza is a major cause of morbidity and mortality in immunosuppressed persons, and vaccination often confers insufficient protection. IL-28B, a member of the interferon (IFN)-λ family, has variable expression due to single nucleotide polymorphisms (SNPs). While type-I IFNs are well known to modulate adaptive immunity, the impact of IL-28B on B- and T-cell vaccine responses is unclear. Here we demonstrate that the presence of the IL-28B TG/GG genotype (rs8099917, minor-allele) was associated with increased seroconversion following influenza vaccination (OR 1.99 p = 0.038). Also, influenza A (H1N1)-stimulated T- and B-cells from minor-allele carriers showed increased IL-4 production (4-fold) and HLA-DR expression, respectively. In vitro, recombinant IL-28B increased Th1-cytokines (e.g. IFN-γ), and suppressed Th2-cytokines (e.g. IL-4, IL-5, and IL-13), H1N1-stimulated B-cell proliferation (reduced 70%), and IgG-production (reduced>70%). Since IL-28B inhibited B-cell responses, we designed antagonistic peptides to block the IL-28 receptor α-subunit (IL28RA). In vitro, these peptides significantly suppressed binding of IFN-λs to IL28RA, increased H1N1-stimulated B-cell activation and IgG-production in samples from healthy volunteers (2-fold) and from transplant patients previously unresponsive to vaccination (1.4-fold). Together, these findings identify IL-28B as a key regulator of the Th1/Th2 balance during influenza vaccination. Blockade of IL28RA offers a novel strategy to augment vaccine responses.