Rac is a dominant regulator of cadherin-directed actin assembly that is activated by adhesive ligation independently of Tiam1

Classic cadherins function as adhesion-activated cell signaling receptors. On adhesive ligation, cadherins induce signaling cascades leading to actin cytoskeletal reorganization that is imperative for cadherin function. In particular, cadherin ligation activates actin assembly by the actin-related protein (Arp)2/3 complex, a process that critically affects the ability of cells to form and extend cadherin-based contacts. However, the signaling pathway(s) that activate Arp2/3 downstream of cadherin adhesion remain poorly understood. In this report we focused on the Rho family GTPases Rac and Cdc42, which can signal to Arp2/3. We found that homophilic engagement of E-cadherin simultaneously activates both Rac1 and Cdc42. However, by comparing the impact of dominant-negative Rac1 and Cdc42 mutants, we show that Rac1 is the dominant regulator of cadherin-directed actin assembly and homophilic contact formation. To pursue upstream elements of the Rac1 signaling pathway, we focused on the potential contribution of Tiam1 to cadherin-activated Rac signaling. We found that Tiam1 or the closely-related Tiam2/STEF1 was recruited to cell-cell contacts in an E-cadherin-dependent fashion. Moreover, a dominant-negative Tiam1 mutant perturbed cell spreading on cadherin-coated substrata. However, disruption of Tiam1 activity with dominant-negative mutants or RNA interference did not affect the ability of E-cadherin ligation to activate Rac1. We conclude that Rac1 critically influences cadherin-directed actin assembly as part of a signaling pathway independent of Tiam1. actin cytoskeleton; Cdc42; E-cadherin     

The pygmy hog is a unique genus: 19th century taxonomists got it right first time round

The pygmy hog, Sus salvanius, the smallest and rarest extant suid was first described as the only member of the genus Porcula. It is currently regarded as member of the genus Sus and a sister taxon of the domestic pig/Eurasian wild boar (Sus scrofa). Phylogenetic analyses of 2316 bp from three mtDNA loci (control-region, cytochrome b, 16S) by Bayesian inference and statistical testing of alternative phylogenetic hypotheses all support the original classification of the pygmy hog as a unique genus. Thus, we propose that the species name Porcula salvania should be resurrected. The reclassification will heighten awareness of the need for the future protection and survival of this unique species.     

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.     

Data mining of transcriptional biomarkers at different cotton fiber developmental stages

Functional & Integrative Genomics - Advancement of the gene expression study provides comprehensive information on pivotal genes at different cotton fiber development stages. For the betterment...     

Comparative biochemical characterization and in silico analysis of novel lipases Lip11 and Lip12 with Lip2 from Yarrowia lipolytica

Novel lipases lip11 and lip12 from Yarrowia lipolytica MSR80 were cloned and expressed in E. coli HB101 pEZZ18 system along with lip2. These enzymes were constitutively expressed as extracellular proteins with IgG tag. The enzymes were purified by affinity chromatography and analyzed by SDS-PAGE with specific activity of 314, 352 and 198?U/mg for Lip2, Lip11 and Lip12, respectively on olive oil. Biochemical characterization showed that all were active over broad range of pH 4.0?C9.0 and temperature 20?C80?°C with optima at pH 7 and 40?°C. All the three lipases were thermostable up to 80?°C with varying t_1/2. Activity on various substrates revealed that they were most active on oils?>?triacylglycerides?>?p-np-esters. Relatively Lip2 and Lip11 showed specificity for mid to long chain fatty acids, while Lip12 was mid chain specific. GC analysis of triolein hydrolysis by these lipases revealed that Lip2 and Lip11 are regioselective, while Lip12 is not. Effect of metal ions showed that Lip2 and Lip12 were activated by Ca²⁺ whereas Lip11 by Mg²⁺. All were thiol activated and inhibited by PMSF and N-bromosuccinimide. All were activated by non polar solvents and inhibited by polar solvents. Detailed sequence analysis and structural predictions revealed Lip11 and Lip12 shared 61 and 62?% homology with Lip2 (3O0D) and three dimensional superimposition revealed Lip2 was closer to Lip11 than to Lip12 as was observed during biochemical characterization. Finally, thermostability and substrate specificity has been explained on the basis of detailed amino acid analysis.     

Reciprocal regulation of Δ 1-pyrroline-5-carboxylate synthetase and proline dehydrogenase genes controls proline levels during and after osmotic stress in plants

Plants generally accumulate free proline under osmotic stress conditions. Upon removal of the osmotic stress, the proline levels return to normal. In order to understand the mechanisms involved in regulating the levels of proline, we cloned and characterized a proline dehydrogenase (PDH) cDNA from Arabidopsis thaliana (AtPDH). The 1745?bp cDNA contains a major open reading frame encoding a peptide of 499 amino acids. The deduced amino acid sequence has high homology with both Saccharomyces cerevisiae and Drosophila melanogaster proline oxidases and contains a putative mitochondrial targeting sequence. When expressed in yeast, the AtPDH cDNA complemented a yeast put1 mutation and exhibited proline oxidase activity. We also determined the free proline contents and the Δ¹-pyrroline-5-carboxylate synthetase (P5CS) and PDH mRNA levels under different osmotic stress and recovery conditions. The results demonstrated that the removal of free proline during the recovery from salinity or dehydration stress involves an induction of the PDH gene while the activity of P5CS declines. The reciprocal regulation of P5CS and PDH genes appears to be a key mechanism in the control of the levels of proline during and after osmotic stress. The PDH gene was also significantly induced by exogenously applied proline. The induction of PDH by proline, however, was inhibited by salt stress.     

Evidence of positive selection and concerted evolution in the rapidly evolving PRDM9 zinc finger domain in goats and sheep

Meiotic recombination contributes to augmentation of genetic diversity, exclusion of deleterious alleles and proper segregation of chromatids. PRDM9 has been identified as the gene responsible for specifying the location of recombination hotspots during meiosis and is also the only known vertebrate gene associated with reproductive isolation between species. PRDM9 encodes a protein with a highly variable zinc finger (ZF) domain that varies between as well as within species. In the present study, the ZF domain of PRDM9 on chromosome 1 was characterized for the first time in 15 goat breeds and 25 sheep breeds of India. A remarkable variation in the number and sequence of ZF domains was observed. The number of ZF repeats in the ZF array varied from eight to 12 yielding five homozygous and 10 heterozygous genotypes. The number of different ZF domains was 84 and 52 producing 36 and 26 unique alleles in goats and sheep respectively. The posterior mean of dN/dS or omega values were calculated using the codeml tool of pamlx to identify amino acids that are evolving positively in goats and sheep, as positions ?1, +3 and +6 in the ZF domain have been reported to experience strong positive selection across different lineages. Our study identified sites ?5, ?1, +3, +4 and +6 to be experiencing positive selection. Small ruminant zinc fingers were also found to be evolving under concerted evolution. Our results demonstrate the existence of a vast diversity of PRDM9 in goats and sheep, which is in concert with reports in many metazoans.     

Foxp3 and IL-10 expression correlates with parasite burden in lesional tissues of post kala azar dermal leishmaniasis (PKDL) patients

Background

Post kala-azar dermal leishmaniasis (PKDL), a sequel to visceral leishamaniasis (VL) in 5–15% cases, constitutes a parasite reservoir important in disease transmission. The precise immunological cause of PKDL outcome remains obscure. However, overlapping counter regulatory responses with elevated IFN-γ and IL-10 are reported.

Methodology/Principal Findings

Present study deals with ex-vivo mRNA and protein analysis of natural regulatory T cells (nTreg) markers (Foxp3, CD25 and CTLA-4) and IL-10 levels in lesion tissues of PKDL patients at pre and post treatment stages. In addition, correlation of nTreg markers and IL-10 with parasite load in tissue lesions was investigated. mRNA levels of nTreg markers and IL-10 were found significantly elevated in pre-treatment PKDL cases compared to controls (Foxp3, P = 0.0009; CD25 & CTLA-4, P<0.0001; IL-10, P<0.0001), and were restored after treatment. Analysis of nTreg cell markers and IL-10 in different clinical manifestations of disease revealed elevated levels in nodular lesions compared to macules/papules. Further, Foxp3, CD25 and IL-10 mRNA levels directly correlated with parasite load in lesions tissues.

Conclusion/Significance

Data demonstrated accumulation of nTreg cells in infected tissue and a correlation of both IL-10 and nTreg levels with parasite burden suggesting their role in disease severity in PKDL.