Cleavage of syndecan-4 by ADAMTS1 provokes defects in adhesion

Syndecan-4 is a membrane-bound heparan sulfate proteoglycan that participates in cell-cell and cell-matrix interactions and modulates adhesion and migration of many cell types. Through its extracellular domain, syndecan-4 cooperates with adhesion molecules and binds matrix components relevant for cell migration. Importantly, syndecan-4 is a substrate of extracellular proteases, however the biological significance of this cleavage has not been elucidated. Here, we show that the secreted metalloprotease ADAMTS1, involved in angiogenesis and inflammatory processes, cleaves the ectodomain of syndecan-4. We further showed that this cleavage results in altered distribution of cytoskeleton components, functional loss of adhesion, and gain of migratory capacities. Using syndecan-4 null cells, we observed that ADAMTS1 proteolytic action mimics the outcome of genetic deletion of this proteoglycan with regards to focal adhesion. Our findings suggest that the shedding of syndecan-4 by ADAMTS1 disrupts cell adhesion and promotes cell migration.     

Silencing of subfamily I of protein phosphatase 2A catalytic subunits results in activation of plant defense responses and localized cell death

The central importance of protein phosphorylation in plant defense responses has been demonstrated by the isolation of several disease-resistance genes that encode protein kinases. In addition, there are many reports of changes in protein phosphorylation accompanying plant responses to pathogens. In contrast, little is known about the role of protein dephosphorylation in regulating plant defenses. We report that expression of the LePP2Ac1 gene, which encodes a catalytic subunit of the heterotrimeric protein phosphatase 2A (PP2Ac), is rapidly induced in resistant tomato leaves upon inoculation with an avirulent strain of Pseudomonas syringae pv. tomato. By analysis of PP2Ac gene sequences from several plant species, we found that PP2Ac genes cluster into two subfamilies, with LePP2Ac1 belonging to subfamily I. Virus-induced gene silencing (VIGS) in Nicotiana benthamiana was used to suppress expression of genes from subfamily I and not from subfamily II. The PP2Ac-silenced plants had greatly decreased PP2A activity, constitutively expressed pathogenesis-related (PR) genes, and developed localized cell death in stems and leaves. In addition, the plants were more resistant to a virulent strain of P. syringae pv. tabaci and showed an accelerated hypersensitive response (HR) to effector proteins from both P. syringae and the fungal pathogen, Cladosporium fulvum. Thus, catalytic subunits of PP2Ac subfamily I act as negative regulators of plant defense responses likely by de-sensitizing protein phosphorylation cascades.     

DNA map of mutations at the scute locus of Drosophila melanogaster

The achaete-scute gene complex (AS-C) of Drosophila melanogaster is involved in the differentiation of innervated elements in the adult (chaetes) and in the embryo (central nervous system). Genetically, the AS-C is subdivided into four regions: achaete, scute α, lethal of scute, and scute β. Using a previously cloned fragment of scute DNA, we have now cloned 62 kb of wild-type DNA from the scute region. No repetitive sequences have been detected in this stretch of DNA. Of 16 scute mutants with chromosomal rearrangements studied (inversions, deletions, and translocations), nine, included genetically in scute β, have breakpoints in the cloned region. The remaining rearrangements, which genetically correspond to scute α, map outside and to the left of the cloned region. Of nine scute `point mutants' studied, eight have large DNA alterations within the cloned region. These alterations include insertions (five) and deletions (three). The DNA alterations found in both `point mutants' and rearrangements are interspersed and scattered over 40 kb. The relationship between the sites of the DNA alterations and the mutant phenotypes are discussed.     

Formation of fibrin gel in fibrinogen-thrombin system: static and dynamic light scattering study

The dynamics of thrombin-induced fibrin gel formation was investigated by means of static and dynamic light scattering. The decay time distribution function, obtained by the dynamic light scattering, clearly revealed a stepwise gelation process: the formation of fibrin and protofibril from fibrinogen followed by the lateral aggregation of protofibrils to form fibrin fibers and the formation of a three-dimensional network consisting of fibers. This conversion process was correlated with the angular dependence of the scattered light intensity (static light scattering). The correlation function of dynamic light scattering was analyzed in terms of sol-gel transition and gel structure. The correlation function showed a stretched exponential type behavior before the sol to gel transition point, and it showed a power law behavior at the gelation point.     

Behavioral analysis of the choice of oviposition site by single females ofDrosophila Melanogaster (Diptera: Drosophilidae)

The oviposition behavior of single females of Drosophila melanogasterwas studied in population cages over 24 h. Each female shows a different behavior, but they can be arbitrarily separated into those which concentrate their egg laying in only one tube and those which spread it over more than two tubes. A comparison is made between females extracted from the Valdivian population and flies from lines selected for high and low aggregation. When one-tube females were grouped and compared with more-than-one-tube females, the aggregation indices between these groups were significantly different.     

RNA Binding Activity of Heterodimeric Splicing Factor U2AF: at Least One RS Domain Is Required for High-Affinity Binding

The pre-mRNA splicing factor U2AF (U2 small nuclear ribonucleoprotein particle [snRNP] auxiliary factor) plays a critical role in 3′ splice site selection. U2AF binds site specifically to the intron pyrimidine tract between the branchpoint and the 3′ splice site and targets U2 snRNP to the branch site at an early step in spliceosome assembly. Human U2AF is a heterodimer composed of large (hU2AF⁶⁵) and small (hU2AF³⁵) subunits. hU2AF⁶⁵ contains an arginine-serine-rich (RS) domain and three RNA recognition motifs (RRMs). hU2AF³⁵ has a degenerate RRM and a carboxyl-terminal RS domain. Genetic studies have recently shown that the RS domains on the Drosophila U2AF subunit homologs are each inessential and might have redundant functions in vivo. The site-specific pyrimidine tract binding activity of the U2AF heterodimer has previously been assigned to hU2AF⁶⁵. While the requirement for the three RRMs on hU2AF⁶⁵ is firmly established, a role for the large-subunit RS domain in RNA binding remains unresolved. We have analyzed the RNA binding activity of the U2AF heterodimer in vitro. When the Drosophila small-subunit homolog (dU2AF³⁸) was complexed with the large-subunit (dU2AF⁵⁰) pyrimidine tract, RNA binding activity increased 20-fold over that of free dU2AF⁵⁰. We detected a similar increase in RNA binding activity when we compared the human U2AF heterodimer and hU2AF⁶⁵. Surprisingly, the RS domain on dU2AF³⁸ was necessary for the increased binding activity of the dU2AF heterodimer. In addition, removal of the RS domain from the Drosophila large-subunit monomer (dU2AF⁵⁰ΔRS) severely impaired its binding activity. However, if the dU2AF³⁸ RS domain was supplied in a complex with dU2AF⁵⁰ΔRS, high-affinity binding was restored. These results suggest that the presence of one RS domain of U2AF, on either the large or small subunit, promotes high-affinity pyrimidine tract RNA binding activity, consistent with redundant roles for the U2AF RS domains in vivo.     

Characterisation of grain yield and nitrogen level in relation to flag leaf senescence of wheat varieties

Three wheat cultivars ( Triticum aestivum L.), Splendeur, Hobbit and Maris Huntsman grown in pots were compared. Especially when compared to Splendeur, the flag leaf senesced most rapidly in Maris Huntsman, which presented the most rapid loss of moisture, chlorophyll and nitrogen. The uptake of exogenous nitrogen during the post-anthesis period was lower in the rapidly than in the slowly senescing variety. A higher concentration of free amino nitrogen in the flag leaf at a given sampling date was associated with a lower percentage decrease of soluble proteins at the following date. Acid proteinase activity in the flag leaf was inversely related to moisture percentage and free amino nitrogen level, but unrelated to the nitrogen loss of the flag leaf. Acid proteinase activity in the flag leaf was directly related to grain nitrogen percentage, but inversely related to grain yield. Grain yield was also directly related to the mean soluble protein content of the flag leaf through senescence.