Characterization of the radical scavenging activity of lignins--natural antioxidants

The present work is devoted to studies of the radical scavenging properties of lignins, which are recognized as efficient antioxidants of natural origin. Radical scavenging efficiency of a series of lignins isolated from deciduous and coniferous wood species and 10 lignin related monomeric compounds were examined against 1,1-diphenyl-2-picrylhydrazyl (DPPH*) radical in homogeneous conditions using ESR and spectrophotometry methods. Some structure-activity relationships are proposed, pointing out the importance of the non-etherified OH phenolic groups, ortho-methoxy groups, hydroxyl groups and the double bond between the outermost carbon atoms in the side chain for increasing scavenger activity. Analysis of rate constants for the lignins-DPPH* interaction revealed the contribution of polymer molecular weight and pi-polyconjugation systems. The pi-conjugation systems of lignins operate as catalysts/activators of the interaction with DPPH*. Heterogeneity in terms of component composition (carbohydrate admixtures) and polydispersity is the factor which can decrease drastically the antioxidant efficiency of isolated lignins. The connection of the antibacterial effect of kraft lignin with radical scavenging activity of its soluble fraction was assumed.     

Mitotic hyperphosphorylation of the fission yeast SIN scaffold protein cdc11p is regulated by the protein kinase cdc7p

The fission yeast septation initiation network (SIN) triggers the onset of septum formation and cytokinesis. SIN proteins signal from the spindle pole body (SPB), to which they bind in a cell cycle-dependent manner, via the scaffold proteins sid4p and cdc11p. cdc11p becomes hyperphosphorylated during anaphase, when the SIN is active. We have investigated the phosphorylation state of cdc11p during mitosis in various mutant backgrounds. We show that association of cdc11p with the spindle pole body is required for its phosphorylation and that ectopic activation of the SIN results in hyperphosphorylation of cdc11p. We demonstrate that mitotic hyperphosphorylation of cdc11p requires the activity of cdc7p and that its dephosphorylation at the end of mitosis requires PP2A-par1p. Furthermore, spindle checkpoint arrest prevents cdc11p hyperphosphorylation. Finally, we show that the septation inhibitor byr4p interacts preferentially with hypophosphorylated cdc11p. We conclude that cdc11p hyperphosphorylation correlates with activation of the SIN and that this may be mediated primarily by cdc7p in vivo.     

The protein phosphatase 2A B'-regulatory subunit par1p is implicated in regulation of the S. pombe septation initiation network.

In order to identify regulators of the Schizosaccharomyces pombe septation initiation network (SIN), which signals the onset of cell division, we have isolated extragenic suppressors of mutations in the GTPase spg1p, which is a central element in this pathway. One of these encodes the protein phosphatase 2A (PP2A) B'-regulatory subunit par1p. Loss of par1p function rescues mutants in cdc11, cdc7, and spg1, but no other SIN mutants. Our data suggest that PP2A-par1p acts as a negative regulator of SIN signalling.     

spo12 is a multicopy suppressor of mcs3 that is periodically expressed in fission yeast mitosis

Hyperactivation of Cdc2 in fission yeast causes cells to undergo a lethal premature mitosis, a phenomenon called mitotic catastrophe. This phenotype is observed in cdc2-3w wee1-50 cells at high temperature and is suppressed by a single recessive mutant, mcs3-12. Mcs3 acts independently of the Wee1 kinase and Cdc25 phosphatase, two major regulators of Cdc2. We have isolated multicopy suppressors of the cell cycle arrest phenotype of mcs3-12 wee1-50 cdc25-22 cells, but did not identify the mcs3 gene itself. Instead several known mitotic regulators were isolated, including the Cdc25 phosphatase, Wis2 cyclophilin, Cek1 kinase, and an Hsp90 homologue, Swo1. We also isolated clones encoding non-functional, truncated forms of the Wee1 kinase and Dis2 type 1 phosphatase. In addition we identified a multicopy suppressor that encodes a structural homologue of the budding yeast SPO12 gene. We find that overexpression of fission yeast spo12 not only suppresses the phenotype of the mcs3-12 wee1-50 cdc25-22 strain, but also that of a win1-1 wee1-50 cdc25-22 strain at high temperature, indicating that the function of spo12 is not directly related to mcs3. We show that spo12 mRNA is periodically expressed during the fission yeast cell cycle, peaking at the G2/M transition coincidently with cdc15. Deletion of spo12, however, has no overt effect on either the mitotic or meiotic cell cycles, except when the function of the major B type cyclin, Cdc13, is compromised.     

Morphology and antifungal action of the genus Trichoderma cultivated in geometrically dissimilar bioreactors

Trichodermin, a microbial biofungicide obtained by the cultivation of the genus Trichoderma in geometrically dissimilar bioreactors, was investigated both in production and the application in food plants at different stages of growth. The growth of the producer was considerably better in the counterflow mixing system (CFMS) in comparison with the turbine mixing system (STMS). Morphological changes of the strain were studied during batch fermentation at different mixing regimes. The characteristic dynamics of the morphology were better when using CFMS. The biofungicide trichodermin produced by CFMS showed a somewhat higher activity for barley and sugar beet.     

Periodic accumulation of cdc15 mRNA is not necessary for septation in Schizosaccharomyces pombe

Analysis of Schizosaccharomyces pombe mutants that are defective in septum formation and cytokinesis has identified the product of the cdc15 gene as a key element in formation of a division septum. S. pombe cells lacking cdc15p function cannot assemble a functional medial ring, and do not make a division septum. cdc15 mRNA accumulates periodically during the cell cycle, peaking after entry into mitosis, and increased expression of the gene in G2-arrested cells can promote F-actin ring formation. Here, we have investigated the effects of mutations that block cell division upon the expression of cdc15 in synchronised cell populations, and analysed the expression of cdc15 when septum formation is induced by ectopic activation of the septation signalling network. We concluded the following: (i) the septation signalling network genes are not required for periodic accumulation of cdc15 mRNA; (ii) induction of septum formation in G2-arrested cells by activation of the septation signalling network does not result in accumulation of cdc15 mRNA, which is therefore not a prerequisite for septum formation; (iii) failure to turn off septum formation at the end of mitosis results in continued expression of cdc15; and (iv) periodic accumulation of cdc15 mRNA is mediated by a 97 bp region 5' to the mRNA start site.     

The fission yeast dma1 gene is a component of the spindle assembly checkpoint, required to prevent septum formation and premature exit from mitosis if spindle function is compromised.

Premature initiation of cytokinesis can lead to loss of chromosomes, and 'cutting' of the nucleus. Therefore, the proper spatial and temporal co-ordination of mitosis and cytokinesis is essential for maintaining the integrity of the genome. The fission yeast cdc16 gene is implicated both in the spindle assembly checkpoint and control of septum formation. To identify other proteins involved in these controls, we have isolated multicopy suppressors of the cdc16-116 mutation, and the characterization of one of these, dma1 (defective in mitotic arrest), is presented here. dma1 is not an essential gene, but in a dma1 null background (dma1-D1) the function of the spindle assembly checkpoint is compromised. If assembly of the spindle is prevented, dma1-D1 cells do not arrest, the activity of cdc2 kinase decays and cells form a division septum without completing a normal mitosis. dma1-D1 cells also show an increased rate of chromosome loss during exponential growth. Upon ectopic expression from an inducible promoter, dma1p delays progress through mitosis and inhibits septum formation, giving rise to elongated, multinucleate cells. We propose that dma1 is a component of the spindle assembly checkpoint, required to prevent septum formation and premature exit from mitosis if spindle function is impaired.     

Regulation of lysine biosynthesis in Brevibacterium flavum

L-lysine synthesis pathway enzyme activities: β-aspartate kinase (EC.2.7.2.4), diaminopimelate decarboxylase (EC.4.1.1.20) for two L-lysine producing strains Brevibacterium flavum 22LD and RC-115 were studied. It has been found that β-aspartate kinase and diaminopimelate decarboxylase in the Br. flavum RC-115 are less sensitive to feed-back inhibition by lysine and threonine. It is supposed that desensitized β-aspartate kinase in the Br. flavum RC-115 can be determined by genetical changes of the regulatory properties of the β-aspartate kinase. Auxotrophity in the locus of homoserine dehydrogenase was tested and no homoserine dehydrogenase (EC.1.1.1.3) activity was found in either strain. The combination of these both types of mutation supplemented by the lack of catabolic repression in the RC-115 strain makes it an active lysine producer in the medium with high carbohydrates content.