The Anaphase Promoting Complex (APC) controls CDK activity by targeting the ubiquitin-dependent proteolysis of S-phase and mitosis-promoting cyclins. Here, we report that the ectopic expression of the Arabidopsis CDC27a, an APC subunit, accelerates plant growth and results in plants with increased biomass production. CDC27a overexpression was associated to apical meristem restructuration, protoplasts with higher (3)H-thimidine incorporation and altered cell-cycle marker expression. Total protein extracts immunoprecipitated with a CDC27a antibody showed ubiquitin ligase activity, indicating that the Arabidopsis CDC27a gets incorporated into APC complexes. These results indicate a role of AtCDC27a in regulation of plant growth and raise the possibility that the activity of the APC and the rates of plant cell division could be regulated by the concentration of the CDC27a subunit.
Legume nodules formed by diazotrophic microorganisms are active sites for biological nitrogen fixation (BNF). In tropical regions, a significant part of N supply for soybean, peanut and bean crops is derived from BNF, which is nevertheless often limited by high temperature stress. In contrast, cowpea nodules are very resistant to high temperatures. To understand the molecular bases of thermotolerance during BNF under heat stress, we have used cDNA-amplified fragment length polymorphism experiments to identify differentially expressed transcripts from cowpea nodules subjected to heat shock treatment. The expression profiles obtained showed approximately 600 bands, 55 up-regulated and nine corresponding to genes repressed by heat stress. Twenty transcript-derived fragments were isolated, cloned and sequenced. The Vigna unguiculata nodule and stress response transcripts present similarities to those that encode low molecular weight heat shock proteins, wound-induced proteins, disease resistance protein, and xylan endohydrolase isoenzyme, as well as different housekeeping genes. The differential expression of 15 genes was confirmed by using Northern blot or reverse Northern hybridization experiments. ß
The present work analyzes the different modalities of protection of the intellectual creations in the biotechnology agricultural field. Regarding the Brazilian legislations related to the theme (the Industrial Property Law -no. 9.279/96 and the Plant Variety Protection Law -no. 9.456/97), and based in the international treaties signed by Brazil, the present work points to the inclusions of each of them, as well as to their interfaces using as reference the case study of glyphosate tolerant genetically modified soybean. For this case study, Monsanto's pipelines patents were searched and used to analyze the limits of patent protection in respect to others related to the Intellectual Property (IP) laws. Thus, it was possible to elucidate the complex scenario of the Intellectual Property of the glyphosate tolerant soybeans, since for the farmer it is hard to correlate the royalties payment with the IP enterprise's rights.
The following paper aims at establishing a connection between the evolution of legal landmarks related to soybeans tolerant to glyphosate-based herbicide in Brazil and the planting growth of this transgenic soybean in Brazil, in order to determine the role that such soybeans play in today's domestic agricultural scenario. To do so, a study of Brazilian laws that protect intellectual creations was carried out (Industrial Property Law - Law number 9.279/96 and the Plant Protection Law – Law number 9.456/97), the Law on Biosafety – Law number 11105 / 05 – and the Law on Brazilian Seeds and Seedlings - Law number 10.711/03, in order to delimit the matter protected by each of those laws while establishing its interfaces. Regarding planting, the Biosafety Law of 2005 corresponds to the fourth law which deals with soybeans tolerant to glyphosate-based herbicide and ensures that those previously registered may be marketed without limitation per crop. In order to estimate the space that soybean seeds tolerant to glyphosate-based herbicide began to occupy in the Brazilian market, in the 2008/2009 harvest, compared to the other not genetically modified soybeans, a search in the Ministry of Agriculture´s database was done (http://www.agricultura.gov.br) through the available records of certified, non-certified and basic seeds
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