Model for web-application based configuration of modular production plants with automated PLC line control code generation

The international competition leads manufacturers in high-wage countries to focus more on high-value products, which often come at the disadvantage of small batch sizes. To remain competitive, the plant engineering for should be time and cost effective. One approach to achieve this are modular production lines. In the presented contribution, a product orientated web- service for the configuration of a modular production plant investigated. The resulting model then is interpreted by a code generator to generate a PLC line control. The approach is validated with a plant of metal hybrid carbon fiber seat rests

Regulation of p73 activity by post-translational modifications

The transcription factor p73 is a member of the p53 family that can be expressed as at least 24 different isoforms with pro- or anti-apoptotic attributes. The TAp73 isoforms are expressed from an upstream promoter and are regarded as bona fide tumor suppressors; they can induce cell cycle arrest/apoptosis and protect against genomic instability. On the other hand, ΔNp73 isoforms lack the N-terminus transactivation domain; hence, cannot induce the expression of pro-apoptotic genes, but still can oligomerize with TAp73 or p53 to block their transcriptional activities. Therefore, the ratio of TAp73 isoforms to ΔNp73 isoforms is critical for the quality of the response to a genomic insult and needs to be delicately regulated at both transcriptional and post-translational level. In this review, we will summarize the current knowledge on the post-translational regulatory pathways involved to keep p73 protein under control. A comprehensive understanding of p73 post-translational modifications will be extremely useful for the development of new strategies for treating and preventing cancer

Mechanism of TAp73 inhibition by ΔNp63 and structural basis of p63/p73 hetero-tetramerization.

Members of the p53 tumor suppressor family are expressed as multiple isoforms. Isoforms having an N-terminal transactivation domain are transcriptionally active while those ones lacking this domain often inhibit the transcriptional activity of other family members. In squamous cell carcinomas, the high expression level of ΔNp63α inhibits the tumour suppressor function of TAp73β. This can in principle be due to blocking of the promotor or by direct interaction between both proteins. P63 and p73 can hetero oligomerize through their tetramerization domains and a hetero-oligomer consisting of two p63 and two p73 molecules is thermodyna mically more stable than both homo tetramers. Here we show that hetero tetramer complexes exist also in differentiating keratinocytes. Through structure determination of the hetero tetramer we reveal why this hetero tetramer is the thermodynamically prefer red species. Based on this structure we have created mutants that either enable the formation of only heterotetramers or only homotetramers, allowing to investigate the function of these heterotetramers. Using these tools we show that inhibition of TAp73β in squamous cell carcinomas is due to promotor squelching and not direct interaction

Mechanism of TAp73 inhibition by ΔNp63 and structural basis of p63/p73 hetero-tetramerization.

Members of the p53 tumor suppressor family are expressed as multiple isoforms. Isoforms having an N-terminal transactivation domain are transcriptionally active while those ones lacking this domain often inhibit the transcriptional activity of other family members. In squamous cell carcinomas, the high expression level of ΔNp63α inhibits the tumour suppressor function of TAp73β. This can in principle be due to blocking of the promotor or by direct interaction between both proteins. P63 and p73 can hetero oligomerize through their tetramerization domains and a hetero-oligomer consisting of two p63 and two p73 molecules is thermodyna mically more stable than both homo tetramers. Here we show that hetero tetramer complexes exist also in differentiating keratinocytes. Through structure determination of the hetero tetramer we reveal why this hetero tetramer is the thermodynamically prefer red species. Based on this structure we have created mutants that either enable the formation of only heterotetramers or only homotetramers, allowing to investigate the function of these heterotetramers. Using these tools we show that inhibition of TAp73β in squamous cell carcinomas is due to promotor squelching and not direct interaction