Mitotic-exit control as an evolved complex system.

TL;DR: An overview of regulatory mechanisms and important developmental processes controlled by TAZ and YAP is provided and it is outlined that TAZ/YAP activity is regulated by mechanical and cytoskeletal cues as well as by various extracellular factors.

TL;DR: Currently known targets of Cdk1 in the budding yeast S. cerevisiae are discussed and the role of Ctk1 in several crucial processes including maintenance of genome stability is highlighted.

TL;DR: The clinical success of mitotic poisons such as taxanes reinforces the interest in these molecules, their involvement in human cancer and the therapeutic opportunities to modulate their function in cancer treatment.

TL;DR: It is shown that complete disruption of the gene encoding Lats2 in mice causes developmental defects in the nervous system and embryonic lethality and that the complete LATS2-knock-out cells exhibit an acceleration of exit from mitosis and marked down-regulation of critical mitotic regulators.

TL;DR: Simple gene circuits consisting of a regulator and transcriptional repressor modules in Escherichia coli are designed and constructed and the gain of stability produced by negative feedback is shown.

TL;DR: The surprising redundancy amongst the classical cyclins, Cdk1 and Cdk2, and cyclin-dependent kinases show that the important differences between these proteins are when and where they are expressed rather than the proteins they phosphorylate.

TL;DR: This document analyze the modeling in the software area through of use of UML, too it propose the development of a tool under the actual known philosophy called web 2.0.

TL;DR: Insight is gained into the cellular mechanisms by which these determinants are preferentially segregated into one of the two daughter cells during mitosis so that the daughter cells acquire different fates.