Democracy pays | Max-Planck-Gesellschaft https://www.mpg.de/7682616/democracy-tax-evaders
Majority wants both punishment for tax evaders and things to go fine for themselves.
Sciences Study reveals increased mental health strain Amazon
Majority wants both punishment for tax evaders and things to go fine for themselves.
Sciences Study reveals increased mental health strain Amazon
Primitive vertebrates with an adaptive immune system A key organ found in our adaptive immune system are more common than previously assumed: Max Planck researchers have demonstrated the presence of thymus-like structures in the primitive lamprey. The adaptive immune system is one of evolution’s greatest inventions: our bodies react to pathogens by producing highly specialised defence cells – the T lymphocytes which mature in the thymus – and antibodies that are capable of recognising the intruders, even years after the original exposure. Whether this ingenious defence system and the organs necessary for its functioning are an exclusive feature of higher vertebrates is a question that has preoccupied scientists for 150 years. A research group led by Thomas Boehm from the Max Planck Institute of Immunobiology and Epigenetics in Freiburg working in cooperation with American scientists has succeeded in providing a conclusive answer to this question: the scientists have discovered thymus-like tissue in lampreys, arguably the most primitive living vertebrates. Therefore, they too possess the central structure of specific immune defence. (Nature, February 3, 2011)
Researchers discover how microbial cooperation can emerge Amazon
Das Max-Planck-Institut für Softwaresysteme (Standort Saarbrücken) betreibt Grundlagenforschung, die sich unter anderem dem Sprachdesign, der Analyse, der Modellierung, Einführung und Auswertung von Softwaresystemen widmet. Spezielle Interessensgebiete umfassen die System-Programmierung, den Vergleich von dezentralen und Netzwerksystemen, von eingebetteten und autonomen Systemen ebenso wie Aspekte der formalen Modellierung, Analyse, Sicherheit und Stabilität von modernster Softwaretechnik.
681 9303-9701 joel@mpi-sws.org mehr Aus dem MPI Amazon
Das Max-Planck-Institut für Softwaresysteme (Standort Saarbrücken) betreibt Grundlagenforschung, die sich unter anderem dem Sprachdesign, der Analyse, der Modellierung, Einführung und Auswertung von Softwaresystemen widmet. Spezielle Interessensgebiete umfassen die System-Programmierung, den Vergleich von dezentralen und Netzwerksystemen, von eingebetteten und autonomen Systemen ebenso wie Aspekte der formalen Modellierung, Analyse, Sicherheit und Stabilität von modernster Softwaretechnik.
681 9303-9701 joel@mpi-sws.org mehr Aus dem MPI Amazon
Scientists at the Max Planck Institute for Informatics are concerned with the issue of how we can come to grips with computer systems, and how we can avoid information overload in the modern-day flood of data.
engage in a strategic research partnership more Amazon
Scientists at the Max Planck Institute for Informatics are concerned with the issue of how we can come to grips with computer systems, and how we can avoid information overload in the modern-day flood of data.
engage in a strategic research partnership more Amazon
Scientists at the Max Planck Institute for Informatics are concerned with the issue of how we can come to grips with computer systems, and how we can avoid information overload in the modern-day flood of data.
engage in a strategic research partnership more Amazon
With its annual report „Environment Frontiers“, the United Nations Environment Programme (UNEP) outlines the challenges that will have a decisive influence on the natural foundations of life on our planet in the future. In their report 2018/2019, the authors call „Ecological Networking: Bridges to Greater Biodiversity“ one of the great challenges of the future.
Susan Trumbore on the tipping points of the fragile Amazon
Deep-sea mussels harbor up to 16 different strains of bacteria in their gills, keeping them prepared for environmental changes.
Susan Trumbore on the tipping points of the fragile Amazon
A single nucleotide substitution likely contributed to the evolutionary expansion of the human neocortex.
models for diagnostics and biomarker discovery Amazon