The International journal of developmental biology
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Portugal celebrated in 2006 its first 20 years of the formal introduction of the practice of external evaluation of research proposals in the national funding system. Accounts of changes in numbers of publications, citations, numbers of research projects funded and budget figures can be found in Government Reports (www.oces.mctes.pt.). ⋯ Reciprocally, the entry of basic biological scientists into medically oriented groups totally changed the landscape, the soil, the seeding, the cross-fertilization and the flowering of biomedical research in the country. This paper is a personal account of the experience of a scientist who was asked by the then President of the National Research Council, Jose Mariano Gago to co-ordinate the introduction of external evaluation of research projects and research institutes in the Health Sciences in Portugal between 1986 and 1997.
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Gene expression can be differentially regulated by alternatively spliced transcription factors, providing a mechanism for precise control of diverse morphogenetic events. The paired-type homedomain transcription factor Prrxl1 (formerly known as Drg11) was described as a key regulator of the differentiation of the spinal cord neuronal circuit dedicated to the processing of nociceptive information. Here, we report the characterization of a Prrxl1 alternative splice variant that we termed Prrxl1-b. ⋯ We suggest that the tissue-specific role of the Prrxl1 gene may be sustained by an accurate balance in the ratio between the amount of Prrxl1 and its OAR-lacking variant, Prrxl1-b, which may be critical during nociceptive circuit development.
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Stuart A. Newman grew up in New York City. He received a Bachelor of Arts from Columbia University and obtained a Ph. ⋯ Extending earlier ideas, he developed a comprehensive framework for the role of physical mechanisms (diffusion, differential adhesion, oscillation, dynamical multistability, reaction diffusion, mechano-chemical coupling, etc.) in morphogenesis. He also applied these mechanisms to understand the origin of multicellularity and evolution of novel body plans. Here Newman reflects on his intellectual growth, and shares with us his ideas on how pattern formation works, and how generic physical mechanisms interact with genetic mechanisms to achieve the evolution and development of animal forms.