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developmental and stem cell biologists
Posted by the Node Interviews, on 28 May 2019
This interview, the 63rd in our series, was recently published in Development Butterfly eyespots are striking examples of animal patterning, but their developmental origins are still relatively poorly understood. A new paper in ...Posted by the Node Interviews, on 23 May 2019
This interview, the 62nd in our series, was recently published in Development Vascular development critically involves pruning, which helps to remodel an immature network containing excess microvessels into a mature and functioning ...Posted by the Node Interviews, on 9 May 2019
This interview, the 61st in our series, was recently published in Development A fundamental aim in developmental biology is to understand how the various cell types of the body are specified by ...Posted by the Node Interviews, on 18 April 2019
This interview, the 60th in our series, was recently published in Development In development and during regeneration in adults, muscle fibres develop from muscle progenitor cells, and the proliferation, differentiation and fusion ...Posted by the Node Interviews, on 13 March 2019
This interview, the 59th in our series, was recently published in Development The control of timing in development is crucial, both within and between tissues. Heterochrony involves shifts in the rate of ...Posted by the Node Interviews, on 28 February 2019
This interview, the 58th in our series, was recently published in Development While many vertebrates have multiple sets of teeth over their lifetime, some, like humans, have just a single set ...Posted by the Node Interviews, on 8 February 2019
This interview, the 57th in our series, was recently published in Development The molecular regulation of pluripotency has been most intensively studied in early mammalian development, but whether the transcriptional networks ...Posted by the Node Interviews, on 19 January 2019
This interview, the 56th in our series, was recently published in Development Radial growth in plants is driven by proliferating cells in the cambium that give rise to the vascular tissues ...Posted by the Node Interviews, on 18 January 2019
This interview, the 55th in our series, was published in Development last year Sperm development and differentiation are regulated by somatic cells and the extracellular signals they produce – often regulators of ...Posted by the Node Interviews, on 17 January 2019
This interview, the 54th in our series, was published in Development last year In contrast to nerves in the central nervous system, peripheral nerves are highly regenerative following injury. Regeneration is critically ...