Paleobiology Content / Paleobiology Content for 51ԹϺ Davis en No Evidence of a Common Set of Regeneration Genes /blog/no-evidence-common-set-regeneration-genes <p>Some animals, especially those that have been around for a long time in evolutionary terms, possess extraordinary abilities to regenerate lost limbs or organs. These animals, such as flatworms, salamanders and zebrafish, are not at all closely related, suggesting that the ability to regenerate goes far back in evolutionary time. Is it possible to find a common set of genes for regeneration, that could unlock a new understanding of this process?&nbsp;</p> August 19, 2024 - 2:57pm Andy Fell /blog/no-evidence-common-set-regeneration-genes Modern Plants Show More Insect Damage Than Fossilized Plants /blog/modern-plants-show-more-insect-damage-fossilized-plants <p>Despite widespread insect declines, plants are experiencing “unprecedented levels of insect damage” in comparison to their fossilized counterparts, according to new research by a trio of scientists including 51ԹϺ Davis entomologist&nbsp;<a href="https://entomology.ucdavis.edu/people/emily-meineke">Emily Meineke</a>.&nbsp;</p> October 14, 2022 - 4:26pm Andy Fell /blog/modern-plants-show-more-insect-damage-fossilized-plants Discovering Sirtuin Longevity Proteins in Early Branches of Animal Life /curiosity/news/discovering-sirtuin-longevity-proteins-early-branches-animal-life <p><span><span><span><span><span><span><span><span>Animals on the early branches of the tree of life, such as jellyfish and sea sponges, defy the usual conventions of aging.</span></span></span></span></span></span></span></span></p> September 22, 2022 - 11:45am Andy Fell /curiosity/news/discovering-sirtuin-longevity-proteins-early-branches-animal-life First Jellyfish Genome Reveals Ancient Beginnings of Complex Body Plan /curiosity/news/first-jellyfish-genome-reveals-ancient-beginnings-complex-body-plan-0 <p>Jellyfish undergo an amazing metamorphosis, from tiny polyps growing on the seafloor to swimming medusae with stinging tentacles. This shape-shifting has served them well, shepherding jellyfish through more than 500 million years of mass extinctions on Earth.</p> <p>“Whatever they’re doing has really worked for them,” said&nbsp;<a href="https://geology.ucdavis.edu/people/faculty/gold">David Gold</a>, an assistant professor of paleobiology in the&nbsp;University of California,&nbsp;Davis,&nbsp;<a href="https://lettersandscience.ucdavis.edu/">College of Letters and Science</a>.</p> December 03, 2018 - 11:31am Andy Fell /curiosity/news/first-jellyfish-genome-reveals-ancient-beginnings-complex-body-plan-0