189 17 1113 2 4456 document 1113 Pinnigorgia_TZ_proteomic_run.zip application/zip c4707102fbf1e5428d4bd02f1efc6ae4 MD5 4866734800 2020-05-08 07:37:11 https://data.ub.uni-muenchen.de/189/1/Pinnigorgia_TZ_proteomic_run.zip 189 1 1 application/zip other Proteomic RAW files for Vargas et al. Resilience to climate change in an octocoral involves the transcriptional decoupling of the calcification and stress response toolkits en public

Pinnigorgia_TZ_proteomic_run.zip

archive 41 Pinnigorgia flava sclerites disk0/00/00/01/89 2020-05-19 09:36:44 2021-02-08 16:28:39 2020-05-19 09:36:44 data show Up to one-third of all described marine species occur in coral reefs, but the future of these hyperdiverse ecosystems is insecure due to local and global threads, such as overfishing, eutrophication, ocean warming and acidification. Although these impacts are expected to have a net detrimental effect on reefs, some organisms, like soft corals, may remain unaffected or benefit from anthropogenically induced environmental change, replacing stony corals in future reefs. Here, we show that the response to simulated climate change of the skeletogenic and stress-response toolkits of a common Indo-Pacific gorgonian is decoupled. This transcriptional decoupling provides a mechanistic explanation for the resilience to anthropogenically-driven environmental change observed in soft corals. eng Vargas Sergio Zimmer Thorsten Conci Nicola Lehmann Martin Wörheide Gert 2020-05-08 500 570 590 10.5282/ubm/data.189 https://doi.org/10.5282/ubm/data.189 public Octocorals Proteomics Climate change Resilience en cc-by Vargas Sergio Wörheide Gert fak20