diff --git a/src/content/news/2024-12-12-arc-publication.md b/src/content/news/2024-12-12-arc-publication.md new file mode 100644 index 00000000..4cf3e071 --- /dev/null +++ b/src/content/news/2024-12-12-arc-publication.md @@ -0,0 +1,31 @@ +--- +date: 2024-12-12 +title: ARC Data Publications Gaining Traction +description: "One of the main objectives of DataPLANT is to foster a cultural shift toward data publications." +--- +One of the main objectives of DataPLANT is to foster a cultural shift toward data publications. +The Annotated Research Contexts (ARCs) serve as containers for experimental data, computational +analyses, and their annotations. It is a conceptual framework adhering to the RO-Crate specification. +For fundamental plant researchers, data publications are becoming a positive indicator of career +success. DataPLANT, in collaboration with the plant science research community, is dedicated to +embedding this practice as a core element of the digital transformation in science. + +Recently, the Fernie Lab at the Max Planck Institute of Molecular Plant Physiology (MPIMP) in P +otsdam, a member of DataPLANT, published an ARC focusing on the characterization of a variegated +tomato mutant named canalized-1. This research employed a multi-omics approach, incorporating +transcriptomics, proteomics, and metabolomics. The canalized-1 mutant, previously described as a +yield canalization mutant, has been linked to the AtSCO2 (SNOWY COTYLEDONS2) ortholog, a gene +identified as a photosystem assembly factor in Arabidopsis thaliana. + +The multi-omics analysis revealed distinct responses in white and green leaf sectors at various +omics levels. Findings suggested that green leaf sectors establish functional photosystems despite +the impaired protein encoded by the mutated gene. This compensation occurs via transcriptional +overexpression of photosystem assembly genes. These results further validate the role of the +mutated protein as a photosystem assembly factor. Additionally, the observed yield decanalization +likely stems from variations in total photosynthetically active leaf area between plants. + +The study highlights the potential of ARCs to advance plant science research. The original data +publisher, formerly a DataPLANT data steward, now serves as a senior research officer (postdoc) +in Christine Raines' group and contributes to the RIPE consortium. This group is working to enhance +the [regeneration of ribulose bisphosphate (RuBP)](https://ripe.illinois.edu/objectives/rubp-regeneration) +and thereby improve photosynthetic efficiency.