Exciting news! Another breakthrough application of BMKMANU Spatial Transcriptomics Technology in the plant domain! Our client’s pioneering study, published in Nature Communications on November 6th, titled “Tracing the evolutionary and genetic footprints of atmospheric tillandsioids transition from land to air,” marks a pivotal advancement.
Employing a multi-omics approach, the research delved into the origin, evolution timeline, and driving forces behind the atmospheric tillandsioids’ adaptation to aerial environments. It unveiled the genetic basis of unique adaptive organ characteristics and survival strategies for nutrient acquisition in the air. Spatial transcriptomic analysis revealed rapid expression of genes related to secondary cell wall synthesis in root sheath and cortex tissues, laying the molecular groundwork for rapid lignification and mechanical anchoring during root growth.
BMKGENE’s S1000 spatial transcriptomics chip, known for its subcellular resolution, three-in-one design, and plant-specific cell segmentation analysis method, continues to advance research across a growing range of species. The technology has now been upgraded to the S3000 model, offering higher resolution to support more researchers.
If you would like to learn more about this study, access this link. For more information on our sequencing and bioinformatics services, you can talk to us here.
Post time: Dec-10-2024