Publications by authors named "T W Robison"
Pyrenoid-based CO-concentrating mechanisms (pCCMs) turbocharge photosynthesis by saturating CO around Rubisco. Hornworts are the only land plants with a pCCM. Owing to their closer relationship to crops, hornworts could offer greater translational potential than the green alga Chlamydomonas, the traditional model for studying pCCMs.
View Article and Find Full Text PDFBackground: Skin atrophy and fragility associated with Dermatoporosis result from chronic extracellular matrix (ECM) degradation. A current marketed product, ReFORM & RePAIR COMPLEX with TriHex Technology® (R&R, Alastin Skincare, Inc.), contains actives that aid in recycling the ECM with new matrix components that have been found to be deficient in patients with DP.
View Article and Find Full Text PDFPrevious studies have shown that at least six genera of the Cheilanthoideae, a subfamily of the fern family Pteridaceae, may not be monophyletic. In these non-monophyletic genera, the Old-World genus Paragymnopteris including approximately five species have long been controversial. In this study, with an extensive taxon sampling of Paragymnopteris, we assembled 19 complete plastomes of all recognized Paragymnopteris species, plastomes of Pellaea (3 species) and Argyrochosma (1 species), as well as transcriptomes from Paragymnopteris (6 species) and Argyrochosma (1 species).
View Article and Find Full Text PDFHornworts are the only land plants that employ a pyrenoid to optimize Rubisco's CO fixation, yet hornwort Rubisco remains poorly characterized. Here we assembled the hornwort Anthoceros agrestis Rubisco (AaRubisco) using the Arabidopsis thaliana SynBio expression system and observed the formation of stalled intermediates, prompting us to develop a new SynBio system with A. agrestis cognate chaperones.
View Article and Find Full Text PDFArticle Synopsis
- The study investigates how haustorial parasitism affects the plastid genome, particularly within the Santalales order, by comparing non-parasitic and hemiparasitic plant families to understand the transition to a parasitic lifestyle.
- Researchers sequenced and analyzed new samples' plastomes and nuclear ribosomal genes to explore phylogenetic relationships and evolution patterns in plastid genes.
- Findings revealed significant genetic changes, including a complete loss of certain plastid genes in confirmed parasites, suggesting a link between plastome evolution and the shift toward parasitism.