AI Article Synopsis
- Synthetic chemical fluorescent dyes offer promising applications in biology for studying specific proteins and cellular processes through targeted labeling techniques like SNAP-tag.
- Of 31 tested synthetic dyes, 23 were successfully absorbed by BY-2 plant cells, indicating their potential in measuring endocytosis.
- Effective labeling of proteins, such as α-tubulin and PIN-FORMED2, was demonstrated using selected dyes, enabling detailed observation of cellular dynamics in Arabidopsis seedlings.
Article Abstract
Synthetic chemical fluorescent dyes promise to be useful for many applications in biology. Covalent, targeted labeling, such as with a SNAP-tag, uses synthetic dyes to label specific proteins in vivo for studying processes such as endocytosis or for imaging via super-resolution microscopy. Despite its potential, such chemical tagging has not been used effectively in plants. A major drawback has been the limited knowledge regarding cell wall and membrane permeability of the available synthetic dyes. Of 31 synthetic dyes tested here, 23 were taken up into BY-2 cells, while eight were not. This creates sets of dyes that can serve to measure endocytosis. Three of the dyes that were able to enter the cells, SNAP-tag ligands of diethylaminocoumarin, tetramethylrhodamine, and silicon-rhodamine 647, were used to SNAP-tag α-tubulin. Successful tagging was verified by live cell imaging and visualization of microtubule arrays in interphase and during mitosis in Arabidopsis () seedlings. Fluorescence activation-coupled protein labeling with DRBG-488 was used to observe PIN-FORMED2 (PIN2) endocytosis and delivery to the vacuole as well as preferential delivery of newly synthesized PIN2 to the actively forming cell plate during mitosis. Together, the data demonstrate that specific self-labeling of proteins can be used effectively in plants to study a wide variety of cellular and biological processes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7534461 | PMC |
| http://dx.doi.org/10.1105/tpc.20.00439 | DOI Listing |
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