Figure A6: Trichome cluster phenotype of the Arabidopsis elch mutant.
Download scientific diagram | Figure A6: Trichome cluster phenotype of the Arabidopsis elch mutant. (A) Rosette with third and fourth leaf covered with trichomes (picture A is a courtesy of Katja Wester). The arrow marks the position of the shoot apical meristem from where new leafs develop. This area is densely covered with trichomes. (B) A single wild type trichome. (C) Trichome cluster of the elch mutant. Two stem like structures emerging from the base of the cell give the cluster a moose or elk like appearance. (D) Leaf section with the epidermal cell types used in this study (trichomes, pavement cells and stomata). (E) Typical pavement cells displaying their lobed shaped outline. (F) Section of a leaf with three stomata. These cells mediate gas exchange between atmosphere and the inner tissues of the leaf. (A) Picture was taken with a stereo microscope. (B-C) Leafs were DAPI-stained, whole mounted and observed by epi-fluorescence microscopy. from publication: The Arabidopsis elch mutant reveals functions of an ESCRT component in cytokinesis | Recently, an alternative route to the proteasomal protein-degradation pathway was discovered that specifically targets transmembrane proteins marked with a single ubiquitin to the endosomal multivesicular body (MVB) and, subsequently, to the vacuole (yeast) or lysosome | Cytokinesis, Arabidopsis and Arabidopsis Proteins | ResearchGate, the professional network for scientists.
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