<HashMap><database>bioimages</database><scores/><additional><omics_type>Unknown</omics_type><submitter>Sungsu Kim</submitter><journal>The Journal of Cell Biology</journal><full_dataset_link>https://www.ebi.ac.uk/biostudies/studies/S-JCBD-200911126</full_dataset_link><attach_to>JCB</attach_to><legend>Transmission electron micrograph of ema mutant garland cell</legend><legend>Single confocal section of garland cells expressing Ema::GFP (Green), stained for Hrs (Red)</legend><legend>ema mutant ventral nerve cord stained for Hrs (green) and DVGLUT (red)</legend><legend>wild type ventral nerve cord stained for Hrs (green) and DVGLUT (red)</legend><legend>Electron micrograph of ema mutant garland cell, pulsed with the fluid-phase endocytic tracer HRP for 5 min and chased for additional 10 min.</legend><legend>Single confocal section of garland cells expressing Ema::GFP (Green), stained for Rab5 (Red) and plasma membrane and nuclei (Blue)</legend><legend>EM of ema mutant garland cell (inset in 2B)</legend><legend>EM of wild type garland cell (inset in 2B)</legend><legend>Single confocal section of garland cells expressing Ema::GFP (Green), stained for Spinster (Red) and plasma membrane and nuclei (Blue)</legend><legend>Transmission electron micrograph of wild type garland cell</legend><legend>Single confocal section of garland cells expressing Ema::GFP (Green). Endosomes are labeled by Avidin-Cy3 (Red)</legend><legend>Electron micrograph of wild type garland cell, pulsed with the fluid-phase endocytic tracer HRP for 5 min and chased for additional 10 min.</legend><repository>bioimages</repository><figure_sub>Figure 3 - D</figure_sub><figure_sub>Image 9928 (Figure 3 - D)</figure_sub><figure_sub>Image 9921 (Figure 2 - A)</figure_sub><figure_sub>Image 9919 (Figure 4 - C)</figure_sub><figure_sub>Image 9915 (Figure 2 - C)</figure_sub><figure_sub>Image 9925 (Figure 3 - A)</figure_sub><figure_sub>Image 9927 (Figure 3 - C)</figure_sub><figure_sub>Image 9917 (Figure 2 - C)</figure_sub><figure_sub>Figure 3 - A</figure_sub><figure_sub>Figure 3 - B</figure_sub><figure_sub>Figure 3 - C</figure_sub><figure_sub>Image 9920 (Figure 2 - A)</figure_sub><figure_sub>Figure 4</figure_sub><figure_sub>Image 9918 (Figure 4 - C)</figure_sub><figure_sub>Image 9926 (Figure 3 - B)</figure_sub><figure_sub>Image 9916 (Figure 2 - B)</figure_sub><figure_sub>Image 9914 (Figure 2 - B)</figure_sub><figure_sub>Figure 2 - C</figure_sub><figure_sub>Figure 2 - A</figure_sub><figure_sub>Figure 3</figure_sub><figure_sub>Figure 4 - C</figure_sub><figure_sub>Figure 2</figure_sub><figure_sub>Figure 2 - B</figure_sub><pubmed_authors>Aaron DiAntonio</pubmed_authors><pubmed_authors>Yogesh P. Wairkar</pubmed_authors><pubmed_authors>Richard W. Daniels</pubmed_authors><pubmed_authors>Sungsu Kim</pubmed_authors></additional><is_claimable>false</is_claimable><name>The novel endosomal membrane protein Ema interacts with the class C Vps–HOPS complex to promote endosomal maturation</name><description/><dates><release>2010-03-01T11:19:07Z</release><modification>2018-11-29T11:19:07Z</modification><creation>2018-11-29T11:19:07Z</creation></dates><accession>S-JCBD-200911126</accession><cross_references><doi>10.1083/jcb.200911126</doi></cross_references></HashMap>