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Literature DB >> 31262400

Correction: Motion sensing superpixels (MOSES) is a systematic computational framework to quantify and discover cellular motion phenotypes.

Felix Yuran Zhou, Carlos Ruiz-Puig, Richard P Owen, Michael J White, Jens Rittscher, Xin Lu.

Abstract

Entities: Chemical Disease Gene

Keywords: computational biology; developmental biology; systems biology

Year: 2019 PMID： 31262400 PMCID： PMC6606019 DOI： 10.7554/eLife.49823

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.140

Matson JP, Dumitru R, Zhou FY, Ruiz-Puig C, Owen RP, White MJ, Rittscher J, Lu X. 2019. Motion sensing superpixels (MOSES) is a systematic computational framework to quantify and discover cellular motion phenotypes. eLife 8:e40162. doi: 10.7554/eLife.40162. Published 26, February 2019 During final figure preparation the similar velocity kymographs for 0% serum EPC2:CP-A and EPC2:OE33 in Figure 3A were switched. This mistake was noticed by the authors when rereading the published version. Also in Figure 3A, the red and green font colours used for the cell line names were accidentally switched; these colours should match those in Figure 1 as the same example videos were used for both figures. Figure 3A has been corrected accordingly. These corrections do not affect any of the scientific findings or conclusions of the original paper. The corrected Figure 3 is shown here: The original Figure 3 is shown here for reference:

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1. DeepScratch: Single-cell based topological metrics of scratch wound assays.

Authors: Avelino Javer; Jens Rittscher; Heba Z Sailem
Journal: Comput Struct Biotechnol J Date: 2020-08-29 Impact factor: 7.271

1 in total