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Mol. Cells 2013; 35(2): 173-173

Published online February 21, 2013

https://doi.org/10.1007/s10059-013-3067-1

© The Korean Society for Molecular and Cellular Biology

Retraction Note: A Hot Pepper cDNA Encoding a Pathogenesis-Related Protein 4 Is Induced during the Resistance Response to Tobacco Mosaic Virus

Chang-Jin Park, Ryoung Shin, Jeong Mee Park, Gil-je Lee, Tae Hyoung Yoo, and Kyung-Hee Paek

Graduate School of Biotechnology, Korea University, Seoul 136-701, Korea

Abstract

Retraction Note: Mol. Cells 11 (2001) 122-127
Members of the editorial board have unanimously agreed to retract the article [Mol. Cells 11 (2001) 122-127] for po-tential misconducts mainly concerning manipulation and repeated uses of photomicrographs of control data internally along with mislabeling and/or externally in multiple publications. As specified in the “Instructions to Authors”, Molecules and Cells (Mol. Cells) explicitly prohibits mis-representation or falsification of experimental data including duplication of previously published data. In the article, lanes 1-6 and lanes 9-11 of rRNA gel in Fig. 3A are identical to lanes 1-6 and lanes 7-9 in Fig. 3C, respectively; two EtBr gels of rRNA in Fig. 4A are identical, and lanes 1-6 and lanes 10-15 in the EtBr gel of rRNA in Fig. 4B are mirror images of each other.

Article

Retraction

Mol. Cells 2013; 35(2): 173-173

Published online February 28, 2013 https://doi.org/10.1007/s10059-013-3067-1

Copyright © The Korean Society for Molecular and Cellular Biology.

Retraction Note: A Hot Pepper cDNA Encoding a Pathogenesis-Related Protein 4 Is Induced during the Resistance Response to Tobacco Mosaic Virus

Chang-Jin Park, Ryoung Shin, Jeong Mee Park, Gil-je Lee, Tae Hyoung Yoo, and Kyung-Hee Paek

Graduate School of Biotechnology, Korea University, Seoul 136-701, Korea

Abstract

Retraction Note: Mol. Cells 11 (2001) 122-127
Members of the editorial board have unanimously agreed to retract the article [Mol. Cells 11 (2001) 122-127] for po-tential misconducts mainly concerning manipulation and repeated uses of photomicrographs of control data internally along with mislabeling and/or externally in multiple publications. As specified in the “Instructions to Authors”, Molecules and Cells (Mol. Cells) explicitly prohibits mis-representation or falsification of experimental data including duplication of previously published data. In the article, lanes 1-6 and lanes 9-11 of rRNA gel in Fig. 3A are identical to lanes 1-6 and lanes 7-9 in Fig. 3C, respectively; two EtBr gels of rRNA in Fig. 4A are identical, and lanes 1-6 and lanes 10-15 in the EtBr gel of rRNA in Fig. 4B are mirror images of each other.

Mol. Cells
Feb 28, 2023 Vol.46 No.2, pp. 69~129
COVER PICTURE
The bulk tissue is a heterogeneous mixture of various cell types, which is depicted as a skein of intertwined threads with diverse colors each of which represents a unique cell type. Single-cell omics analysis untangles efficiently the skein according to the color by providing information of molecules at individual cells and interpretation of such information based on different cell types. The molecules that can be profiled at the individual cell by single-cell omics analysis includes DNA (bottom middle), RNA (bottom right), and protein (bottom left). This special issue reviews single-cell technologies and computational methods that have been developed for the single-cell omics analysis and how they have been applied to improve our understanding of the underlying mechanisms of biological and pathological phenomena at the single-cell level.

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