Author Correction: GSNOR Drives Age-Related Obesity via Beclin-1 De-nitrosation
Nature Communications published an author correction on May 11, 2026, for the original research article titled 'S-nitrosoglutathione reductase GSNOR drives age-related obesity by promoting adipose tissue whitening through de-nitrosation of Beclin-1,' which was initially released on February 23, 2026. The correction addresses a specific typographical error identified in Figure 7b of the study. In the original publication, the label for a mutant protein was incorrectly displayed as 'Beclin-1C3561A.' The corrected version now accurately labels this entity as 'Beclin-1C351A.' This amendment has been applied to both the HTML and PDF versions of the article to ensure scientific accuracy. The underlying research investigates the metabolic mechanisms linking aging to obesity, specifically focusing on how GSNOR influences adipose tissue characteristics. The study involves researchers from the Chinese Academy of Sciences and Zhengzhou University. This notice serves solely to rectify the labeling error in the figure, ensuring that readers and subsequent researchers reference the correct molecular variant in their understanding of the de-nitrosation process described in the paper.
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Author Correction: GSNOR Drives Age-Related Obesity via Beclin-1 De-nitrosation
Nature Communications published an author correction on May 11, 2026, for the original research article titled 'S-nitrosoglutathione reductase GSNOR drives age-related obesity by promoting adipose tissue whitening through de-nitrosation of Beclin-1,' which was initially released on February 23, 2026. The correction addresses a specific typographical error identified in Figure 7b of the study. In the original publication, the label for a mutant protein was incorrectly displayed as 'Beclin-1C3561A.' The corrected version now accurately labels this entity as 'Beclin-1C351A.' This amendment has been applied to both the HTML and PDF versions of the article to ensure scientific accuracy. The underlying research investigates the metabolic mechanisms linking aging to obesity, specifically focusing on how GSNOR influences adipose tissue characteristics. The study involves researchers from the Chinese Academy of Sciences and Zhengzhou University. This notice serves solely to rectify the labeling error in the figure, ensuring that readers and subsequent researchers reference the correct molecular variant in their understanding of the de-nitrosation process described in the paper.
Nature Communications