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Marble Details - Replicate
Marble Details - Replicate
Replicate: Figure 2
Replicate: Figure 2
Date of publication:
10 Mar 2025
DOI:
DOI:
MR412V2
Status:
Published
100%
Confidence
Authors:
Authors:
Amanda Norman*,¹; Sheungo Park*,¹; Liam O'Connor¹,²; Leida Haddadi¹,#
Authors
Authors
Linked article information
Linked article information
Authors Affiliation
Authors Affiliation
This Marble replicates findings from the study, "Role of Protein Y in Oxidative Stress Response," published in 2021. The original article demonstrated that Protein Y knockdown significantly reduces cellular viability in mouse embryonic fibroblasts (MEFs) exposed to oxidative stress. Using identical methods and reagents, we replicated Figure 2 from the original study, which assessed cell viability. Our results confirm the original findings, showing that Protein Y knockdown reduces cell viability by 35% (original: 33%). The results were consistent across three independent biological replicates. By validating the findings, this study strengthens the reproducibility of Protein Y's role in oxidative stress response and highlights the robustness of the experimental approach.
Are you testing a hypothesis that does not appear in the article?
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Is the result different from the described in the article?
Abstract
This Marble replicates findings from the study, "Role of Protein Y in Oxidative Stress Response," published in 2021. The original article demonstrated that Protein Y knockdown significantly reduces cellular viability in mouse embryonic fibroblasts (MEFs) exposed to oxidative stress. Using identical methods and reagents, we replicated Figure 2 from the original study, which assessed cell viability. Our results confirm the original findings, showing that Protein Y knockdown reduces cell viability by 35% (original: 33%). The results were consistent across three independent biological replicates. By validating the findings, this study strengthens the reproducibility of Protein Y's role in oxidative stress response and highlights the robustness of the experimental approach.
Are you testing a hypothesis that does not appear in the article?
Are methods the same?
Are materials the same?
Is the result different from the described in the article?
Abstract
This Marble replicates findings from the study, "Role of Protein Y in Oxidative Stress Response," published in 2021. The original article demonstrated that Protein Y knockdown significantly reduces cellular viability in mouse embryonic fibroblasts (MEFs) exposed to oxidative stress. Using identical methods and reagents, we replicated Figure 2 from the original study, which assessed cell viability. Our results confirm the original findings, showing that Protein Y knockdown reduces cell viability by 35% (original: 33%). The results were consistent across three independent biological replicates. By validating the findings, this study strengthens the reproducibility of Protein Y's role in oxidative stress response and highlights the robustness of the experimental approach.
Are you testing a hypothesis that does not appear in the article?
Are methods the same?
Are materials the same?
Is the result different from the described in the article?
Linked article information
Title
Protein Y Regulates Oxidative Stress and Mitochondrial Function in Mouse Embryonic Fibroblasts
Protein Y Regulates Oxidative Stress and Mitochondrial Function in Mouse Embryonic Fibroblasts
Authors
Morgan Bill, Silver Harrison, Ana Pérez
Morgan Bill, Silver Harrison, Ana Pérez
DOI
doi.org/10.56789/journal12345
doi.org/10.56789/journal12345
Related figures
Figure(s) 2
Figure(s) 2
Copyright Research Agora Collective SL, 2025
Copyright Research Agora Collective SL, 2025