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anti prdx2  (Proteintech)


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    Proteintech anti prdx2
    Anti Prdx2, supplied by Proteintech, used in various techniques. Bioz Stars score: 93/100, based on 45 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/anti prdx2/product/Proteintech
    Average 93 stars, based on 45 article reviews
    anti prdx2 - by Bioz Stars, 2026-05
    93/100 stars

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    Study design and overview Experimental design for time course metabolomic profiling of male C57Bl6 wild-type and Prdx2− mice in vivo labeling, Biotin+ and Biotin−bead separation. Blood draws were performed at three different time points (8, 15, and 20 days) for each cohort with targeted metabolomic profiling. The subsequent analyses enable assessment of biochemical aging in vivo and the consequences of loss of Prdx2.

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: Study design and overview Experimental design for time course metabolomic profiling of male C57Bl6 wild-type and Prdx2− mice in vivo labeling, Biotin+ and Biotin−bead separation. Blood draws were performed at three different time points (8, 15, and 20 days) for each cohort with targeted metabolomic profiling. The subsequent analyses enable assessment of biochemical aging in vivo and the consequences of loss of Prdx2.

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques: Metabolomic, In Vivo, Labeling

    Unsupervised analysis of intracellular metabolomic profiles Clustering of plasma metabolomics profiles for the entire set of cohorts. (A) Clustering of WT and Prdx2 KO profiles at days 8, 15, or 20. (B) Clustering of the PRdx2 KO/WT ratios at the different time points.

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: Unsupervised analysis of intracellular metabolomic profiles Clustering of plasma metabolomics profiles for the entire set of cohorts. (A) Clustering of WT and Prdx2 KO profiles at days 8, 15, or 20. (B) Clustering of the PRdx2 KO/WT ratios at the different time points.

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques: Metabolomic, Clinical Proteomics

    Volcano plot comparisons between various pairwise experimental groups (A) Comparison of 3- versus 1-week-old RBCs showing similar trends for the WT and Prdx2 KO, particularly with increased ophthalmate and NaMN fold changes and decreased acyl-carnitines, alpha-ketoglutarate, and serotonin. There are notable metabolite differences in the Prdx2 KO mice RBCs that are also noted in other pairwise comparisons (e.g., uridine, inosine, tyrosine, and isoleucine). (B) Comparison of the youngest RBC cell population (day 8, Biotin−) versus the oldest, most heterogeneous RBC population (day 20, Biotin+). Very similar, concordant changes among metabolites are noted for the WT and Prdx2 KO alike. (C) Comparison of Prdx2 KO versus WT RBCs at 8, 15, and 20 days, respectively. These volcano plots highlight some of the genotypic differences in the in vivo aging study. Notable differences include increased intracellular fold changes in arginine, valine, and uridine. Although ophthalmate changes in Prdx2 KO and WT (A and B), quantitative response in the Prdx2 KO is different than the WT.

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: Volcano plot comparisons between various pairwise experimental groups (A) Comparison of 3- versus 1-week-old RBCs showing similar trends for the WT and Prdx2 KO, particularly with increased ophthalmate and NaMN fold changes and decreased acyl-carnitines, alpha-ketoglutarate, and serotonin. There are notable metabolite differences in the Prdx2 KO mice RBCs that are also noted in other pairwise comparisons (e.g., uridine, inosine, tyrosine, and isoleucine). (B) Comparison of the youngest RBC cell population (day 8, Biotin−) versus the oldest, most heterogeneous RBC population (day 20, Biotin+). Very similar, concordant changes among metabolites are noted for the WT and Prdx2 KO alike. (C) Comparison of Prdx2 KO versus WT RBCs at 8, 15, and 20 days, respectively. These volcano plots highlight some of the genotypic differences in the in vivo aging study. Notable differences include increased intracellular fold changes in arginine, valine, and uridine. Although ophthalmate changes in Prdx2 KO and WT (A and B), quantitative response in the Prdx2 KO is different than the WT.

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques: Comparison, In Vivo

    Highlights of metabolite alterations in glycolysis Glycolysis and closely associated sugar metabolite sub-network with select bar charts of significantly altered metabolites for Old (day 20/Biotin+) and Young (day 8/Biotin−) for WT and Prdx2 KO mice. Asterisks and associated bars demarcate significant differences (ANOVA, p < 0.05).

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: Highlights of metabolite alterations in glycolysis Glycolysis and closely associated sugar metabolite sub-network with select bar charts of significantly altered metabolites for Old (day 20/Biotin+) and Young (day 8/Biotin−) for WT and Prdx2 KO mice. Asterisks and associated bars demarcate significant differences (ANOVA, p < 0.05).

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques:

    Glutathione metabolism sub-network The glutathione sub-network with bar charts of select metabolites for Old (day 20/Biotin+) and Young (Day 8/Biotin−) for WT and Prdx2 KO mice. Asterisks and associated bars demarcate significant differences (ANOVA, p < 0.05).

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: Glutathione metabolism sub-network The glutathione sub-network with bar charts of select metabolites for Old (day 20/Biotin+) and Young (Day 8/Biotin−) for WT and Prdx2 KO mice. Asterisks and associated bars demarcate significant differences (ANOVA, p < 0.05).

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques:

    NAD metabolism sub-network Outline of key steps in NAD metabolism with bar charts of select metabolites for Old (day 20/Biotin+) and Young (day 8/Biotin−) for WT and Prdx2 KO mice. Asterisks and associated bars demarcate significant differences (ANOVA, p < 0.05).

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: NAD metabolism sub-network Outline of key steps in NAD metabolism with bar charts of select metabolites for Old (day 20/Biotin+) and Young (day 8/Biotin−) for WT and Prdx2 KO mice. Asterisks and associated bars demarcate significant differences (ANOVA, p < 0.05).

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques:

    Highlights of metabolite alterations in fatty acid and glycerolipid metabolism Outline of the key steps in lipid metabolism with bar charts of select metabolites for Older (day 20/Biotin+) and Younger (day 8/Biotin−) RBC from WT and Prdx2 KO mice. There is more variability and noise in the lipid profiles. A notable exception is GPC, which exhibits among the largest and most significant alterations (consistent with prior work). Choline and carnitine are also notably altered. Asterisks and associated bars demarcate significant differences (ANOVA, p < 0.05).

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: Highlights of metabolite alterations in fatty acid and glycerolipid metabolism Outline of the key steps in lipid metabolism with bar charts of select metabolites for Older (day 20/Biotin+) and Younger (day 8/Biotin−) RBC from WT and Prdx2 KO mice. There is more variability and noise in the lipid profiles. A notable exception is GPC, which exhibits among the largest and most significant alterations (consistent with prior work). Choline and carnitine are also notably altered. Asterisks and associated bars demarcate significant differences (ANOVA, p < 0.05).

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques:

    Metabolomic alterations over time across all groups Four different, general time course trajectories (MI, MD, VI, and XI) have been observed over the entire metabolome, with either monotonic changes or concave versus trajectories with peaks versus nadirs, respectively, occurring at approximately 2 weeks of RBC age. Selected metabolites from different metabolic pathways encapsulating the various patterns of metabolite concentration shifts that occur over time in WT and Prdx2 KO RBC. Red dotted box: glutathione-related metabolites. Blue dotted box: glycolytic metabolites. The dark red and blue lines correspond to Biotin− RBC. The light red and blue lines correspond to Biotin+ RBC. Significant associations (ANOVA, p < 0.05) for same age comparisons (days 8, 15, and 20), respectively, are denoted by ∗ for WT Biotin+ vs. WT Biotin−, ‡ for Prdx2 KO Biotin+ vs. Prdx2 KO Biotin−, • for WT Biotin+ vs. Prdx2 KO Biotin−, and ∧ for WT Biotin− vs. Prdx2 KO Biotin−.

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: Metabolomic alterations over time across all groups Four different, general time course trajectories (MI, MD, VI, and XI) have been observed over the entire metabolome, with either monotonic changes or concave versus trajectories with peaks versus nadirs, respectively, occurring at approximately 2 weeks of RBC age. Selected metabolites from different metabolic pathways encapsulating the various patterns of metabolite concentration shifts that occur over time in WT and Prdx2 KO RBC. Red dotted box: glutathione-related metabolites. Blue dotted box: glycolytic metabolites. The dark red and blue lines correspond to Biotin− RBC. The light red and blue lines correspond to Biotin+ RBC. Significant associations (ANOVA, p < 0.05) for same age comparisons (days 8, 15, and 20), respectively, are denoted by ∗ for WT Biotin+ vs. WT Biotin−, ‡ for Prdx2 KO Biotin+ vs. Prdx2 KO Biotin−, • for WT Biotin+ vs. Prdx2 KO Biotin−, and ∧ for WT Biotin− vs. Prdx2 KO Biotin−.

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques: Metabolomic, Concentration Assay

    Unsupervised analysis of mass action ratios (MARs) Linear discriminant analysis of the MAR in the RBC networks differentiates between the WT and Prdx2 KO as well as the homogeneous (Biotin−) and heterogeneous (Biotin+) aged RBCs.

    Journal: iScience

    Article Title: The loss of peroxiredoxin 2 in mice disrupts the biochemical aging phenotype in erythrocytes

    doi: 10.1016/j.isci.2025.114608

    Figure Lengend Snippet: Unsupervised analysis of mass action ratios (MARs) Linear discriminant analysis of the MAR in the RBC networks differentiates between the WT and Prdx2 KO as well as the homogeneous (Biotin−) and heterogeneous (Biotin+) aged RBCs.

    Article Snippet: All animal experiments were performed with C57BL/6J or Prdx2 knockout male mice from The Jackson Laboratory (Bar Harbor, ME).

    Techniques:

    Immunohistochemistry detected the protein expression of Peroxiredoxin1 (Prdx1) and Prdx2 in brain tissues. (A) Prdx1 immunohistochemistry staining and expression levels in brain tissues; (B) Prdx2 immunohistochemistry staining and expression levels in brain tissues; ns, no significant difference, p > 0.05.

    Journal: Brain and Behavior

    Article Title: Lipopolysaccharide Upregulates Neuroinflammation, Oxidative Stress Responses, and Peroxiredoxins in Depression Models

    doi: 10.1002/brb3.71231

    Figure Lengend Snippet: Immunohistochemistry detected the protein expression of Peroxiredoxin1 (Prdx1) and Prdx2 in brain tissues. (A) Prdx1 immunohistochemistry staining and expression levels in brain tissues; (B) Prdx2 immunohistochemistry staining and expression levels in brain tissues; ns, no significant difference, p > 0.05.

    Article Snippet: The membrane was blocked with 5% skim milk in TBST for 1 h at RT, followed by incubation with primary antibodies overnight at 4°C: GAPDH (Proteintech, No. 81640‐5‐RR, China), Prdx1 (Proteintech, No. 515816‐1‐AP, China), Prdx2 (Proteintech, No. 10545‐2‐AP, China), Prdx4 (ABonal, No. 4000001442, China).

    Techniques: Immunohistochemistry, Expressing, Staining

    RT‐qPCR detected the mRNA expression of Peroxiredoxin1 (Prdx1), Prdx2, Prdx4, and Prdx5 in brain tissues. (A) mRNA expression levels of Prdx1 in brain tissues; (B) mRNA expression levels of Prdx2 in brain tissues; (C) mRNA expression levels of Prdx4 in brain tissues; (D) mRNA expression levels of Prdx5 in brain tissues; * p < 0.05; ** p < 0.01.

    Journal: Brain and Behavior

    Article Title: Lipopolysaccharide Upregulates Neuroinflammation, Oxidative Stress Responses, and Peroxiredoxins in Depression Models

    doi: 10.1002/brb3.71231

    Figure Lengend Snippet: RT‐qPCR detected the mRNA expression of Peroxiredoxin1 (Prdx1), Prdx2, Prdx4, and Prdx5 in brain tissues. (A) mRNA expression levels of Prdx1 in brain tissues; (B) mRNA expression levels of Prdx2 in brain tissues; (C) mRNA expression levels of Prdx4 in brain tissues; (D) mRNA expression levels of Prdx5 in brain tissues; * p < 0.05; ** p < 0.01.

    Article Snippet: The membrane was blocked with 5% skim milk in TBST for 1 h at RT, followed by incubation with primary antibodies overnight at 4°C: GAPDH (Proteintech, No. 81640‐5‐RR, China), Prdx1 (Proteintech, No. 515816‐1‐AP, China), Prdx2 (Proteintech, No. 10545‐2‐AP, China), Prdx4 (ABonal, No. 4000001442, China).

    Techniques: Quantitative RT-PCR, Expressing

    WB detected the protein expression of Peroxiredoxin1 (Prdx1), Prdx2, Prdx4, and Prdx5 in brain tissues. (A) Protein expression bands; (B) Prdx1 protein expression levels; (C) Prdx2 protein expression levels; (D) Prdx4 protein expression levels; (E) Prdx5 protein expression levels; ns, no significant difference, p > 0.05; * p < 0.05; ** p < 0.01.

    Journal: Brain and Behavior

    Article Title: Lipopolysaccharide Upregulates Neuroinflammation, Oxidative Stress Responses, and Peroxiredoxins in Depression Models

    doi: 10.1002/brb3.71231

    Figure Lengend Snippet: WB detected the protein expression of Peroxiredoxin1 (Prdx1), Prdx2, Prdx4, and Prdx5 in brain tissues. (A) Protein expression bands; (B) Prdx1 protein expression levels; (C) Prdx2 protein expression levels; (D) Prdx4 protein expression levels; (E) Prdx5 protein expression levels; ns, no significant difference, p > 0.05; * p < 0.05; ** p < 0.01.

    Article Snippet: The membrane was blocked with 5% skim milk in TBST for 1 h at RT, followed by incubation with primary antibodies overnight at 4°C: GAPDH (Proteintech, No. 81640‐5‐RR, China), Prdx1 (Proteintech, No. 515816‐1‐AP, China), Prdx2 (Proteintech, No. 10545‐2‐AP, China), Prdx4 (ABonal, No. 4000001442, China).

    Techniques: Expressing

    The expression levels of Prdxs, reactive oxygen species (ROS), and nitric oxide (NO) in BV2 cells. (A) ROS fluorescence images; (B) ROS fluorescence levels in BV2 cells; (C) NO levels in BV2 cell supernatant; mRNA expression levels of Prdx1 (D), Prdx2 (E), Prdx4 (F), and Prdx5 (G) in BV2 cells; ns, no significant difference, p > 0.05; * p < 0.05; **** p < 0.0001.

    Journal: Brain and Behavior

    Article Title: Lipopolysaccharide Upregulates Neuroinflammation, Oxidative Stress Responses, and Peroxiredoxins in Depression Models

    doi: 10.1002/brb3.71231

    Figure Lengend Snippet: The expression levels of Prdxs, reactive oxygen species (ROS), and nitric oxide (NO) in BV2 cells. (A) ROS fluorescence images; (B) ROS fluorescence levels in BV2 cells; (C) NO levels in BV2 cell supernatant; mRNA expression levels of Prdx1 (D), Prdx2 (E), Prdx4 (F), and Prdx5 (G) in BV2 cells; ns, no significant difference, p > 0.05; * p < 0.05; **** p < 0.0001.

    Article Snippet: The membrane was blocked with 5% skim milk in TBST for 1 h at RT, followed by incubation with primary antibodies overnight at 4°C: GAPDH (Proteintech, No. 81640‐5‐RR, China), Prdx1 (Proteintech, No. 515816‐1‐AP, China), Prdx2 (Proteintech, No. 10545‐2‐AP, China), Prdx4 (ABonal, No. 4000001442, China).

    Techniques: Expressing, Fluorescence

    WB detected the protein expression of Peroxiredoxin1 (Prdx1), Prdx2, Prdx4, and Prdx5 in BV2 cells. (A) Protein expression bands; protein expression levels of Prdx1 (B), Prdx2 (C), Prdx4 (D), and Prdx5 (E) in BV2 cells; ns, no significant difference, p > 0.05; * p < 0.05.

    Journal: Brain and Behavior

    Article Title: Lipopolysaccharide Upregulates Neuroinflammation, Oxidative Stress Responses, and Peroxiredoxins in Depression Models

    doi: 10.1002/brb3.71231

    Figure Lengend Snippet: WB detected the protein expression of Peroxiredoxin1 (Prdx1), Prdx2, Prdx4, and Prdx5 in BV2 cells. (A) Protein expression bands; protein expression levels of Prdx1 (B), Prdx2 (C), Prdx4 (D), and Prdx5 (E) in BV2 cells; ns, no significant difference, p > 0.05; * p < 0.05.

    Article Snippet: The membrane was blocked with 5% skim milk in TBST for 1 h at RT, followed by incubation with primary antibodies overnight at 4°C: GAPDH (Proteintech, No. 81640‐5‐RR, China), Prdx1 (Proteintech, No. 515816‐1‐AP, China), Prdx2 (Proteintech, No. 10545‐2‐AP, China), Prdx4 (ABonal, No. 4000001442, China).

    Techniques: Expressing