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stemdifftm astrocyte maturation medium  (STEMCELL Technologies Inc)

 
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    STEMCELL Technologies Inc stemdifftm astrocyte maturation medium
    Stemdifftm Astrocyte Maturation Medium, supplied by STEMCELL Technologies Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/stemdifftm astrocyte maturation medium/product/STEMCELL Technologies Inc
    Average 90 stars, based on 1 article reviews
    stemdifftm astrocyte maturation medium - by Bioz Stars, 2026-04
    90/100 stars

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    Metabolic profile analysis for oocyte maturation and early embryo development. (A) Schematic overview of the workflow for metabolome profiling in oocytes and early embryos (created by biorender.com ). (B-D) Volcano plot shows the number of upregulated metabolites (orange dots) or downregulated metabolites (blue dots). The black dotted line indicates that the P value is equal to 0.05. (E-F) Upregulated metabolic KEGG pathways in oocytes or early embryos based on the upregulated metabolites. (G-H) Downregulated metabolic KEGG pathways in oocytes or early embryos based on the downregulated metabolites. IVM, in vitro maturation; IVF, in vitro fertilization; IVC, in vitro culture; OO, oocyte; EM, embryo.

    Journal: Journal of Advanced Research

    Article Title: Integrated ultrasensitive metabolomics and single-cell transcriptomics identify crucial regulators of sheep oocyte maturation and early embryo development in vitro

    doi: 10.1016/j.jare.2024.08.040

    Figure Lengend Snippet: Metabolic profile analysis for oocyte maturation and early embryo development. (A) Schematic overview of the workflow for metabolome profiling in oocytes and early embryos (created by biorender.com ). (B-D) Volcano plot shows the number of upregulated metabolites (orange dots) or downregulated metabolites (blue dots). The black dotted line indicates that the P value is equal to 0.05. (E-F) Upregulated metabolic KEGG pathways in oocytes or early embryos based on the upregulated metabolites. (G-H) Downregulated metabolic KEGG pathways in oocytes or early embryos based on the downregulated metabolites. IVM, in vitro maturation; IVF, in vitro fertilization; IVC, in vitro culture; OO, oocyte; EM, embryo.

    Article Snippet: Subsequently, cumulus-oocyte complexes (COCs) displaying evenly granulated cytoplasm and at least three layers of compacted cumulus cells (CCs) were transferred to in vitro maturation medium composed of bicarbonate-buffered medium 199 (11150059, Gibco), 0.33 mmol/L sodium pyruvate (P5280, Sigma), 10 % FBS (Gibco, 10099141), 0.5 IU/mL FSH (F8470, Solarbio), 0.5 IU/mL LH (L8040, Solarbio), 1 μg/mL E 2 (E2758, Sigma), 50 μmol/L L-cystine (C7602, Sigma) and 1 % penicillin–streptomycin medium (516106, Millipore) under mineral oil at 38.5 °C with 5 % CO 2 in a humidified atmosphere.

    Techniques: In Vitro

    Functional analysis of betaine and L-carnitine. (A) Developmental competence analysis of oocytes when betaine, L-carnitine or both were added to in vitro maturation and in vitro culture systems. a, b, c Values with different superscripts are significantly different ( P <0.05). (B) Effect of a glycine transporter 1 inhibitor (GlyT1 inhibitor) and GlyT1 inhibitor combined with betaine on blastocyst formation. “F”, cultured in normal IVC medium; “F+G”, cultured in IVC medium supplemented with GlyT1 inhibitor. “F+G+B”, cultured in IVC medium supplemented with GlyT1 inhibitor and betaine. Red arrows represent blastocyst formation. (C) Evaluation of spindle morphology of MⅡ oocyte.The spindle and DNA were labeled with α-Tubulin antibody and DAPI, respectively. (D) Effect of L-carnitine transport and synthesis inhibitors on lipid content in matured sheep oocytes. The lipid content was determined by BODIPY 493/503 labeling. (E) Effect of L-carnitine transport and synthesis inhibitors on lipid peroxidation in matured sheep oocytes. Lipid peroxidation was evaluated by BODIPY 581/591 C11. Lipids were oxidized and exhibited a green color. The lipid was in a reductive state with a red color. (F) Blastocyst rate corresponding to B. (G) Oocyte maturation rate after different treatments. (H) Effect of L-carnitine transport and synthesis inhibitors on the average grade of spindles of matured oocyte. (I) and (J) Lipid content and lipid peroxidation levels corresponding to D and E, respectively. COCs, cumulus-oocyte complexes; PA, parthenogenetic activation; F, fresh, without any treatment; B, betaine treatment; LC, L-carnitine treatment; FBL, fresh group with betaine and L-carnitine treatment; G, GlyT1 inhibitor; M, Mildronate, inhibitor of BBOX1 and OCTN2; E, Etomoxir, inhibitor of CPT-1A.

    Journal: Journal of Advanced Research

    Article Title: Integrated ultrasensitive metabolomics and single-cell transcriptomics identify crucial regulators of sheep oocyte maturation and early embryo development in vitro

    doi: 10.1016/j.jare.2024.08.040

    Figure Lengend Snippet: Functional analysis of betaine and L-carnitine. (A) Developmental competence analysis of oocytes when betaine, L-carnitine or both were added to in vitro maturation and in vitro culture systems. a, b, c Values with different superscripts are significantly different ( P <0.05). (B) Effect of a glycine transporter 1 inhibitor (GlyT1 inhibitor) and GlyT1 inhibitor combined with betaine on blastocyst formation. “F”, cultured in normal IVC medium; “F+G”, cultured in IVC medium supplemented with GlyT1 inhibitor. “F+G+B”, cultured in IVC medium supplemented with GlyT1 inhibitor and betaine. Red arrows represent blastocyst formation. (C) Evaluation of spindle morphology of MⅡ oocyte.The spindle and DNA were labeled with α-Tubulin antibody and DAPI, respectively. (D) Effect of L-carnitine transport and synthesis inhibitors on lipid content in matured sheep oocytes. The lipid content was determined by BODIPY 493/503 labeling. (E) Effect of L-carnitine transport and synthesis inhibitors on lipid peroxidation in matured sheep oocytes. Lipid peroxidation was evaluated by BODIPY 581/591 C11. Lipids were oxidized and exhibited a green color. The lipid was in a reductive state with a red color. (F) Blastocyst rate corresponding to B. (G) Oocyte maturation rate after different treatments. (H) Effect of L-carnitine transport and synthesis inhibitors on the average grade of spindles of matured oocyte. (I) and (J) Lipid content and lipid peroxidation levels corresponding to D and E, respectively. COCs, cumulus-oocyte complexes; PA, parthenogenetic activation; F, fresh, without any treatment; B, betaine treatment; LC, L-carnitine treatment; FBL, fresh group with betaine and L-carnitine treatment; G, GlyT1 inhibitor; M, Mildronate, inhibitor of BBOX1 and OCTN2; E, Etomoxir, inhibitor of CPT-1A.

    Article Snippet: Subsequently, cumulus-oocyte complexes (COCs) displaying evenly granulated cytoplasm and at least three layers of compacted cumulus cells (CCs) were transferred to in vitro maturation medium composed of bicarbonate-buffered medium 199 (11150059, Gibco), 0.33 mmol/L sodium pyruvate (P5280, Sigma), 10 % FBS (Gibco, 10099141), 0.5 IU/mL FSH (F8470, Solarbio), 0.5 IU/mL LH (L8040, Solarbio), 1 μg/mL E 2 (E2758, Sigma), 50 μmol/L L-cystine (C7602, Sigma) and 1 % penicillin–streptomycin medium (516106, Millipore) under mineral oil at 38.5 °C with 5 % CO 2 in a humidified atmosphere.

    Techniques: Functional Assay, In Vitro, Cell Culture, Labeling, Activation Assay

    Metabolic characteristic analysis of oocytes and embryos based on transcriptomics and metabolomics. (A) Heatmap of KEGG pathway analysis related to metabolism regulation from oocyte maturation to embryonic development. C1-C5 represented 5 different gene clusters. (B-D) KEGG enrichment analysis by combining transcriptomics and metabolomics.

    Journal: Journal of Advanced Research

    Article Title: Integrated ultrasensitive metabolomics and single-cell transcriptomics identify crucial regulators of sheep oocyte maturation and early embryo development in vitro

    doi: 10.1016/j.jare.2024.08.040

    Figure Lengend Snippet: Metabolic characteristic analysis of oocytes and embryos based on transcriptomics and metabolomics. (A) Heatmap of KEGG pathway analysis related to metabolism regulation from oocyte maturation to embryonic development. C1-C5 represented 5 different gene clusters. (B-D) KEGG enrichment analysis by combining transcriptomics and metabolomics.

    Article Snippet: Subsequently, cumulus-oocyte complexes (COCs) displaying evenly granulated cytoplasm and at least three layers of compacted cumulus cells (CCs) were transferred to in vitro maturation medium composed of bicarbonate-buffered medium 199 (11150059, Gibco), 0.33 mmol/L sodium pyruvate (P5280, Sigma), 10 % FBS (Gibco, 10099141), 0.5 IU/mL FSH (F8470, Solarbio), 0.5 IU/mL LH (L8040, Solarbio), 1 μg/mL E 2 (E2758, Sigma), 50 μmol/L L-cystine (C7602, Sigma) and 1 % penicillin–streptomycin medium (516106, Millipore) under mineral oil at 38.5 °C with 5 % CO 2 in a humidified atmosphere.

    Techniques: