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sds page running buffer powder  (Servicebio Inc)

 
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    Servicebio Inc sds page running buffer powder
    XRN2 is a new partner of MEIOC and involved in RMY-dependent RNA repression (A) Immunoprecipitated MEIOC complexes were separated <t>by</t> <t>SDS-PAGE</t> and the protein in the gel was stained with silver prior to mass spectrometry (MS). (B) Related proteins in MEIOC complex were identified by MS. (C) Cytoplasm and nuclei were separated from HEK293T cells transfected with MEIOC and YTHDC2 (M + Y). Lamin B1 was used as a nuclear marker and GADPH as a cytoplasmic marker, N = 3. (D) XRN2 protein was co-immunoprecipitated with MEIOC. IgG was used as a negative control. N = 3. (E) Western blot analysis of MEIOC and XNR2 protein. A lentivirus containing HIS-MEIOC infected HEK293T cells. The cells were lysed with RIPA buffer and then coIP assay was performed with anti-XRN2 antibody. IgG was used as a negative control. N = 3. (F) Western blot analysis of XRN2 and β-Actin from HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (G) RT-qPCR analysis showing relative mRNA levels of XRN2 in HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (H) Relative luciferase activities of F-Luc-Rad21 3′UTR in HEK293T cells after knockdown of XRN2 only or combined with the expression of RBM46, MEIOC and YTHDC2 (RMY). N = 3. Data are presented as mean ± SEM. p values were determined by unpaired t test with Welch’s correction (C–E) or by one-way ANOVA with Benjamini-Hochberg correction (F–H). (I) A model of RMY complex assembly and target mRNA degradation.
    Sds Page Running Buffer Powder, supplied by Servicebio Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    1) Product Images from "A mechanism of target mRNA selection and activity regulation in meiosis-related RBM46-MEIOC-YTHDC2 complex"

    Article Title: A mechanism of target mRNA selection and activity regulation in meiosis-related RBM46-MEIOC-YTHDC2 complex

    Journal: iScience

    doi: 10.1016/j.isci.2026.116234

    XRN2 is a new partner of MEIOC and involved in RMY-dependent RNA repression (A) Immunoprecipitated MEIOC complexes were separated by SDS-PAGE and the protein in the gel was stained with silver prior to mass spectrometry (MS). (B) Related proteins in MEIOC complex were identified by MS. (C) Cytoplasm and nuclei were separated from HEK293T cells transfected with MEIOC and YTHDC2 (M + Y). Lamin B1 was used as a nuclear marker and GADPH as a cytoplasmic marker, N = 3. (D) XRN2 protein was co-immunoprecipitated with MEIOC. IgG was used as a negative control. N = 3. (E) Western blot analysis of MEIOC and XNR2 protein. A lentivirus containing HIS-MEIOC infected HEK293T cells. The cells were lysed with RIPA buffer and then coIP assay was performed with anti-XRN2 antibody. IgG was used as a negative control. N = 3. (F) Western blot analysis of XRN2 and β-Actin from HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (G) RT-qPCR analysis showing relative mRNA levels of XRN2 in HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (H) Relative luciferase activities of F-Luc-Rad21 3′UTR in HEK293T cells after knockdown of XRN2 only or combined with the expression of RBM46, MEIOC and YTHDC2 (RMY). N = 3. Data are presented as mean ± SEM. p values were determined by unpaired t test with Welch’s correction (C–E) or by one-way ANOVA with Benjamini-Hochberg correction (F–H). (I) A model of RMY complex assembly and target mRNA degradation.
    Figure Legend Snippet: XRN2 is a new partner of MEIOC and involved in RMY-dependent RNA repression (A) Immunoprecipitated MEIOC complexes were separated by SDS-PAGE and the protein in the gel was stained with silver prior to mass spectrometry (MS). (B) Related proteins in MEIOC complex were identified by MS. (C) Cytoplasm and nuclei were separated from HEK293T cells transfected with MEIOC and YTHDC2 (M + Y). Lamin B1 was used as a nuclear marker and GADPH as a cytoplasmic marker, N = 3. (D) XRN2 protein was co-immunoprecipitated with MEIOC. IgG was used as a negative control. N = 3. (E) Western blot analysis of MEIOC and XNR2 protein. A lentivirus containing HIS-MEIOC infected HEK293T cells. The cells were lysed with RIPA buffer and then coIP assay was performed with anti-XRN2 antibody. IgG was used as a negative control. N = 3. (F) Western blot analysis of XRN2 and β-Actin from HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (G) RT-qPCR analysis showing relative mRNA levels of XRN2 in HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (H) Relative luciferase activities of F-Luc-Rad21 3′UTR in HEK293T cells after knockdown of XRN2 only or combined with the expression of RBM46, MEIOC and YTHDC2 (RMY). N = 3. Data are presented as mean ± SEM. p values were determined by unpaired t test with Welch’s correction (C–E) or by one-way ANOVA with Benjamini-Hochberg correction (F–H). (I) A model of RMY complex assembly and target mRNA degradation.

    Techniques Used: Immunoprecipitation, SDS Page, Staining, Mass Spectrometry, Transfection, Marker, Negative Control, Western Blot, Infection, Co-Immunoprecipitation Assay, Control, Quantitative RT-PCR, Luciferase, Knockdown, Expressing



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    XRN2 is a new partner of MEIOC and involved in RMY-dependent RNA repression (A) Immunoprecipitated MEIOC complexes were separated <t>by</t> <t>SDS-PAGE</t> and the protein in the gel was stained with silver prior to mass spectrometry (MS). (B) Related proteins in MEIOC complex were identified by MS. (C) Cytoplasm and nuclei were separated from HEK293T cells transfected with MEIOC and YTHDC2 (M + Y). Lamin B1 was used as a nuclear marker and GADPH as a cytoplasmic marker, N = 3. (D) XRN2 protein was co-immunoprecipitated with MEIOC. IgG was used as a negative control. N = 3. (E) Western blot analysis of MEIOC and XNR2 protein. A lentivirus containing HIS-MEIOC infected HEK293T cells. The cells were lysed with RIPA buffer and then coIP assay was performed with anti-XRN2 antibody. IgG was used as a negative control. N = 3. (F) Western blot analysis of XRN2 and β-Actin from HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (G) RT-qPCR analysis showing relative mRNA levels of XRN2 in HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (H) Relative luciferase activities of F-Luc-Rad21 3′UTR in HEK293T cells after knockdown of XRN2 only or combined with the expression of RBM46, MEIOC and YTHDC2 (RMY). N = 3. Data are presented as mean ± SEM. p values were determined by unpaired t test with Welch’s correction (C–E) or by one-way ANOVA with Benjamini-Hochberg correction (F–H). (I) A model of RMY complex assembly and target mRNA degradation.
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    XRN2 is a new partner of MEIOC and involved in RMY-dependent RNA repression (A) Immunoprecipitated MEIOC complexes were separated by SDS-PAGE and the protein in the gel was stained with silver prior to mass spectrometry (MS). (B) Related proteins in MEIOC complex were identified by MS. (C) Cytoplasm and nuclei were separated from HEK293T cells transfected with MEIOC and YTHDC2 (M + Y). Lamin B1 was used as a nuclear marker and GADPH as a cytoplasmic marker, N = 3. (D) XRN2 protein was co-immunoprecipitated with MEIOC. IgG was used as a negative control. N = 3. (E) Western blot analysis of MEIOC and XNR2 protein. A lentivirus containing HIS-MEIOC infected HEK293T cells. The cells were lysed with RIPA buffer and then coIP assay was performed with anti-XRN2 antibody. IgG was used as a negative control. N = 3. (F) Western blot analysis of XRN2 and β-Actin from HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (G) RT-qPCR analysis showing relative mRNA levels of XRN2 in HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (H) Relative luciferase activities of F-Luc-Rad21 3′UTR in HEK293T cells after knockdown of XRN2 only or combined with the expression of RBM46, MEIOC and YTHDC2 (RMY). N = 3. Data are presented as mean ± SEM. p values were determined by unpaired t test with Welch’s correction (C–E) or by one-way ANOVA with Benjamini-Hochberg correction (F–H). (I) A model of RMY complex assembly and target mRNA degradation.

    Journal: iScience

    Article Title: A mechanism of target mRNA selection and activity regulation in meiosis-related RBM46-MEIOC-YTHDC2 complex

    doi: 10.1016/j.isci.2026.116234

    Figure Lengend Snippet: XRN2 is a new partner of MEIOC and involved in RMY-dependent RNA repression (A) Immunoprecipitated MEIOC complexes were separated by SDS-PAGE and the protein in the gel was stained with silver prior to mass spectrometry (MS). (B) Related proteins in MEIOC complex were identified by MS. (C) Cytoplasm and nuclei were separated from HEK293T cells transfected with MEIOC and YTHDC2 (M + Y). Lamin B1 was used as a nuclear marker and GADPH as a cytoplasmic marker, N = 3. (D) XRN2 protein was co-immunoprecipitated with MEIOC. IgG was used as a negative control. N = 3. (E) Western blot analysis of MEIOC and XNR2 protein. A lentivirus containing HIS-MEIOC infected HEK293T cells. The cells were lysed with RIPA buffer and then coIP assay was performed with anti-XRN2 antibody. IgG was used as a negative control. N = 3. (F) Western blot analysis of XRN2 and β-Actin from HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (G) RT-qPCR analysis showing relative mRNA levels of XRN2 in HEK293T cells transfected with XRN2 siRNAs and control siRNA, N = 3. (H) Relative luciferase activities of F-Luc-Rad21 3′UTR in HEK293T cells after knockdown of XRN2 only or combined with the expression of RBM46, MEIOC and YTHDC2 (RMY). N = 3. Data are presented as mean ± SEM. p values were determined by unpaired t test with Welch’s correction (C–E) or by one-way ANOVA with Benjamini-Hochberg correction (F–H). (I) A model of RMY complex assembly and target mRNA degradation.

    Article Snippet: SDS-PAGE running buffer powder , Servicebio , Cat#G2018-1L.

    Techniques: Immunoprecipitation, SDS Page, Staining, Mass Spectrometry, Transfection, Marker, Negative Control, Western Blot, Infection, Co-Immunoprecipitation Assay, Control, Quantitative RT-PCR, Luciferase, Knockdown, Expressing