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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; <t>YTHDF2,</t> YTH domain family 2.
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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; <t>YTHDF2,</t> YTH domain family 2.
189 Ythdf2, supplied by Proteintech, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; <t>YTHDF2,</t> YTH domain family 2.
Immunohistochemistry Ihc, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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◦ c alkbh5 1 1000 16837 1 ap proteintech anti ythdf2 1 400 24744 1 ap proteintech bcat2 1 100 16417 1 ap proteintech gpx4 1 100 df6701 affinity  (Proteintech)
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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; <t>YTHDF2,</t> YTH domain family 2.
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anti ythdf2  (Proteintech)
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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; <t>YTHDF2,</t> YTH domain family 2.
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anti ythdf2 - by Bioz Stars, 2026-06
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ythdf2  (Proteintech)
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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; <t>YTHDF2,</t> YTH domain family 2.
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ythdf3 antibody  (Proteintech)
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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; <t>YTHDF2,</t> YTH domain family 2.
Ythdf3 Antibody, supplied by Proteintech, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ythdf2 antibody  (Proteintech)
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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; <t>YTHDF2,</t> YTH domain family 2.
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Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; YTHDF2, YTH domain family 2.

Journal: International Journal of Molecular Medicine

Article Title: m 6 A in adipose tissue inflammation: A novel regulator of obesity and metabolic diseases (Review)

doi: 10.3892/ijmm.2026.5795

Figure Lengend Snippet: Role of m 6 A in adipogenesis. Insufficient adipogenesis in adipose tissue leads to persistent, chronic inflammation. m 6 A modification plays a crucial role in all stages of adipogenesis, from commitment to terminal differentiation. During commitment, METTL3 promotes lipogenic differentiation in BMSCs by regulating the m 6 A levels of PTH1R and JAK1, whereas silencing METTL14 reduces the expression of SMAD1, inhibiting BMSC proliferation. During terminal differentiation, m 6 A regulates MCE and the transition to mature adipocytes. FTO influences key genes such as ATG5, ATG7 and JAK2, affecting autophagy, STAT3 phosphorylation and adipogenesis. FTO knockout increases the m 6 A levels of CCND1 and CDK2, blocking MCE. m 6 A, N6-methyladenine; METTL, methyltransferase-like; PTH1R, parathyroid hormone 1 receptor; JAK, Janus kinase; BMSC, bone marrow mesenchymal stem cell; MCE, mitotic clone amplification; FTO, Fat mass and obesity-associated protein; ATG, autophagy-related; STAT3, signal transducer and activator of transcription 3; CCND1, cyclin D1; CDK2, cyclin-dependent kinase 2; IGF2BP1, insulin-like growth factor 2 mRNA-binding protein 1; YTHDF2, YTH domain family 2.

Article Snippet: In addition, for mitotic clone amplification (MCE) in the early stage of terminal differentiation, the inhibition of FTO expression in 3T3-L1 cells leads to increased m 6 A methylation levels of cyclin D1 (CCND1) and cyclin-dependent kinase 2, the protein expression of which is reduced after recognition by YTHDF2, resulting in blockade of the MCE process and in turn the inhibition of lipogenesis ( ) ( ).

Techniques: Modification, Expressing, Phospho-proteomics, Knock-Out, Blocking Assay, Amplification, Binding Assay