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Western blotAntibody data
- Antibody Data
- Antigen structure
- References [13]
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- Product number
- 67082-1-Ig - Provider product page
- Provider
- Proteintech Group
- Product name
- Myogenin antibody
- Antibody type
- Monoclonal
- Description
- Myogenin antibody (Cat. #67082-1-Ig) is a mouse monoclonal antibody that shows reactivity with Human, Rat, Pig and has been validated for the following applications: WB,ELISA.
- Reactivity
- Human, Rat, Porcine
- Host
- Mouse
- Conjugate
- Unconjugated
- Isotype
- IgG
- Antibody clone number
- 1C10B9
- Vial size
- 20ul, 150ul
Submitted references A Circular RNA Generated from Nebulin (NEB) Gene Splicing Promotes Skeletal Muscle Myogenesis in Cattle as Detected by a Multi-Omics Approach.
MicroRNA profiling reveals miR-145-5p inhibits goat myoblast differentiation by targeting the coding domain sequence of USP13.
G6PD Deficiency Is Crucial for Insulin Signaling Activation in Skeletal Muscle.
Circular RNA circUSP13 sponges miR-29c to promote differentiation and inhibit apoptosis of goat myoblasts by targeting IGF1.
circRNAome profiling reveals circFgfr2 regulates myogenesis and muscle regeneration via a feedback loop.
Near-infrared light-triggered polypyrrole promotes C2C12 cell differentiation and inhibits TNF-α induced myotube atrophy.
Phosphorylation of Dynamin-Related Protein 1 (DRP1) Regulates Mitochondrial Dynamics and Skeletal Muscle Wasting in Cancer Cachexia.
Taurine Protects C2C12 Myoblasts From Impaired Cell Proliferation and Myotube Differentiation Under Cisplatin-Induced ROS Exposure.
Sp1-Mediated circRNA circHipk2 Regulates Myogenesis by Targeting Ribosomal Protein Rpl7.
Circular RNA RBPMS inhibits bladder cancer progression via miR-330-3p/RAI2 regulation.
Early-senescent bone marrow mesenchymal stem cells promote C2C12 cell myogenic differentiation by preventing the nuclear translocation of FOXO3.
Bi-phasic effect of gelatin in myogenesis and skeletal muscle regeneration.
Natural flavonoid silibinin promotes the migration and myogenic differentiation of murine C2C12 myoblasts via modulation of ROS generation and down-regulation of estrogen receptor α expression.
Huang K, Li Z, Zhong D, Yang Y, Yan X, Feng T, Wang X, Zhang L, Shen X, Chen M, Luo X, Cui K, Huang J, Rehman SU, Jiang Y, Shi D, Pauciullo A, Tang X, Liu Q, Li H
Advanced science (Weinheim, Baden-Wurttemberg, Germany) 2024 Jan;11(3):e2300702
Advanced science (Weinheim, Baden-Wurttemberg, Germany) 2024 Jan;11(3):e2300702
MicroRNA profiling reveals miR-145-5p inhibits goat myoblast differentiation by targeting the coding domain sequence of USP13.
Zhang Z, Deng K, Kang Z, Wang F, Fan Y
FASEB journal : official publication of the Federation of American Societies for Experimental Biology 2022 Jul;36(7):e22370
FASEB journal : official publication of the Federation of American Societies for Experimental Biology 2022 Jul;36(7):e22370
G6PD Deficiency Is Crucial for Insulin Signaling Activation in Skeletal Muscle.
Jiang A, Guo H, Jiang X, Tao J, Wu W, Liu H
International journal of molecular sciences 2022 Jul 4;23(13)
International journal of molecular sciences 2022 Jul 4;23(13)
Circular RNA circUSP13 sponges miR-29c to promote differentiation and inhibit apoptosis of goat myoblasts by targeting IGF1.
Zhang Z, Fan Y, Deng K, Liang Y, Zhang G, Gao X, El-Samahy MA, Zhang Y, Deng M, Wang F
FASEB journal : official publication of the Federation of American Societies for Experimental Biology 2022 Jan;36(1):e22097
FASEB journal : official publication of the Federation of American Societies for Experimental Biology 2022 Jan;36(1):e22097
circRNAome profiling reveals circFgfr2 regulates myogenesis and muscle regeneration via a feedback loop.
Yan J, Yang Y, Fan X, Liang G, Wang Z, Li J, Wang L, Chen Y, Adetula AA, Tang Y, Li K, Wang D, Tang Z
Journal of cachexia, sarcopenia and muscle 2022 Feb;13(1):696-712
Journal of cachexia, sarcopenia and muscle 2022 Feb;13(1):696-712
Near-infrared light-triggered polypyrrole promotes C2C12 cell differentiation and inhibits TNF-α induced myotube atrophy.
Wu Y, Che J, Jia P, Ma Y, Han Q, Wang X, Fu L, Dou H, Zheng Y
Cellular signalling 2022 Dec;100:110463
Cellular signalling 2022 Dec;100:110463
Phosphorylation of Dynamin-Related Protein 1 (DRP1) Regulates Mitochondrial Dynamics and Skeletal Muscle Wasting in Cancer Cachexia.
Mao X, Gu Y, Sui X, Shen L, Han J, Wang H, Xi Q, Zhuang Q, Meng Q, Wu G
Frontiers in cell and developmental biology 2021;9:673618
Frontiers in cell and developmental biology 2021;9:673618
Taurine Protects C2C12 Myoblasts From Impaired Cell Proliferation and Myotube Differentiation Under Cisplatin-Induced ROS Exposure.
Zhou L, Lu R, Huang C, Lin D
Frontiers in molecular biosciences 2021;8:685362
Frontiers in molecular biosciences 2021;8:685362
Sp1-Mediated circRNA circHipk2 Regulates Myogenesis by Targeting Ribosomal Protein Rpl7.
Yan J, Yang Y, Fan X, Tang Y, Tang Z
Genes 2021 May 8;12(5)
Genes 2021 May 8;12(5)
Circular RNA RBPMS inhibits bladder cancer progression via miR-330-3p/RAI2 regulation.
Yang C, Mou Z, Zhang Z, Wu S, Zhou Q, Chen Y, Gong J, Xu C, Ou Y, Chen X, Dai X, Jiang H
Molecular therapy. Nucleic acids 2021 Mar 5;23:872-886
Molecular therapy. Nucleic acids 2021 Mar 5;23:872-886
Early-senescent bone marrow mesenchymal stem cells promote C2C12 cell myogenic differentiation by preventing the nuclear translocation of FOXO3.
Che J, Xu C, Wu Y, Jia P, Han Q, Ma Y, Wang X, Du Y, Zheng Y
Life sciences 2021 Jul 15;277:119520
Life sciences 2021 Jul 15;277:119520
Bi-phasic effect of gelatin in myogenesis and skeletal muscle regeneration.
Liu X, Zu E, Chang X, Ma X, Wang Z, Song X, Li X, Yu Q, Kamei KI, Hayashi T, Mizuno K, Hattori S, Fujisaki H, Ikejima T, Wang DO
Disease models & mechanisms 2021 Dec 1;14(12)
Disease models & mechanisms 2021 Dec 1;14(12)
Natural flavonoid silibinin promotes the migration and myogenic differentiation of murine C2C12 myoblasts via modulation of ROS generation and down-regulation of estrogen receptor α expression.
Long X, Gao Y, Liu W, Liu X, Hayashi T, Mizuno K, Hattori S, Ikejima T
Molecular and cellular biochemistry 2020 Nov;474(1-2):243-261
Molecular and cellular biochemistry 2020 Nov;474(1-2):243-261
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