価格表
在庫・価格 : 2024年04月25日 19時23分 現在
| 商品名 | 商品コード | メーカー | 包装 | 価格 | 在庫 | リスト |
|---|---|---|---|---|---|---|
|
Anti-MyoD1, Mouse-Mono(5.8A) データシート |
NB100-56511 |
NOVノバス バイオロジカルス Novus biologicals, LLC |
0.1 mg | ¥103,000 |
無 (未発注) |
追加 |
在庫・価格 : 2024年04月25日 19時23分 現在
使用文献
| No. | 文献情報 | 備考 | 参照 |
|---|---|---|---|
| 1 |
Majmundar AJ et al. O(2) regulates skeletal muscle progenitor differentiation through phosphatidylinositol 3-kinase/AKT signaling. Mol. Cell. Biol. 2012 Jan;32(1):36-49 Majmundar AJ et al 2012/01/01 |
 |
|
| 2 |
Sell H et al. Skeletal muscle insulin resistance induced by adipocyte-conditioned medium: underlying mechanisms and reversibility. Am. J. Physiol. Endocrinol. Metab. 2008 Jun;294(6):E1070-7 Sell H et al 2008/01/01 |
|
|
| 3 |
Bernardi H et al. Wnt4 activates the canonical β-catenin pathway and regulates negatively myostatin: functional implication in myogenesis. Am. J. Physiol., Cell Physiol. 2011 May;300(5):C1122-38 Bernardi H et al 2011/01/01 |
|
|
| 4 |
Dias P et al. Monoclonal antibodies to the myogenic regulatory protein MyoD1: epitope mapping and diagnostic utility. Cancer Res. 1992 Dec;52(23):6431-9 Dias P et al 1992/01/01 |
|
|
| 5 |
Sun Y et al. Mammalian target of rapamycin regulates miRNA-1 and follistatin in skeletal myogenesis. J. Cell Biol. 2010 Jun;189(7):1157-69 Sun Y et al 2010/01/01 |
|
|
| 6 |
Chuang HN et al. The homeobox transcription factor Irxl1 negatively regulates MyoD expression and myoblast differentiation. FEBS J. 2014 Jul;281(13):2990-3003 Chuang HN et al 2014/01/01 |
Species: Mouse, Applications: WB | |
| 7 |
Jheng JR et al. The double-edged sword of endoplasmic reticulum stress in uremic sarcopenia through myogenesis perturbation. J Cachexia Sarcopenia Muscle 2018 Jun;9(3):570-584 Jheng JR et al 2018/01/01 |
Species: Mouse, Applications: | |
| 8 |
Li X et al. MicroRNA-106a-5p Inhibited C2C12 Myogenesis via Targeting PIK3R1 and Modulating the PI3K/AKT Signaling. Genes (Basel) 2018 Jul;9(7) Li X et al 2018/01/01 |
Species: Mouse, Applications: WB | |
| 9 |
Millington G et al. Cilia-dependent GLI processing in neural crest cells is required for tongue development. Dev. Biol. 2017 04;424(2):124-137 Millington G et al 2017/01/01 |
Species: Mouse, Applications: ICC/IF | |
| 10 |
Dogan SA et al. Perturbed Redox Signaling Exacerbates a Mitochondrial Myopathy. Cell Metab. 2018 Nov;28(5):764-775.e5 Dogan SA et al 2018/01/01 |
Species: Mouse, Applications: ICC/IF | |
| 11 |
Pacifici F et al. Prdx6 Plays a Main Role in the Crosstalk Between Aging and Metabolic Sarcopenia. Antioxidants (Basel) 2020 Apr;9(4) Pacifici F et al 2020/01/01 |
|
|
| 12 |
Waldemer-Streyer RJ et al. Cxcl14 depletion accelerates skeletal myogenesis by promoting cell cycle withdrawal. NPJ Regen Med 2017;2 Waldemer-Streyer RJ et al 2017/01/01 |
|
|
| 13 |
Takashima S et al. Myocyte-specific enhancer factor 2c triggers transdifferentiation of adipose tissue-derived stromal cells into spontaneously beating cardiomyocyte-like cells. Sci Rep 2021 01;11(1):1520 Takashima S et al 2021/01/01 |
|
|
| 14 |
Fang WY et al. Triptolide prevents LPS-induced skeletal muscle atrophy via inhibiting NF-κB/TNF-α and regulating protein synthesis/degradation pathway. Br J Pharmacol 2021 08;178(15):2998-3016 Fang WY et al 2021/01/01 |
|
|
| 15 |
De Micheli AJ et al. Single-Cell Analysis of the Muscle Stem Cell Hierarchy Identifies Heterotypic Communication Signals Involved in Skeletal Muscle Regeneration. Cell Rep 2020 03;30(10):3583-3595.e5 De Micheli AJ et al 2020/01/01 |
|
|
| 16 |
Peng Y et al. MicroRNA-129-5p inhibits C2C12 myogenesis and represses slow fiber gene expression in vitro. Am J Physiol Cell Physiol 2021 06;320(6):C1031-C1041 Peng Y et al 2021/01/01 |
|
|
| 17 |
Cai R et al. Lnc-ORA interacts with microRNA-532-3p and IGF2BP2 to inhibit skeletal muscle myogenesis. J Biol Chem ;296:100376 Cai R et al |
|
|
| 18 |
Hosoyama T et al. Rb1 gene inactivation expands satellite cell and postnatal myoblast pools. J Biol Chem 2011 Jun;286(22):19556-64 Hosoyama T et al 2011/01/01 |
|
|
| 19 |
Song R et al. MRTF-A regulates myoblast commitment to differentiation by targeting PAX7 during muscle regeneration. J Cell Mol Med 2021 09;25(18):8645-8661 Song R et al 2021/01/01 |
Species: Mouse, Applications: ICC/IF | |
- No.: 1
-
文献情報:
Majmundar AJ et al. O(2) regulates skeletal muscle progenitor differentiation through phosphatidylinositol 3-kinase/AKT signaling. Mol. Cell. Biol. 2012 Jan;32(1):36-49
Majmundar AJ et al
2012/01/01
-
備考:
-
参照:
- No.: 2
-
文献情報:
Sell H et al. Skeletal muscle insulin resistance induced by adipocyte-conditioned medium: underlying mechanisms and reversibility. Am. J. Physiol. Endocrinol. Metab. 2008 Jun;294(6):E1070-7
Sell H et al
2008/01/01
-
備考:
-
参照:
- No.: 3
-
文献情報:
Bernardi H et al. Wnt4 activates the canonical β-catenin pathway and regulates negatively myostatin: functional implication in myogenesis. Am. J. Physiol., Cell Physiol. 2011 May;300(5):C1122-38
Bernardi H et al
2011/01/01
-
備考:
-
参照:
- No.: 4
-
文献情報:
Dias P et al. Monoclonal antibodies to the myogenic regulatory protein MyoD1: epitope mapping and diagnostic utility. Cancer Res. 1992 Dec;52(23):6431-9
Dias P et al
1992/01/01
-
備考:
-
参照:
- No.: 5
-
文献情報:
Sun Y et al. Mammalian target of rapamycin regulates miRNA-1 and follistatin in skeletal myogenesis. J. Cell Biol. 2010 Jun;189(7):1157-69
Sun Y et al
2010/01/01
-
備考:
-
参照:
- No.: 6
-
文献情報:
Chuang HN et al. The homeobox transcription factor Irxl1 negatively regulates MyoD expression and myoblast differentiation. FEBS J. 2014 Jul;281(13):2990-3003
Chuang HN et al
2014/01/01
-
備考:
Species: Mouse, Applications: WB -
参照:
- No.: 7
-
文献情報:
Jheng JR et al. The double-edged sword of endoplasmic reticulum stress in uremic sarcopenia through myogenesis perturbation. J Cachexia Sarcopenia Muscle 2018 Jun;9(3):570-584
Jheng JR et al
2018/01/01
-
備考:
Species: Mouse, Applications: -
参照:
- No.: 8
-
文献情報:
Li X et al. MicroRNA-106a-5p Inhibited C2C12 Myogenesis via Targeting PIK3R1 and Modulating the PI3K/AKT Signaling. Genes (Basel) 2018 Jul;9(7)
Li X et al
2018/01/01
-
備考:
Species: Mouse, Applications: WB -
参照:
- No.: 9
-
文献情報:
Millington G et al. Cilia-dependent GLI processing in neural crest cells is required for tongue development. Dev. Biol. 2017 04;424(2):124-137
Millington G et al
2017/01/01
-
備考:
Species: Mouse, Applications: ICC/IF -
参照:
- No.: 10
-
文献情報:
Dogan SA et al. Perturbed Redox Signaling Exacerbates a Mitochondrial Myopathy. Cell Metab. 2018 Nov;28(5):764-775.e5
Dogan SA et al
2018/01/01
-
備考:
Species: Mouse, Applications: ICC/IF -
参照:
- No.: 11
-
文献情報:
Pacifici F et al. Prdx6 Plays a Main Role in the Crosstalk Between Aging and Metabolic Sarcopenia. Antioxidants (Basel) 2020 Apr;9(4)
Pacifici F et al
2020/01/01
-
備考:
-
参照:
- No.: 12
-
文献情報:
Waldemer-Streyer RJ et al. Cxcl14 depletion accelerates skeletal myogenesis by promoting cell cycle withdrawal. NPJ Regen Med 2017;2
Waldemer-Streyer RJ et al
2017/01/01
-
備考:
-
参照:
- No.: 13
-
文献情報:
Takashima S et al. Myocyte-specific enhancer factor 2c triggers transdifferentiation of adipose tissue-derived stromal cells into spontaneously beating cardiomyocyte-like cells. Sci Rep 2021 01;11(1):1520
Takashima S et al
2021/01/01
-
備考:
-
参照:
- No.: 14
-
文献情報:
Fang WY et al. Triptolide prevents LPS-induced skeletal muscle atrophy via inhibiting NF-κB/TNF-α and regulating protein synthesis/degradation pathway. Br J Pharmacol 2021 08;178(15):2998-3016
Fang WY et al
2021/01/01
-
備考:
-
参照:
- No.: 15
-
文献情報:
De Micheli AJ et al. Single-Cell Analysis of the Muscle Stem Cell Hierarchy Identifies Heterotypic Communication Signals Involved in Skeletal Muscle Regeneration. Cell Rep 2020 03;30(10):3583-3595.e5
De Micheli AJ et al
2020/01/01
-
備考:
-
参照:
- No.: 16
-
文献情報:
Peng Y et al. MicroRNA-129-5p inhibits C2C12 myogenesis and represses slow fiber gene expression in vitro. Am J Physiol Cell Physiol 2021 06;320(6):C1031-C1041
Peng Y et al
2021/01/01
-
備考:
-
参照:
- No.: 17
-
文献情報:
Cai R et al. Lnc-ORA interacts with microRNA-532-3p and IGF2BP2 to inhibit skeletal muscle myogenesis. J Biol Chem ;296:100376
Cai R et al
-
備考:
-
参照:
- No.: 18
-
文献情報:
Hosoyama T et al. Rb1 gene inactivation expands satellite cell and postnatal myoblast pools. J Biol Chem 2011 Jun;286(22):19556-64
Hosoyama T et al
2011/01/01
-
備考:
-
参照:
- No.: 19
-
文献情報:
Song R et al. MRTF-A regulates myoblast commitment to differentiation by targeting PAX7 during muscle regeneration. J Cell Mol Med 2021 09;25(18):8645-8661
Song R et al
2021/01/01
-
備考:
Species: Mouse, Applications: ICC/IF -
参照: