This is a Validated Antibody Database (VAD) review about human MYH11, based on 18 published articles (read how Labome selects the articles), using MYH11 antibody in all methods. It is aimed to help Labome visitors find the most suited MYH11 antibody. Please note the number of articles fluctuates since newly identified citations are added and citations for discontinued catalog numbers are removed regularly.
MYH11 synonym: AAT4; FAA4; SMHC; SMMHC

Abcam
domestic rabbit monoclonal (SP314)
  • immunohistochemistry; human; 1:100; loading ...; fig 6a
Abcam MYH11 antibody (Abcam, ab224804) was used in immunohistochemistry on human samples at 1:100 (fig 6a). JCI Insight (2021) ncbi
domestic rabbit polyclonal
  • immunocytochemistry; human; 1:500; loading ...; fig 2c
In order to examine if endothelial and smooth muscle cells acquired from post-surgically discarded cardiac tissue can be used in cell replacement therapy, Abcam MYH11 antibody (Abcam, ab82541) was used in immunocytochemistry on human samples at 1:500 (fig 2c). J Transl Med (2017) ncbi
domestic rabbit polyclonal
  • immunocytochemistry; human; loading ...; fig 4b
In order to discuss how the source as well as the culturing conditions affect the properties of smooth muscle cells, Abcam MYH11 antibody (Abcam, ab125884) was used in immunocytochemistry on human samples (fig 4b). Exp Cell Res (2016) ncbi
domestic rabbit monoclonal (EPR5336(B))
  • immunohistochemistry; human; fig 1
Abcam MYH11 antibody (Abcam, ab133567) was used in immunohistochemistry on human samples (fig 1). Circ Heart Fail (2015) ncbi
Santa Cruz Biotechnology
mouse monoclonal (G-4)
  • western blot; rat; 1:1000; loading ...; fig 4b
In order to study the effects of periadventitial delivery of resveratrol on three major pro-restenotic pathologies, Santa Cruz Biotechnology MYH11 antibody (Santa Cruz, sc-6956) was used in western blot on rat samples at 1:1000 (fig 4b). Sci Rep (2017) ncbi
mouse monoclonal (I-5)
  • immunohistochemistry - paraffin section; rat; 1:100; fig 2
Santa Cruz Biotechnology MYH11 antibody (Santa Cruz Biotechnology, sc-65734) was used in immunohistochemistry - paraffin section on rat samples at 1:100 (fig 2). Mol Med Rep (2016) ncbi
mouse monoclonal (G-4)
  • immunohistochemistry - frozen section; rat; 1:100; fig 4
Santa Cruz Biotechnology MYH11 antibody (Santa Cruz, sc-6956) was used in immunohistochemistry - frozen section on rat samples at 1:100 (fig 4). PLoS ONE (2015) ncbi
Invitrogen
mouse monoclonal (SM-M10)
  • immunocytochemistry; human; 1:200; loading ...; fig 2e
Invitrogen MYH11 antibody (Invitrogen, MA511971) was used in immunocytochemistry on human samples at 1:200 (fig 2e). J Clin Med (2020) ncbi
Dako
mouse monoclonal (SMMS-1)
  • immunohistochemistry - frozen section; human; 1:100; loading ...; fig 4a
Dako MYH11 antibody (Dako, M3558) was used in immunohistochemistry - frozen section on human samples at 1:100 (fig 4a). Sci Rep (2021) ncbi
mouse monoclonal (SMMS-1)
  • immunohistochemistry; human; 1:200; loading ...; fig 3
Dako MYH11 antibody (dako, M3558) was used in immunohistochemistry on human samples at 1:200 (fig 3). Dis Markers (2016) ncbi
mouse monoclonal (SMMS-1)
  • immunohistochemistry; human; 1:100
In order to describe the histological features canalicular adenoma, Dako MYH11 antibody (Dako, SMMS-1) was used in immunohistochemistry on human samples at 1:100. Head Neck Pathol (2015) ncbi
MilliporeSigma
mouse monoclonal (hSM-V)
  • immunohistochemistry - frozen section; human; loading ...; fig 5a
MilliporeSigma MYH11 antibody (Sigma-Aldrich, M7786) was used in immunohistochemistry - frozen section on human samples (fig 5a). Cell Tissue Res (2019) ncbi
mouse monoclonal (hSM-V)
  • western blot; mouse; fig 7
In order to characterize the involvement of concerted non-productive splicing of post-transcriptional regulators that involves the alternative splicing program of differentiatied smooth muscle cells, MilliporeSigma MYH11 antibody (Sigma, M7786) was used in western blot on mouse samples (fig 7). Nucleic Acids Res (2016) ncbi
mouse monoclonal (hSM-V)
  • western blot; human; 1:1000; fig 2
MilliporeSigma MYH11 antibody (Sigma, M7786) was used in western blot on human samples at 1:1000 (fig 2). EMBO Mol Med (2016) ncbi
mouse monoclonal (hSM-V)
  • immunocytochemistry; human; 1:1000; fig s4e
MilliporeSigma MYH11 antibody (Sigma, M7786) was used in immunocytochemistry on human samples at 1:1000 (fig s4e). Nature (2016) ncbi
mouse monoclonal (hSM-V)
  • immunocytochemistry; human
MilliporeSigma MYH11 antibody (Sigma-Aldrich, M7786) was used in immunocytochemistry on human samples . Acta Biomater (2014) ncbi
mouse monoclonal (hSM-V)
  • immunocytochemistry; rat
  • western blot; rat
  • flow cytometry; mouse
  • immunocytochemistry; mouse
  • western blot; mouse
  • immunocytochemistry; bovine
  • western blot; bovine
MilliporeSigma MYH11 antibody (Sigma, M7786) was used in immunocytochemistry on rat samples , in western blot on rat samples , in flow cytometry on mouse samples , in immunocytochemistry on mouse samples , in western blot on mouse samples , in immunocytochemistry on bovine samples and in western blot on bovine samples . Cell Tissue Res (2014) ncbi
mouse monoclonal (hSM-V)
  • flow cytometry; rat
  • immunocytochemistry; rat
  • western blot; rat
MilliporeSigma MYH11 antibody (Sigma, M7786) was used in flow cytometry on rat samples , in immunocytochemistry on rat samples and in western blot on rat samples . Vasc Cell (2014) ncbi
Articles Reviewed
  1. Busch A, Pauli J, Winski G, Bleichert S, Chernogubova E, Metschl S, et al. Lenvatinib halts aortic aneurysm growth by restoring smooth muscle cell contractility. JCI Insight. 2021;6: pubmed publisher
  2. Steffensen L, Stubbe J, Lindholt J, Beck H, Overgaard M, Bloksgaard M, et al. Basement membrane collagen IV deficiency promotes abdominal aortic aneurysm formation. Sci Rep. 2021;11:12903 pubmed publisher
  3. Evdokiou A, Kanisicak O, Gierek S, BARRY A, Ivey M, Zhang X, et al. Characterization of Burn Eschar Pericytes. J Clin Med. 2020;9: pubmed publisher
  4. Domke L, Franke W. The cell-cell junctions of mammalian testes: II. The lamellar smooth muscle monolayer cells of the peritubular wall are laterally connected by vertical adherens junctions-a novel architectonic cell-cell junction system. Cell Tissue Res. 2019;375:451-482 pubmed publisher
  5. Zakharova I, Zhiven M, Saaya S, Shevchenko A, Smirnova A, Strunov A, et al. Endothelial and smooth muscle cells derived from human cardiac explants demonstrate angiogenic potential and suitable for design of cell-containing vascular grafts. J Transl Med. 2017;15:54 pubmed publisher
  6. Zhu Y, Takayama T, Wang B, Kent A, Zhang M, Binder B, et al. Restenosis Inhibition and Re-differentiation of TGFβ/Smad3-activated Smooth Muscle Cells by Resveratrol. Sci Rep. 2017;7:41916 pubmed publisher
  7. Llorian M, Gooding C, Bellora N, Hallegger M, Buckroyd A, Wang X, et al. The alternative splicing program of differentiated smooth muscle cells involves concerted non-productive splicing of post-transcriptional regulators. Nucleic Acids Res. 2016;44:8933-8950 pubmed
  8. Chen P, Qin L, Li G, Tellides G, Simons M. Smooth muscle FGF/TGFβ cross talk regulates atherosclerosis progression. EMBO Mol Med. 2016;8:712-28 pubmed publisher
  9. Timraz S, Farhat I, Alhussein G, Christoforou N, Teo J. In-depth evaluation of commercially available human vascular smooth muscle cells phenotype: Implications for vascular tissue engineering. Exp Cell Res. 2016;343:168-176 pubmed publisher
  10. Cheng H, Yang S, Qu Z, Zhou S, Ruan Q. Novel Use for DOG1 in Discriminating Breast Invasive Carcinoma from Noninvasive Breast Lesions. Dis Markers. 2016;2016:5628176 pubmed publisher
  11. Wang X, Chen L, Liu J, Yan T, Wu G, Xia Y, et al. In vivo treatment of rat arterial adventitia with interleukin‑1β induces intimal proliferation via the JAK2/STAT3 signaling pathway. Mol Med Rep. 2016;13:3451-8 pubmed publisher
  12. Fattahi F, Steinbeck J, Kriks S, Tchieu J, Zimmer B, Kishinevsky S, et al. Deriving human ENS lineages for cell therapy and drug discovery in Hirschsprung disease. Nature. 2016;531:105-9 pubmed publisher
  13. Andrade B, Baldanza M, Ribeiro K, Porto A, Peçanha R, Fortes F, et al. Bone marrow mesenchymal cells improve muscle function in a skeletal muscle re-injury model. PLoS ONE. 2015;10:e0127561 pubmed publisher
  14. Okada H, Takemura G, Kanamori H, Tsujimoto A, Goto K, Kawamura I, et al. Phenotype and physiological significance of the endocardial smooth muscle cells in human failing hearts. Circ Heart Fail. 2015;8:149-55 pubmed publisher
  15. Su K, Edwards S, Tan K, White J, Kandel S, Ramshaw J, et al. Induction of endometrial mesenchymal stem cells into tissue-forming cells suitable for fascial repair. Acta Biomater. 2014;10:5012-5020 pubmed publisher
  16. Thompson L, Bauer J, Chiosea S, McHugh J, Seethala R, Miettinen M, et al. Canalicular adenoma: a clinicopathologic and immunohistochemical analysis of 67 cases with a review of the literature. Head Neck Pathol. 2015;9:181-95 pubmed publisher
  17. Kennedy E, Mooney C, Hakimjavadi R, Fitzpatrick E, Guha S, Collins L, et al. Adult vascular smooth muscle cells in culture express neural stem cell markers typical of resident multipotent vascular stem cells. Cell Tissue Res. 2014;358:203-16 pubmed publisher
  18. Kennedy E, Hakimjavadi R, Greene C, Mooney C, Fitzpatrick E, Collins L, et al. Embryonic rat vascular smooth muscle cells revisited - a model for neonatal, neointimal SMC or differentiated vascular stem cells?. Vasc Cell. 2014;6:6 pubmed publisher