mouse monoclonal anti myosin heavy chain mhc antibody (Developmental Studies Hybridoma Bank)
Structured Review

Mouse Monoclonal Anti Myosin Heavy Chain Mhc Antibody, supplied by Developmental Studies Hybridoma Bank, used in various techniques. Bioz Stars score: 96/100, based on 53 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/mhc+isoforms/pmc12891946-243-4-11?v=Developmental+Studies+Hybridoma+Bank
Average 96 stars, based on 53 article reviews
Images
1) Product Images from "Analysis of cranial tenocyte heterogeneity reveals a role for Wnt signaling in tendon attachments"
Article Title: Analysis of cranial tenocyte heterogeneity reveals a role for Wnt signaling in tendon attachments
Journal: Development (Cambridge, England)
doi: 10.1242/dev.205047
Figure Legend Snippet: Subsets of tenocytes are marked by active Wnt signaling during development. (A,F,K) Ventral views of cranial tendons at 48 hpf (A), 53 hpf (F) and 72 hpf (K) in Tg(scxa:mCherry; 7xTCF:GFP) zebrafish embryos immunostained for anti-mCherry (tenocytes, magenta), anti-GFP (Wnt responsive cells, green) and anti-MHC (muscle fibers, blue). (P) Ventral view of is HCR-stained Tg(7xTCF:GFP) 72 hpf embryo showing expression of scxa in tenocytes (magenta), sox9a in cartilage (blue) and co-immunostained with anti-GFP (Wnt responsive, green). (B-D,G-I,L-N,Q-S) Magnified views of region marked by white dotted lines in A,F,K,P, respectively, showing immunofluorescent signal of mCherry and GFP and is HCR expression of scxa , sox9a and IF staining of GFP. (E,J,O,T) Monochrome panel showing tenocytes co-expressing mCherry and GFP, and scxa and GFP. (U-W) Magnified view of region marked by red dotted lines in P showing is HCR expression of scxa , sox9a and IF staining of GFP. (X) Monochrome image showing tenocytes co-expressing scxa and GFP. Scale bars: 20 μm (A,F,K,Q,U); 30 μm (P); 15 μm (G); 10 μm (B,L).
Techniques Used: Staining, Expressing
Figure Legend Snippet: Genetic perturbation of Wnt signaling disrupts muscle attachments and tendon pattern. (A-R) Ventral views of cranial tendons at 48 hpf and 60 hpf Tg(scxa:mCherry) , Tg(scxa:mCherry; hsp70l:dkk1b-GFP) and Tg(scxa:mCherry; hsp70l:dnTCF-GFP) embryos that were heat shocked and immunostained for anti-mCherry (tenocytes), anti-GFP (Wnt responsive cells) and anti-MHC (muscle fibers). Images show muscle attachments in untreated (A,J) and heat-shocked controls (B,K), Tg(scxa:mCherry) and heat-shocked transgenics with perturbed Wnt signaling (D-I, M-R). (C,L) Histograms show distribution of normal, mild and severe muscle attachment defects between control and heat-shocked Tg(scxa:mCherry; hsp70l:dkk1b-GFP) embryos. P -values were calculated using chi-square test of independence. *** P <0.001 (48 hpf, n ≈79; 60 hpf, n ≈76). Scale bars: 30 μm.
Techniques Used: Control


