TNC Protéine
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- Antigène Voir toutes TNC Protéines
- TNC (Tenascin C (TNC))
- Type de proteíne
- Native
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Origine
- Humain
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Source
- Human
- Specificité
- Plays an active role in the development of the CNS and mesenchymal derived organs. Present in adult tumour vasculature and has functions in cell adhesion.
- Attributs du produit
- Native Human Tenascin C
- Pureté
- SDS PAGE: > 97 %
- Stérilité
- Sterile
- Top Product
- Discover our top product TNC Protéine
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- Préparation des réactifs
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Precipitated, concentrated and dialysed. The product's final concentration is 0.1mg/ml.
- Restrictions
- For Research Use only
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- Format
- Liquid
- Buffer
- Sterile liquid
- Stock
- -20 °C
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- Antigène
- TNC (Tenascin C (TNC))
- Autre désignation
- Tenascin C (TNC Produits)
- Synonymes
- tn Protein, 150-225 Protein, GMEM Protein, GP Protein, HXB Protein, JI Protein, TN Protein, TN-C Protein, AI528729 Protein, C130033P17Rik Protein, Hxb Protein, Ten Protein, cytotactin Protein, tenascin-C Protein, P230 Protein, tenc Protein, wu:fk04d02 Protein, tenascin C L homeolog Protein, tenascin C Protein, tnc.L Protein, TNC Protein, MCYG_00667 Protein, tnc Protein, Tnc Protein
- Sujet
- The Tenascin family of extracellular matrix proteins includes Tenascin (also known as cytotactin or Tenascin-C), Tenascin-R (also designated Restrictin or Janusin) and Tenascin-X. Tenascin proteins function as substrate-adhesion molecules (SAMs) and are involved in regulating numerous developmental processes, such as morphogenetic cell migration and organogenesis. The Tenascin family proteins arise from various splicing events in the region of coding for FNIII repeats. Tenascin and Tenascin-X are expressed in several tissues during embryogenesis, and in adult tissues undergoing active remodeling, such as healing wounds and tumors. Tenascin-R (TN-R) is expressed on the surface of neurons and glial cells.
- Poids moléculaire
- 250 kD by SDS analysis, the protein migrates at around 280-300 kDa.
- Pathways
- Regulation of Muscle Cell Differentiation, Regulation of Cell Size, Skeletal Muscle Fiber Development
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