World Library  
Flag as Inappropriate
Email this Article

TGF beta receptor 1

Article Id: WHEBN0009835661
Reproduction Date:

Title: TGF beta receptor 1  
Author: World Heritage Encyclopedia
Language: English
Subject: TGF beta receptors, TGF beta receptor 2, Erythropoietin receptor, STRAP, Endoglin
Collection: Tgf Beta Receptors
Publisher: World Heritage Encyclopedia
Publication
Date:
 

TGF beta receptor 1

Transforming growth factor, beta receptor 1
PDB rendering based on 1b6c.
Available structures
PDB Ortholog search: PDBe, RCSB
Identifiers
Symbols  ; AAT5; ACVRLK4; ALK-5; ALK5; ESS1; LDS1; LDS1A; LDS2A; MSSE; SKR4; TGFR-1; tbetaR-I
External IDs ChEMBL: GeneCards:
EC number
Orthologs
Species Human Mouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)
RefSeq (protein)
Location (UCSC)
PubMed search

Transforming growth factor, beta receptor I (activin A receptor type II-like kinase, 53kDa) is a TGF beta receptor. TGFBR1 is its human gene.

Contents

  • Function 1
  • Interactions 2
  • Inhibitors 3
  • See also 4
  • References 5
  • Further reading 6
  • External links 7

Function

The protein encoded by this gene forms a heteromeric complex with type II TGF-β receptors when bound to TGF-β, transducing the TGF-β signal from the cell surface to the cytoplasm. The encoded protein is a serine/threonine protein kinase. Mutations in this gene have been associated with Loeys–Dietz aortic aneurysm syndrome (LDS, LDAS).[1]

Interactions

TGF beta receptor 1 has been shown to interact with:

Inhibitors

See also

References

  1. ^ "Entrez Gene: TGFBR1 transforming growth factor, beta receptor I (activin A receptor type II-like kinase, 53kDa)". 
  2. ^ a b Razani B, Zhang XL, Bitzer M, von Gersdorff G, Böttinger EP, Lisanti MP (Mar 2001). "Caveolin-1 regulates transforming growth factor (TGF)-beta/SMAD signaling through an interaction with the TGF-beta type I receptor". The Journal of Biological Chemistry 276 (9): 6727–38.  
  3. ^ Guerrero-Esteo M, Sanchez-Elsner T, Letamendia A, Bernabeu C (Aug 2002). "Extracellular and cytoplasmic domains of endoglin interact with the transforming growth factor-beta receptors I and II". The Journal of Biological Chemistry 277 (32): 29197–209.  
  4. ^ Barbara NP, Wrana JL, Letarte M (Jan 1999). "Endoglin is an accessory protein that interacts with the signaling receptor complex of multiple members of the transforming growth factor-beta superfamily". The Journal of Biological Chemistry 274 (2): 584–94.  
  5. ^ Wang T, Donahoe PK, Zervos AS (Jul 1994). "Specific interaction of type I receptors of the TGF-beta family with the immunophilin FKBP-12". Science 265 (5172): 674–6.  
  6. ^ Liu F, Ventura F, Doody J, Massagué J (Jul 1995). "Human type II receptor for bone morphogenic proteins (BMPs): extension of the two-kinase receptor model to the BMPs". Molecular and Cellular Biology 15 (7): 3479–86.  
  7. ^ Kawabata M, Imamura T, Miyazono K, Engel ME, Moses HL (Dec 1995). "Interaction of the transforming growth factor-beta type I receptor with farnesyl-protein transferase-alpha". The Journal of Biological Chemistry 270 (50): 29628–31.  
  8. ^ Wrighton KH, Lin X, Feng XH (Jul 2008). "Critical regulation of TGFbeta signaling by Hsp90". Proceedings of the National Academy of Sciences of the United States of America 105 (27): 9244–9.  
  9. ^ Mochizuki T, Miyazaki H, Hara T, Furuya T, Imamura T, Watabe T, Miyazono K (Jul 2004). "Roles for the MH2 domain of Smad7 in the specific inhibition of transforming growth factor-beta superfamily signaling". The Journal of Biological Chemistry 279 (30): 31568–74.  
  10. ^ Asano Y, Ihn H, Yamane K, Kubo M, Tamaki K (Jan 2004). "Impaired Smad7-Smurf-mediated negative regulation of TGF-beta signaling in scleroderma fibroblasts". The Journal of Clinical Investigation 113 (2): 253–64.  
  11. ^ Koinuma D, Shinozaki M, Komuro A, Goto K, Saitoh M, Hanyu A, Ebina M, Nukiwa T, Miyazawa K, Imamura T, Miyazono K (Dec 2003). "Arkadia amplifies TGF-beta superfamily signalling through degradation of Smad7". The EMBO Journal 22 (24): 6458–70.  
  12. ^ Kavsak P, Rasmussen RK, Causing CG, Bonni S, Zhu H, Thomsen GH, Wrana JL (Dec 2000). "Smad7 binds to Smurf2 to form an E3 ubiquitin ligase that targets the TGF beta receptor for degradation". Molecular Cell 6 (6): 1365–75.  
  13. ^ Hayashi H, Abdollah S, Qiu Y, Cai J, Xu YY, Grinnell BW, Richardson MA, Topper JN, Gimbrone MA, Wrana JL, Falb D (Jun 1997). "The MAD-related protein Smad7 associates with the TGFbeta receptor and functions as an antagonist of TGFbeta signaling". Cell 89 (7): 1165–73.  
  14. ^ a b Datta PK, Moses HL (May 2000). "STRAP and Smad7 synergize in the inhibition of transforming growth factor beta signaling". Molecular and Cellular Biology 20 (9): 3157–67.  
  15. ^ Griswold-Prenner I, Kamibayashi C, Maruoka EM, Mumby MC, Derynck R (Nov 1998). "Physical and functional interactions between type I transforming growth factor beta receptors and Balpha, a WD-40 repeat subunit of phosphatase 2A". Molecular and Cellular Biology 18 (11): 6595–604.  
  16. ^ Datta PK, Chytil A, Gorska AE, Moses HL (Dec 1998). "Identification of STRAP, a novel WD domain protein in transforming growth factor-beta signaling". The Journal of Biological Chemistry 273 (52): 34671–4.  
  17. ^ Ebner R, Chen RH, Lawler S, Zioncheck T, Derynck R (Nov 1993). "Determination of type I receptor specificity by the type II receptors for TGF-beta or activin". Science 262 (5135): 900–2.  
  18. ^ Oh SP, Seki T, Goss KA, Imamura T, Yi Y, Donahoe PK, Li L, Miyazono K, ten Dijke P, Kim S, Li E (Mar 2000). "Activin receptor-like kinase 1 modulates transforming growth factor-beta 1 signaling in the regulation of angiogenesis". Proceedings of the National Academy of Sciences of the United States of America 97 (6): 2626–31.  
  19. ^ Kawabata M, Chytil A, Moses HL (Mar 1995). "Cloning of a novel type II serine/threonine kinase receptor through interaction with the type I transforming growth factor-beta receptor". The Journal of Biological Chemistry 270 (10): 5625–30.  

Further reading

  • Massagué J (Jun 1992). "Receptors for the TGF-beta family". Cell 69 (7): 1067–70.  
  • Wrana JL (1998). "TGF-beta receptors and signalling mechanisms". Mineral and Electrolyte Metabolism 24 (2-3): 120–30.  
  • Josso N, di Clemente N, Gouédard L (Jun 2001). "Anti-Müllerian hormone and its receptors". Molecular and Cellular Endocrinology 179 (1-2): 25–32.  

External links

  • GeneReviews/NIH/NCBI/UW entry on Thoracic Aortic Aneurysms and Aortic Dissections
  • GeneReviews/NCBI/NIH/UW entry on Loeys-Dietz Syndrome


This article was sourced from Creative Commons Attribution-ShareAlike License; additional terms may apply. World Heritage Encyclopedia content is assembled from numerous content providers, Open Access Publishing, and in compliance with The Fair Access to Science and Technology Research Act (FASTR), Wikimedia Foundation, Inc., Public Library of Science, The Encyclopedia of Life, Open Book Publishers (OBP), PubMed, U.S. National Library of Medicine, National Center for Biotechnology Information, U.S. National Library of Medicine, National Institutes of Health (NIH), U.S. Department of Health & Human Services, and USA.gov, which sources content from all federal, state, local, tribal, and territorial government publication portals (.gov, .mil, .edu). Funding for USA.gov and content contributors is made possible from the U.S. Congress, E-Government Act of 2002.
 
Crowd sourced content that is contributed to World Heritage Encyclopedia is peer reviewed and edited by our editorial staff to ensure quality scholarly research articles.
 
By using this site, you agree to the Terms of Use and Privacy Policy. World Heritage Encyclopedia™ is a registered trademark of the World Public Library Association, a non-profit organization.
 


Copyright © World Library Foundation. All rights reserved. eBooks from Project Gutenberg are sponsored by the World Library Foundation,
a 501c(4) Member's Support Non-Profit Organization, and is NOT affiliated with any governmental agency or department.