Misplaced Pages

Transthyretin

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
(Redirected from Thyroxine binding prealbumin) Serum protein related to amyloid diseases
TTR
Available structures
PDBOrtholog search: PDBe RCSB
List of PDB id codes

1BM7, 1BMZ, 1BZ8, 1BZD, 1BZE, 1DVQ, 1DVS, 1DVT, 1DVU, 1DVX, 1DVY, 1DVZ, 1E3F, 1E4H, 1E5A, 1ETA, 1ETB, 1F41, 1F86, 1FH2, 1FHN, 1G1O, 1GKO, 1ICT, 1III, 1IIK, 1IJN, 1QAB, 1QWH, 1RLB, 1SOK, 1SOQ, 1THA, 1THC, 1TLM, 1TSH, 1TT6, 1TTA, 1TTB, 1TTC, 1TTR, 1TYR, 1TZ8, 1U21, 1X7S, 1X7T, 1Y1D, 1Z7J, 1ZCR, 1ZD6, 2B14, 2B15, 2B16, 2B77, 2B9A, 2F7I, 2F8I, 2FBR, 2FLM, 2G3X, 2G3Z, 2G4E, 2G4G, 2G5U, 2G9K, 2GAB, 2H4E, 2M5N, 2NOY, 2PAB, 2QEL, 2QGB, 2QGC, 2QGD, 2QGE, 2ROX, 2ROY, 2TRH, 2TRY, 2WQA, 3A4D, 3A4E, 3A4F, 3B56, 3BSZ, 3BT0, 3CBR, 3CFM, 3CFN, 3CFQ, 3CFT, 3CN0, 3CN1, 3CN2, 3CN3, 3CN4, 3CXF, 3D7P, 3DGD, 3DID, 3DJR, 3DJS, 3DJT, 3DJZ, 3DK0, 3DK2, 3DO4, 3ESN, 3ESO, 3ESP, 3FC8, 3FCB, 3GLZ, 3GPS, 3GRB, 3GRG, 3GS0, 3GS4, 3GS7, 3HJ0, 3I9A, 3I9I, 3IPB, 3IPE, 3KGS, 3KGT, 3KGU, 3M1O, 3NEO, 3NES, 3NEX, 3NG5, 3OZK, 3OZL, 3SSG, 3TCT, 3TFB, 3U2I, 3U2J, 3W3B, 4ABQ, 4ABU, 4ABV, 4ABW, 4AC2, 4AC4, 4ACT, 4ANK, 4DER, 4DES, 4DET, 4DEU, 4DEW, 4FI6, 4FI7, 4FI8, 4HIQ, 4HIS, 4IIZ, 4IK6, 4IK7, 4IKI, 4IKJ, 4IKK, 4IKL, 5TTR, 3D2T, 3I9P, 3IMR, 3IMS, 3IMT, 3IMU, 3IMV, 3IMW, 3NEE, 3P3R, 3P3S, 3P3T, 3P3U, 4HJS, 4HJT, 4HJU, 4I85, 4I87, 4I89, 4KY2, 4L1S, 4L1T, 4MAS, 4MRB, 4MRC, 4N85, 4N86, 4N87, 4PM1, 4PME, 4PMF, 4PVL, 4PVM, 4PVN, 4PWE, 4PWF, 4PWG, 4PWH, 4PWI, 4PWJ, 4PWK, 4QRF, 4QXV, 4QYA, 4TQ8, 4TQH, 4TQI, 4TQP, 4WNJ, 4WNS, 4WO0, 4YDM, 4YDN, 5BOJ, 4Y9B, 4Y9C, 4Y9E, 4Y9F, 4Y9G, 4TKW, 4TL4, 4TL5, 4TLK, 4TLS, 4TLT, 4TM9, 4TNE, 5AKS, 5AKT, 5AKV, 5AL0, 5AL8, 5CR1, 4TNF, 4TLU, 5AYT, 4TNG, 5EZP, 4D7B, 5A6I, 5E23, 5CNH, 5E4O, 5CN3, 5EN3, 5DWP, 5K1J, 5E4A, 5HJG, 5IHH

Identifiers
AliasesTTR, CTS, CTS1, HEL111, HsT2651, PALB, TBPA, transthyretin, ATTN
External IDsOMIM: 176300; MGI: 98865; HomoloGene: 317; GeneCards: TTR; OMA:TTR - orthologs
Gene location (Human)
Chromosome 18 (human)
Chr.Chromosome 18 (human)
Chromosome 18 (human)Genomic location for TTRGenomic location for TTR
Band18q12.1Start31,557,009 bp
End31,598,833 bp
Gene location (Mouse)
Chromosome 18 (mouse)
Chr.Chromosome 18 (mouse)
Chromosome 18 (mouse)Genomic location for TTRGenomic location for TTR
Band18 A2|18 11.47 cMStart20,798,337 bp
End20,807,378 bp
RNA expression pattern
Bgee
HumanMouse (ortholog)
Top expressed in
  • Epithelium of choroid plexus

  • beta cell

  • right lobe of liver

  • retinal pigment epithelium

  • body of pancreas

  • gallbladder

  • corpus callosum

  • gonad

  • C1 segment

  • Hypothalamus
Top expressed in
  • Epithelium of choroid plexus

  • habenula

  • left lobe of liver

  • ciliary body

  • retinal pigment epithelium

  • choroid plexus of fourth ventricle

  • human fetus

  • vestibular membrane of cochlear duct

  • sexually immature organism

  • vestibular sensory epithelium
More reference expression data
BioGPS
More reference expression data
Gene ontology
Molecular function
Cellular component
Biological process
Sources:Amigo / QuickGO
Orthologs
SpeciesHumanMouse
Entrez

7276

22139

Ensembl

ENSG00000118271

ENSMUSG00000061808

UniProt

P02766

P07309

RefSeq (mRNA)

NM_000371

NM_013697

RefSeq (protein)

NP_000362

NP_038725

Location (UCSC)Chr 18: 31.56 – 31.6 MbChr 18: 20.8 – 20.81 Mb
PubMed search
Wikidata
View/Edit HumanView/Edit Mouse

Transthyretin (TTR or TBPA) is a transport protein in the plasma and cerebrospinal fluid that transports the thyroid hormone thyroxine (T4) and retinol to the liver. This is how transthyretin gained its name: transports thyroxine and retinol. The liver secretes TTR into the blood, and the choroid plexus secretes TTR into the cerebrospinal fluid.

TTR was originally called prealbumin (or thyroxine-binding prealbumin) because it migrated faster than albumin on electrophoresis gels. Prealbumin was felt to be a misleading name, it is not a synthetic precursor of albumin. The alternative name TTR was proposed by DeWitt Goodman in 1981.

Transthyretin protein is encoded by the TTR gene located on the 18th chromosome.

Binding affinities

It functions in concert with two other thyroid hormone-binding proteins in the serum:

Protein Binding strength Plasma concentration
thyroxine-binding globulin (TBG) highest lowest
transthyretin (TTR or TBPA) lower higher
albumin poorest much higher

In cerebrospinal fluid TTR is the primary carrier of T4. TTR also acts as a carrier of retinol (vitamin A) through its association with retinol-binding protein (RBP) in the blood and the CSF. Less than 1% of TTR's T4 binding sites are occupied in blood, which is taken advantage of below to prevent TTRs dissociation, misfolding and aggregation which leads to the degeneration of post-mitotic tissue.

Numerous other small molecules are known to bind in the thyroxine binding sites, including many natural products (such as resveratrol), drugs (tafamidis, diflunisal, and flufenamic acid), and toxicants (PCB).

Structure

TTR is a 55kDa homotetramer with a dimer of dimers quaternary structure that is synthesized in the liver, choroid plexus and retinal pigment epithelium for secretion into the bloodstream, cerebrospinal fluid and the eye, respectively. Each monomer is a 127-residue polypeptide rich in beta sheet structure. Association of two monomers via their edge beta-strands forms an extended beta sandwich. Further association of two of these dimers in a face-to-face fashion produces the homotetrameric structure and creates the two thyroxine binding sites per tetramer. This dimer-dimer interface, comprising the two T4 binding sites, is the weaker dimer-dimer interface and is the one that comes apart first in the process of tetramer dissociation.

Role in disease

TTR misfolding and aggregation is known to be associated with amyloid diseases including wild-type transthyretin amyloidosis, hereditary transthyretin amyloidosis, familial amyloid polyneuropathy (FAP), and familial amyloid cardiomyopathy (FAC).

TTR tetramer dissociation is known to be rate-limiting for amyloid fibril formation. However, the monomer also must partially denature in order for TTR to be mis-assembly competent, leading to a variety of aggregate structures, including amyloid fibrils.

At least 114 disease-causing mutations in this gene have been discovered. While wild type TTR can dissociate, misfold, and aggregate, leading to SSA (senile systemic amyloidosis), point mutations within TTR are known to destabilize the tetramer composed of mutant and wild-type TTR subunits, facilitating more facile dissociation and/or misfolding and amyloidogenesis. A replacement of valine by methionine at position 30 (TTR V30M) is the mutation most commonly associated with FAP. A position 122 replacement of valine by isoleucine (TTR V122I) is carried by 3.9% of the African-American population, and is the most common cause of FAC. SSA is estimated to affect over 25% of the population over age 80. Severity of disease varies greatly by mutation, with some mutations causing disease in the first or second decade of life, and others being more benign. Deposition of TTR amyloid is generally observed extracellularly, although TTR deposits are also clearly observed within the cardiomyocytes of the heart.

Treatment of familial (hereditary) TTR amyloid disease has historically relied on liver transplantation as a crude form of gene therapy. Because TTR is primarily produced in the liver, replacement of a liver containing a mutant TTR gene with a normal gene is able to reduce the mutant TTR levels in the body to < 5% of pretransplant levels. Certain mutations, however, cause CNS amyloidosis, and due to their production by the choroid plexus, the CNS TTR amyloid diseases do not respond to gene therapy mediated by liver transplantation.

In 2011, the European Medicines Agency approved tafamidis (Vyndaqel) for the amelioration of FAP. Tafamidis kinetically stabilizes the TTR tetramer, preventing tetramer dissociation required for TTR amyloidogenesis and degradation of the autonomic nervous system and/or the peripheral nervous system and/or the heart.

TTR is also thought to have beneficial side effects, by binding to the infamous beta-amyloid protein, thereby preventing beta-amyloid's natural tendency to accumulate into the plaques associated with the early stages of Alzheimer's disease. Preventing plaque formation is thought to enable a cell to rid itself of this otherwise toxic protein form and, thus, help prevent and maybe even treat the disease.

There is now strong genetic and pharmacologic data (see European Medicines Agency website for the tafamidis clinical trial results) indicating that the process of amyloid fibril formation leads to the degeneration of post-mitotic tissue causing FAP and likely FAC and SSA. Evidence points to the oligomers generated in the process of amyloidogenicity leading to the observed proteotoxicity.

Transthyretin level in cerebrospinal fluid has also been found to be lower in patients with some neurobiological disorders such as schizophrenia. The reduced level of transthyretin in the CSF may indicate a lower thyroxine transport in brains of patients with schizophrenia.

Transthyretin is known to contain a Gla domain, and thus be dependent for production on post-translational modification requiring vitamin K, but the potential link between vitamin k status and thyroid function has not been explored.

Because transthyretin is made in part by the choroid plexus, it can be used as an immunohistochemical marker for choroid plexus papillomas as well as carcinomas.

As of March 2015, there are two ongoing clinical trials undergoing recruitment in the United States and worldwide to evaluate potential treatments for TTR amyloidosis.

Interactions

Transthyretin has been shown to interact with perlecan.

References

  1. ^ GRCh38: Ensembl release 89: ENSG00000118271Ensembl, May 2017
  2. ^ GRCm38: Ensembl release 89: ENSMUSG00000061808Ensembl, May 2017
  3. "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. Prealbumin at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
  6. ^ Razavi H, Palaninathan SK, Powers ET, Wiseman RL, Purkey HE, Mohamedmohaideen NN, Deechongkit S, Chiang KP, Dendle MT, Sacchettini JC, Kelly JW (June 2003). "Benzoxazoles as transthyretin amyloid fibril inhibitors: synthesis, evaluation, and mechanism of action". Angew. Chem. Int. Ed. Engl. 42 (24): 2758–61. doi:10.1002/anie.200351179. PMID 12820260.
  7. Sekijima Y, Dendle MA, Kelly JW (December 2006). "Orally administered diflunisal stabilizes transthyretin against dissociation required for amyloidogenesis". Amyloid. 13 (4): 236–49. doi:10.1080/13506120600960882. PMID 17107884. S2CID 32736564.
  8. Adamski-Werner SL, Palaninathan SK, Sacchettini JC, Kelly JW (January 2004). "Diflunisal analogues stabilize the native state of transthyretin. Potent inhibition of amyloidogenesis". J. Med. Chem. 47 (2): 355–74. doi:10.1021/jm030347n. PMID 14711308.
  9. Vilaro M, Arsequell G, Valencia G, Ballesteros A, Barluenga J, Nieto J, Planas A, Almeida R, Saraiva MJ (2007). "Reengineering TTR amyloid inhibition properties of diflunisal". In Seldin DC, Skinner M, Berk JL, Connors LH (eds.). XIth International Symposium on Amyloidosis. Boca Raton: CRC. pp. 205–207. doi:10.1201/9781420043358.ch69 (inactive 2024-11-12). ISBN 978-1-4200-4281-8.{{cite book}}: CS1 maint: DOI inactive as of November 2024 (link)
  10. Baures PW, Oza VB, Peterson SA, Kelly JW (July 1999). "Synthesis and evaluation of inhibitors of transthyretin amyloid formation based on the non-steroidal anti-inflammatory drug, flufenamic acid". Bioorg. Med. Chem. 7 (7): 1339–47. doi:10.1016/S0968-0896(99)00066-8. PMID 10465408.
  11. Purkey HE, Palaninathan SK, Kent KC, Smith C, Safe SH, Sacchettini JC, Kelly JW (December 2004). "Hydroxylated polychlorinated biphenyls selectively bind transthyretin in blood and inhibit amyloidogenesis: rationalizing rodent PCB toxicity". Chem. Biol. 11 (12): 1719–28. doi:10.1016/j.chembiol.2004.10.009. PMID 15610856.
  12. Foss TR, Wiseman RL, Kelly JW (November 2005). "The pathway by which the tetrameric protein transthyretin dissociates". Biochemistry. 44 (47): 15525–33. doi:10.1021/bi051608t. PMID 16300401.
  13. Zeldenrust SR, Benson MD (2010). "Familial and senile amyloidosis caused by transthyretin". In Ramirez-Alvarado M, Kelly JW, Dobson C (eds.). Protein misfolding diseases: current and emerging principles and therapies. New York: Wiley. pp. 795–815. doi:10.1002/9780470572702.ch36. ISBN 978-0-471-79928-3.
  14. ^ Westermark P, Sletten K, Johansson B, Cornwell GG (April 1990). "Fibril in senile systemic amyloidosis is derived from normal transthyretin". Proc. Natl. Acad. Sci. U.S.A. 87 (7): 2843–5. Bibcode:1990PNAS...87.2843W. doi:10.1073/pnas.87.7.2843. PMC 53787. PMID 2320592.
  15. "Familial amyloid polyneuropathy", Misplaced Pages, 2021-11-02, retrieved 2021-12-05
  16. Andrade C (September 1952). "A peculiar form of peripheral neuropathy; familiar atypical generalized amyloidosis with special involvement of the peripheral nerves". Brain. 75 (3): 408–27. doi:10.1093/brain/75.3.408. PMID 12978172.
  17. Coelho T (October 1996). "Familial amyloid polyneuropathy: new developments in genetics and treatment". Curr. Opin. Neurol. 9 (5): 355–9. doi:10.1097/00019052-199610000-00007. PMID 8894411. S2CID 43007619.
  18. ^ Jacobson DR, Pastore RD, Yaghoubian R, Kane I, Gallo G, Buck FS, Buxbaum JN (February 1997). "Variant-sequence transthyretin (isoleucine 122) in late-onset cardiac amyloidosis in black Americans". N. Engl. J. Med. 336 (7): 466–73. doi:10.1056/NEJM199702133360703. PMID 9017939.
  19. Colon W, Kelly JW (September 1992). "Partial denaturation of transthyretin is sufficient for amyloid fibril formation in vitro". Biochemistry. 31 (36): 8654–60. doi:10.1021/bi00151a036. PMID 1390650.
  20. Lai Z, Colón W, Kelly JW (May 1996). "The acid-mediated denaturation pathway of transthyretin yields a conformational intermediate that can self-assemble into amyloid". Biochemistry. 35 (20): 6470–82. doi:10.1021/bi952501g. PMID 8639594.
  21. ^ Hammarström P, Wiseman RL, Powers ET, Kelly JW (January 2003). "Prevention of transthyretin amyloid disease by changing protein misfolding energetics". Science. 299 (5607): 713–6. Bibcode:2003Sci...299..713H. doi:10.1126/science.1079589. PMID 12560553. S2CID 30829998.
  22. Jiang X, Smith CS, Petrassi HM, Hammarström P, White JT, Sacchettini JC, Kelly JW (September 2001). "An engineered transthyretin monomer that is nonamyloidogenic, unless it is partially denatured". Biochemistry. 40 (38): 11442–52. doi:10.1021/bi011194d. PMID 11560492.
  23. Šimčíková D, Heneberg P (December 2019). "Refinement of evolutionary medicine predictions based on clinical evidence for the manifestations of Mendelian diseases". Scientific Reports. 9 (1): 18577. Bibcode:2019NatSR...918577S. doi:10.1038/s41598-019-54976-4. PMC 6901466. PMID 31819097.
  24. Sekijima Y, Wiseman RL, Matteson J, Hammarström P, Miller SR, Sawkar AR, Balch WE, Kelly JW (April 2005). "The biological and chemical basis for tissue-selective amyloid disease". Cell. 121 (1): 73–85. doi:10.1016/j.cell.2005.01.018. PMID 15820680. S2CID 12503292.
  25. Saraiva MJ (1995). "Transthyretin mutations in health and disease". Hum. Mutat. 5 (3): 191–6. doi:10.1002/humu.1380050302. PMID 7599630. S2CID 10124222.
  26. Holmgren G, Ericzon BG, Groth CG, Steen L, Suhr O, Andersen O, Wallin BG, Seymour A, Richardson S, Hawkins PN (May 1993). "Clinical improvement and amyloid regression after liver transplantation in hereditary transthyretin amyloidosis". Lancet. 341 (8853): 1113–6. doi:10.1016/0140-6736(93)93127-m. PMID 8097803. S2CID 26093858.
  27. Ando Y, Suhr OB (December 1998). "Autonomic dysfunction in familial amyloidotic polyneuropathy (FAP)". Amyloid. 5 (4): 288–300. doi:10.3109/13506129809007303. PMID 10036588.
  28. Li X, Buxbaum JN (2011). "Transthyretin and the brain re-visited: is neuronal synthesis of transthyretin protective in Alzheimer's disease?". Mol Neurodegener. 6 (1): 79. doi:10.1186/1750-1326-6-79. PMC 3267701. PMID 22112803.
  29. Coelho, T., Carvalho, M., Saraiva, M.J., Alves, I., Almeida, M.R., and Costa, P.P. (1993). A strikingly benign evolution of FAP in an individual found to be a compound heterozygote for two TTR mutations: TTR MET 30 and TTR MET 119. J Rheumatol 20, 179.
  30. Hammarström P, Schneider F, Kelly JW (September 2001). "Trans-suppression of misfolding in an amyloid disease". Science. 293 (5539): 2459–62. Bibcode:2001Sci...293.2459H. doi:10.1126/science.1062245. PMID 11577236. S2CID 39689656.
  31. Sousa MM, Cardoso I, Fernandes R, Guimarães A, Saraiva MJ (December 2001). "Deposition of transthyretin in early stages of familial amyloidotic polyneuropathy: evidence for toxicity of nonfibrillar aggregates". Am. J. Pathol. 159 (6): 1993–2000. doi:10.1016/s0002-9440(10)63050-7. PMC 1850610. PMID 11733349.
  32. Reixach N, Deechongkit S, Jiang X, Kelly JW, Buxbaum JN (March 2004). "Tissue damage in the amyloidoses: Transthyretin monomers and nonnative oligomers are the major cytotoxic species in tissue culture". Proc. Natl. Acad. Sci. U.S.A. 101 (9): 2817–22. Bibcode:2004PNAS..101.2817R. doi:10.1073/pnas.0400062101. PMC 365703. PMID 14981241.
  33. Huang JT, Leweke FM, Oxley D, Wang L, Harris N, Koethe D, Gerth CW, Nolden BM, Gross S, Schreiber D, Reed B, Bahn S (November 2006). "Disease biomarkers in cerebrospinal fluid of patients with first-onset psychosis". PLOS Med. 3 (11): e428. doi:10.1371/journal.pmed.0030428. PMC 1630717. PMID 17090210.
  34. Clinical trial number NCT01960348 for "APOLLO: The Study of an Investigational Drug, Patisiran (ALN-TTR02), for the Treatment of Transthyretin (TTR)-Mediated Amyloidosis" at ClinicalTrials.gov
  35. Smeland S, Kolset SO, Lyon M, Norum KR, Blomhoff R (September 1997). "Binding of perlecan to transthyretin in vitro". Biochem. J. 326 (3): 829–36. doi:10.1042/bj3260829. PMC 1218739. PMID 9307034.

Further reading

External links

PDB gallery
  • 1bm7: HUMAN TRANSTHYRETIN (PREALBUMIN) COMPLEX WITH FLUFENAMIC ACID (2-3-(TRIFLUOROMETHYL)PHENYL AMINO BENZOIC ACID) 1bm7: HUMAN TRANSTHYRETIN (PREALBUMIN) COMPLEX WITH FLUFENAMIC ACID (2-3-(TRIFLUOROMETHYL)PHENYL AMINO BENZOIC ACID)
  • 1bmz: HUMAN TRANSTHYRETIN (PREALBUMIN) 1bmz: HUMAN TRANSTHYRETIN (PREALBUMIN)
  • 1bz8: TRANSTHYRETIN (DEL VAL122) 1bz8: TRANSTHYRETIN (DEL VAL122)
  • 1bzd: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION 1bzd: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION
  • 1bze: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION 1bze: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION
  • 1dvq: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN 1dvq: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN
  • 1dvs: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH RESVERATROL 1dvs: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH RESVERATROL
  • 1dvt: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH FLURBIPROFEN 1dvt: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH FLURBIPROFEN
  • 1dvu: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH DIBENZOFURAN-4,6-DICARBOXYLIC ACID 1dvu: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH DIBENZOFURAN-4,6-DICARBOXYLIC ACID
  • 1dvx: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH DICLOFENAC 1dvx: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH DICLOFENAC
  • 1dvy: CRYSTAL STRUCTURE OF TRANSTHYRETIN IN COMPLEX WITH N-(M-TRIFLUOROMETHYLPHENYL) PHENOXAZINE-4,6-DICARBOXYLIC ACID 1dvy: CRYSTAL STRUCTURE OF TRANSTHYRETIN IN COMPLEX WITH N-(M-TRIFLUOROMETHYLPHENYL) PHENOXAZINE-4,6-DICARBOXYLIC ACID
  • 1dvz: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH O-TRIFLUOROMETHYLPHENYL ANTHRANILIC ACID 1dvz: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN IN COMPLEX WITH O-TRIFLUOROMETHYLPHENYL ANTHRANILIC ACID
  • 1e3f: STRUCTURE OF HUMAN TRANSTHYRETIN COMPLEXED WITH BROMOPHENOLS: A NEW MODE OF BINDING 1e3f: STRUCTURE OF HUMAN TRANSTHYRETIN COMPLEXED WITH BROMOPHENOLS: A NEW MODE OF BINDING
  • 1e4h: STRUCTURE OF HUMAN TRANSTHYRETIN COMPLEXED WITH BROMOPHENOLS: A NEW MODE OF BINDING 1e4h: STRUCTURE OF HUMAN TRANSTHYRETIN COMPLEXED WITH BROMOPHENOLS: A NEW MODE OF BINDING
  • 1e5a: STRUCTURE OF HUMAN TRANSTHYRETIN COMPLEXED WITH BROMOPHENOLS: A NEW MODE OF BINDING 1e5a: STRUCTURE OF HUMAN TRANSTHYRETIN COMPLEXED WITH BROMOPHENOLS: A NEW MODE OF BINDING
  • 1eta: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL 30-->MET VARIANT TO 1.7 ANGSTROMS RESOLUTION 1eta: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL 30-->MET VARIANT TO 1.7 ANGSTROMS RESOLUTION
  • 1etb: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL 30-->MET VARIANT TO 1.7 ANGSTROMS RESOLUTION 1etb: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL 30-->MET VARIANT TO 1.7 ANGSTROMS RESOLUTION
  • 1f41: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN AT 1.5A RESOLUTION 1f41: CRYSTAL STRUCTURE OF HUMAN TRANSTHYRETIN AT 1.5A RESOLUTION
  • 1f86: TRANSTHYRETIN THR119MET PROTEIN STABILISATION 1f86: TRANSTHYRETIN THR119MET PROTEIN STABILISATION
  • 1fh2: TRANSTHYRETIN STABILITY AS A KEY FACTOR IN AMYLOIDOGENESIS 1fh2: TRANSTHYRETIN STABILITY AS A KEY FACTOR IN AMYLOIDOGENESIS
  • 1fhn: TRANSTHYRETIN STABILITY AS A KEY FACTOR IN AMYLOIDOGENESIS 1fhn: TRANSTHYRETIN STABILITY AS A KEY FACTOR IN AMYLOIDOGENESIS
  • 1g1o: CRYSTAL STRUCTURE OF THE HIGHLY AMYLOIDOGENIC TRANSTHYRETIN MUTANT TTR G53S/E54D/L55S 1g1o: CRYSTAL STRUCTURE OF THE HIGHLY AMYLOIDOGENIC TRANSTHYRETIN MUTANT TTR G53S/E54D/L55S
  • 1gko: AN ENGINEERED TRANSTHYRETIN MONOMER THAT IS NON-AMYLOIDOGENIC - UNLESS PARTIALLY DENATURED 1gko: AN ENGINEERED TRANSTHYRETIN MONOMER THAT IS NON-AMYLOIDOGENIC - UNLESS PARTIALLY DENATURED
  • 1ict: MONOCLINIC FORM OF HUMAN TRANSTHYRETIN COMPLEXED WITH THYROXINE (T4) 1ict: MONOCLINIC FORM OF HUMAN TRANSTHYRETIN COMPLEXED WITH THYROXINE (T4)
  • 1iii: CRYSTAL STRUCTURE OF THE TRANSTHYRETIN MUTANT TTR Y114C-DATA COLLECTED AT ROOM TEMPERATURE 1iii: CRYSTAL STRUCTURE OF THE TRANSTHYRETIN MUTANT TTR Y114C-DATA COLLECTED AT ROOM TEMPERATURE
  • 1iik: CRYSTAL STRUCTURE OF THE TRANSTHYRETIN MUTANT TTR Y114C-DATA COLLECTED AT CRYO TEMPERATURE 1iik: CRYSTAL STRUCTURE OF THE TRANSTHYRETIN MUTANT TTR Y114C-DATA COLLECTED AT CRYO TEMPERATURE
  • 1ijn: Crystal structure of the transthyretin mutant TTR C10A/Y114C 1ijn: Crystal structure of the transthyretin mutant TTR C10A/Y114C
  • 1qab: The structure of human retinol binding protein with its carrier protein transthyretin reveals interaction with the carboxy terminus of RBP 1qab: The structure of human retinol binding protein with its carrier protein transthyretin reveals interaction with the carboxy terminus of RBP
  • 1qwh: a covalent dimer of transthyretin that affects the amyloid pathway 1qwh: a covalent dimer of transthyretin that affects the amyloid pathway
  • 1rlb: RETINOL BINDING PROTEIN COMPLEXED WITH TRANSTHYRETIN 1rlb: RETINOL BINDING PROTEIN COMPLEXED WITH TRANSTHYRETIN
  • 1sok: Crystal structure of the transthyretin mutant A108Y/L110E solved in space group p21212 1sok: Crystal structure of the transthyretin mutant A108Y/L110E solved in space group p21212
  • 1soq: Crystal structure of the transthyretin mutant A108Y/L110E solved in space group C2 1soq: Crystal structure of the transthyretin mutant A108Y/L110E solved in space group C2
  • 1tha: MECHANISM OF MOLECULAR RECOGNITION. STRUCTURAL ASPECTS OF 3,3'-DIIODO-L-THYRONINE BINDING TO HUMAN SERUM TRANSTHYRETIN 1tha: MECHANISM OF MOLECULAR RECOGNITION. STRUCTURAL ASPECTS OF 3,3'-DIIODO-L-THYRONINE BINDING TO HUMAN SERUM TRANSTHYRETIN
  • 1thc: CRYSTAL STRUCTURE DETERMINATION AT 2.3A OF HUMAN TRANSTHYRETIN-3',5'-DIBROMO-2',4,4',6-TETRA-HYDROXYAURONE COMPLEX 1thc: CRYSTAL STRUCTURE DETERMINATION AT 2.3A OF HUMAN TRANSTHYRETIN-3',5'-DIBROMO-2',4,4',6-TETRA-HYDROXYAURONE COMPLEX
  • 1tlm: STRUCTURAL ASPECTS OF INOTROPIC BIPYRIDINE BINDING: CRYSTAL STRUCTURE DETERMINATION TO 1.9 ANGSTROMS OF THE HUMAN SERUM TRANSTHYRETIN-MILRINONE COMPLEX 1tlm: STRUCTURAL ASPECTS OF INOTROPIC BIPYRIDINE BINDING: CRYSTAL STRUCTURE DETERMINATION TO 1.9 ANGSTROMS OF THE HUMAN SERUM TRANSTHYRETIN-MILRINONE COMPLEX
  • 1tsh: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION 1tsh: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION
  • 1tt6: The orthorhombic crystal structure of transthyretin in complex with diethylstilbestrol 1tt6: The orthorhombic crystal structure of transthyretin in complex with diethylstilbestrol
  • 1tta: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL30MET VARIANT TO 1.7 ANGSTROMS RESOLUTION 1tta: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL30MET VARIANT TO 1.7 ANGSTROMS RESOLUTION
  • 1ttb: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL30MET VARIANT TO 1.7 ANGSTROMS RESOLUTION 1ttb: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL30MET VARIANT TO 1.7 ANGSTROMS RESOLUTION
  • 1ttc: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL30MET VARIANT TO 1.7 ANGSTROMS RESOLUTION 1ttc: THE X-RAY CRYSTAL STRUCTURE REFINEMENTS OF NORMAL HUMAN TRANSTHYRETIN AND THE AMYLOIDOGENIC VAL30MET VARIANT TO 1.7 ANGSTROMS RESOLUTION
  • 1ttr: TRANSTHYRETIN-V/122/I CARDIOMYOPATHIC MUTANT 1ttr: TRANSTHYRETIN-V/122/I CARDIOMYOPATHIC MUTANT
  • 1tyr: TRANSTHYRETIN COMPLEX WITH RETINOIC ACID 1tyr: TRANSTHYRETIN COMPLEX WITH RETINOIC ACID
  • 1tz8: The monoclinic crystal structure of transthyretin in complex with diethylstilbestrol 1tz8: The monoclinic crystal structure of transthyretin in complex with diethylstilbestrol
  • 1u21: transthyretin with tethered inhibitor on one monomer. 1u21: transthyretin with tethered inhibitor on one monomer.
  • 1x7s: The X-ray crystallographic structure of the amyloidogenic variant TTR Tyr78Phe 1x7s: The X-ray crystallographic structure of the amyloidogenic variant TTR Tyr78Phe
  • 1x7t: Structure of TTR R104H: a non-amyloidogenic variant with protective clinical effects 1x7t: Structure of TTR R104H: a non-amyloidogenic variant with protective clinical effects
  • 1y1d: Crystal structure of transthyretin in complex with iododiflunisal 1y1d: Crystal structure of transthyretin in complex with iododiflunisal
  • 1z7j: Human transthyretin (also called prealbumin) complex with 3, 3',5,5'-tetraiodothyroacetic acid (t4ac) 1z7j: Human transthyretin (also called prealbumin) complex with 3, 3',5,5'-tetraiodothyroacetic acid (t4ac)
  • 1zcr: Crystal structure of human Transthyretin with bound iodide 1zcr: Crystal structure of human Transthyretin with bound iodide
  • 1zd6: Crystal structure of human transthyretin with bound chloride 1zd6: Crystal structure of human transthyretin with bound chloride
  • 2b14: The crystal structure of 2,4-dinitrophenol in complex with the amyloidogenic variant Transthyretin Leu 55 Pro 2b14: The crystal structure of 2,4-dinitrophenol in complex with the amyloidogenic variant Transthyretin Leu 55 Pro
  • 2b15: The crystal structure of 2,4-dinitrophenol in complex with human transthyretin 2b15: The crystal structure of 2,4-dinitrophenol in complex with human transthyretin
  • 2b16: The crystal structure of 2,4-dinitrophenol in complex with the amyloidogenic variant Transthyretin Tyr78Phe 2b16: The crystal structure of 2,4-dinitrophenol in complex with the amyloidogenic variant Transthyretin Tyr78Phe
  • 2b77: Human transthyretin (TTR) complexed with Diflunisal analogues- TTR.2',4'-DICHLORO-4-HYDROXY-1,1'-BIPHENYL-3-CARBOXYLIC ACID 2b77: Human transthyretin (TTR) complexed with Diflunisal analogues- TTR.2',4'-DICHLORO-4-HYDROXY-1,1'-BIPHENYL-3-CARBOXYLIC ACID
  • 2b9a: Human transthyretin (TTR) complexed with diflunisal analogues- TTR.3',5'-difluorobiphenyl-4-carboxylic acid 2b9a: Human transthyretin (TTR) complexed with diflunisal analogues- TTR.3',5'-difluorobiphenyl-4-carboxylic acid
  • 2f7i: Human transthyretin (TTR) complexed with diflunisal analogues- TTR. 2',6'-Difluorobiphenyl-4-carboxylic Acid 2f7i: Human transthyretin (TTR) complexed with diflunisal analogues- TTR. 2',6'-Difluorobiphenyl-4-carboxylic Acid
  • 2f8i: Human transthyretin (TTR) complexed with Benzoxazole 2f8i: Human transthyretin (TTR) complexed with Benzoxazole
  • 2fbr: Human transthyretin (TTR) complexed with bivalant amyloid inhibitor (4 carbon linker) 2fbr: Human transthyretin (TTR) complexed with bivalant amyloid inhibitor (4 carbon linker)
  • 2flm: Human transthyretin (TTR) complexed with bivalant amyloid inhibitor (6 carbon linker) 2flm: Human transthyretin (TTR) complexed with bivalant amyloid inhibitor (6 carbon linker)
  • 2g3x: Crystal structure of Transthyretin mutant I84S at acidic pH 2g3x: Crystal structure of Transthyretin mutant I84S at acidic pH
  • 2g3z: Crystal structure of Transthyretin mutant I84A at low pH 2g3z: Crystal structure of Transthyretin mutant I84A at low pH
  • 2g4e: Crystal structure of transthyretin mutant I84A at neutral pH 2g4e: Crystal structure of transthyretin mutant I84A at neutral pH
  • 2g4g: Crystal structure of human transthyretin at pH 4.6 2g4g: Crystal structure of human transthyretin at pH 4.6
  • 2g5u: Human Transthyretin (TTR) Complexed with Hydroxylated polychlorinated Biphenyl-4,4'-dihydroxy-3,3',5,5'-tetrachlorobiphenyl 2g5u: Human Transthyretin (TTR) Complexed with Hydroxylated polychlorinated Biphenyl-4,4'-dihydroxy-3,3',5,5'-tetrachlorobiphenyl
  • 2g9k: Human Transthyretin (TTR) Complexed with Hydroxylated polychlorinated Biphenyl-4-hydroxy-2',3,3',4',5-Pentachlorobiphenyl 2g9k: Human Transthyretin (TTR) Complexed with Hydroxylated polychlorinated Biphenyl-4-hydroxy-2',3,3',4',5-Pentachlorobiphenyl
  • 2gab: Human Transthyretin (TTR) Complexed with Hydroxylated polychlorinated Biphenyl-4-hydroxy-3,3',5,4'-tetrachlorobiphenyl 2gab: Human Transthyretin (TTR) Complexed with Hydroxylated polychlorinated Biphenyl-4-hydroxy-3,3',5,4'-tetrachlorobiphenyl
  • 2h4e: Crystal structure of Cys10 sulfonated transthyretin 2h4e: Crystal structure of Cys10 sulfonated transthyretin
  • 2noy: Crystal structure of transthyretin mutant I84S at PH 7.5 2noy: Crystal structure of transthyretin mutant I84S at PH 7.5
  • 2pab: STRUCTURE OF PREALBUMIN, SECONDARY, TERTIARY AND QUATERNARY INTERACTIONS DETERMINED BY FOURIER REFINEMENT AT 1.8 ANGSTROMS 2pab: STRUCTURE OF PREALBUMIN, SECONDARY, TERTIARY AND QUATERNARY INTERACTIONS DETERMINED BY FOURIER REFINEMENT AT 1.8 ANGSTROMS
  • 2rox: TRANSTHYRETIN (ALSO CALLED PREALBUMIN) COMPLEX WITH THYROXINE (T4) 2rox: TRANSTHYRETIN (ALSO CALLED PREALBUMIN) COMPLEX WITH THYROXINE (T4)
  • 2roy: TRANSTHYRETIN (ALSO CALLED PREALBUMIN) COMPLEX WITH 3',5'-DINITRO-N-ACETYL-L-THYRONINE 2roy: TRANSTHYRETIN (ALSO CALLED PREALBUMIN) COMPLEX WITH 3',5'-DINITRO-N-ACETYL-L-THYRONINE
  • 2trh: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION 2trh: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION
  • 2try: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION 2try: TERTIARY STRUCTURES OF THREE AMYLOIDOGENIC TRANSTHYRETIN VARIANTS AND IMPLICATIONS FOR AMYLOID FIBRIL FORMATION
  • 5ttr: LEU 55 PRO TRANSTHYRETIN CRYSTAL STRUCTURE 5ttr: LEU 55 PRO TRANSTHYRETIN CRYSTAL STRUCTURE
Proteins: carrier proteins
Fatty acid
Hormone
Metal/element
Vitamin
Pigment
Other
Globular proteins
Serum globulins
Alpha globulins
serpins:
carrier proteins:
other:
Beta globulins
carrier proteins:
other:
Gamma globulin
Other
Other globulins
Albumins
Egg white
Serum albumin
Other
Amyloidosis
Common amyloid forming proteins
Systemic amyloidosis
Organ-limited amyloidosis
HeartAANF/Isolated atrial
Brain
Kidney
Skin
Endocrine
Thyroid
ACal/Medullary thyroid cancer
Pituitary
APro/Prolactinoma
Pancreas
AIAPP/Insulinoma
Type 2 diabetes
Thyroid hormone receptor modulators
Receptor
(ligands)
THRTooltip Thyroid hormone receptor
Agonists
Thyromimetics
(selective agonists)
Antagonists
Transporter
(blockers)
NISTooltip Sodium-iodide symporter
 
Enzyme
(inhibitors)
TPOTooltip Thyroid peroxidase
DIOTooltip Iodothyronine deiodinase
Others
Categories: