| 词条 | Kringle domain |
| 释义 |
| Symbol = Kringle | Name = | image =1nl2_opm.png | width = | caption = Fragment of bovine prothrombin in complex with calcium and lysophosphatidylserine. The protein associate with membrane through its alpha-helical GLA domain. The adjacent kringle domain is beta-structural (yellow). | Pfam= PF00051 | InterPro= IPR000001 | SMART= KR | PROSITE = PDOC00020 | SCOP = 1pk4 | TCDB = | OPM family= 115 | OPM protein= 1h8p | CDD= cd00108 | PDB= }} Kringle Domains are autonomous protein domains that fold into large loops stabilized by 3 disulfide linkages. These are important in protein–protein interactions with blood coagulation factors. The name Kringle comes from the Scandinavian pastry that these structures resemble. Kringle domains have been found in plasminogen, hepatocyte growth factors, prothrombin, and apolipoprotein(a). Kringles are found throughout the blood clotting and fibrinolytic proteins. Kringle domains are believed to play a role in binding mediators (e.g., membranes, other proteins or phospholipids), and in the regulation of proteolytic activity.[1][2][3] Kringle domains[4][5][6] are characterised by a triple loop, 3-disulfide bridge structure, whose conformation is defined by a number of hydrogen bonds and small pieces of anti-parallel beta-sheet. They are found in a varying number of copies in some plasma proteins including prothrombin and urokinase-type plasminogen activator, which are serine proteases belonging to MEROPS peptidase family S1A. Human proteins containing this domainATF; F12; F2; HABP2; HGF; HGFAC; KREMEN1; KREMEN2; LPA; LPAL2; MST1; PIK3IP1; PLAT; PLAU; PLG; PRSS12; ROR1; ROR2; References1. ^{{cite journal |vauthors=Fujikawa K, McMullen BA |title=Amino acid sequence of the heavy chain of human alpha-factor XIIa (activated Hageman factor) |journal=J. Biol. Chem. |volume=260 |issue=9 |pages=5328–5341 |year=1985 |pmid=3886654}} 2. ^{{cite journal |vauthors=Patthy L, Trexler M, Banyai L, Varadi A, Vali Z |title=Kringles: modules specialized for protein binding. Homology of the gelatin-binding region of fibronectin with the kringle structures of proteases |journal=FEBS Lett. |volume=171 |issue=1 |pages=131–136 |year=1984 |pmid=6373375 |doi=10.1016/0014-5793(84)80473-1}} 3. ^{{cite journal |vauthors=Atkinson RA, Williams RJ |title=Solution structure of the kringle 4 domain from human plasminogen by 1H nuclear magnetic resonance spectroscopy and distance geometry |journal=J. Mol. Biol. |volume=212 |issue=3 |pages=541–552 |year=1990 |pmid=2157850 |doi=10.1016/0022-2836(90)90330-O}} 4. ^{{cite journal |vauthors=Castellino FJ, Beals JM |title=The genetic relationships between the kringle domains of human plasminogen, prothrombin, tissue plasminogen activator, urokinase, and coagulation factor XII |journal=J. Mol. Evol. |volume=26 |issue=4 |pages=358–369 |year=1987 |pmid=3131537 |doi=10.1007/BF02101155}} 5. ^{{cite journal |author=Patthy L |title=Evolution of the proteases of blood coagulation and fibrinolysis by assembly from modules |journal=Cell |volume=41|issue=3 |pages=657–663 |year=1985 |pmid=3891096 |doi=10.1016/S0092-8674(85)80046-5}} 6. ^{{cite journal |vauthors=Takahashi K, Ikeo K, Gojobori T |title=Evolutionary origin of numerous kringles in human and simian apolipoprotein(a) |journal=FEBS Lett. |volume=287 |issue=1 |pages=146–148 |year=1991 |pmid=1879523 |doi=10.1016/0014-5793(91)80036-3}} External links
2 : Protein domains|Peripheral membrane proteins |
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