CORO1A - Knowledge (XXG)

310: 287: 184: 209: 561: 2462: 29: 316: 215: 2447: 1407:

The new ribbon visualization of the secondary structure of coronin-1a. In model A, is the front view of coronin-1a, the secondary structure allows you to clearly see the parallel beta sheets moving towards the bottom of the structure. Model B, is the side view of the protein which shows the turns and

1314:

These protein were named Corona, which is the Latin word for crown, because of the crown-like shape that it forms when making contact with the surface of the cell. Coronin-1a has been the most researched one due to its complexity and intriguing structural components. After research, it was determined

1419:

Coronin-1a was input into Database of Secondary Structure Program, where the Protein Data Bank database entered and a secondary structure panel is designed where one is clearly able to see the seven repeat that makes the propeller. Also, it displays the amino acid sequence of coronin-1a. The yellow

1367:

Coronin-1a has been found in the cell cortex of macrophages, which are white blood cells, helping with a process called phagocytosis. The model on Figure 3 shows coronin-1a's involvement in macrophages. When the cell is at rest, Coronin-1a is spread out throughout the cytoplasm and the cell cortex.

1387:

Toxoplasma gondii coronin (TgCor) binds to F-actin and it accelerates the actin polymerization process. It also prevents incursions and exits. As well as every other coronin, TgCor is an actin binding protein, it delocalizes to the posterior side of invading parasites and blocks them from leaving.

1318:

Later on, the complementary DNA (cDNA) of coronin-1a was cloned in an expression library, this led to the conclusion that coronin-1a has very similar structure to the beta (β) subunits of the G proteins (Gβ). Therefore, it was established that coronin-1a has five WD motif repeats, and this repeats

1310:

The coronin protein family was discovered in 1991 by Eugenio L. Hostos. Hostos used a cytoskeletal preparation called the “contracted propeller” that efficiently helped with the purification of cytoskeletal proteins. This technique allowed him to precipitate actomyosin components together with the

2325:

Ewing RM, Chu P, Elisma F, Li H, Taylor P, Climie S, McBroom-Cerajewski L, Robinson MD, O'Connor L, Li M, Taylor R, Dharsee M, Ho Y, Heilbut A, Moore L, Zhang S, Ornatsky O, Bukhman YV, Ethier M, Sheng Y, Vasilescu J, Abu-Farha M, Lambert JP, Duewel HS, Stewart II, Kuehl B, Hogue K, Colwill K,

55: 1420:

arrows mean the beta strands, the purple loops are the turns, the black lines means empty meaning that there was no secondary structure assigned, the light pink is 3/10-helix is formed, royal blue line is a bend and finally the red helix signifies the alpha helices.

1379:

The phylogenetic tree of the coronin family it is broad. The same way that coronin-1a helps with the reorganization of the cytoskeleton and dynamic activity with other proteins in vertebrates, Coronin can also be seen in non-vertebrates, for example in

1322:

In the cell, coronin-1a serves as an auxiliary to many cytoskeletal process that involve actin. It was concluded that coronin-1a is known to affect the “cytoskeletal reorganization” as well “actin dynamics” together with other protein.

1315:

that coronin-1a serves as actin binding facilitator when reacted with K-glutamate. The anion K + and glutamate were used because of it similarity to the environment inside the cell, allowing coronin-1a to bind to F-actin.

1334:

The evolutionary coronin subfamilies have been grouped by its similarities and relationships between the different proteins. Coronin-1a (also referenced as CORO1A, Coronin 4 and CRN4) has been found in 19 vertebrates.

1514:

Okumura M, Kung C, Wong S, Rodgers M, Thomas ML (Sep 1998). "Definition of family of coronin-related proteins conserved between humans and mice: close genetic linkage between coronin-2 and CD45-associated protein".

1909:

Rasmussen HH, van Damme J, Puype M, Gesser B, Celis JE, Vandekerckhove J (Dec 1992). "Microsequences of 145 proteins recorded in the two-dimensional gel protein database of normal human epidermal keratinocytes".

1990:

Grogan A, Reeves E, Keep N, Wientjes F, Totty NF, Burlingame AL, Hsuan JJ, Segal AW (Dec 1997). "Cytosolic phox proteins interact with and regulate the assembly of coronin in neutrophils".

1302:. In a recent genome-wide longevity study, its expression levels were found to be negatively associated both with age at the time of blood sample and the survival time after blood draw. 1331:

The coronin family is composed of twelve subfamilies which include: seven subfamilies that fall under vertebrates and five subfamilies that are composed of metazoans, fungi and amoeba.

1347:

Surface representation of TgCor, a thin stick visualization showing protein ligands acetate anion and 2-amino-2-hydroxymethyl-promane-1,3-diolmade using Molegro Molecular Viewer

323: 222: 1412: 1408:

the coils between the beta sheets. From this pictures we are able to see that the alpha helix and helix strands are concentrated at the bottom of the protein.

2140:

Fu GK, Wang JT, Yang J, Au-Young J, Stuve LL (Jul 2004). "Circular rapid amplification of cDNA ends for high-throughput extension cloning of partial genes".

1400: 1009: 990: 145: 2461: 1355:

Surface representation of TgCor, thin stick visualization, showing 2-amino-2-hydroxymethyl-promane-1,3-diol made using Molegro Molecular Viewer

2490: 2426: 1834: 1721: 1637: 1496: 1478: 52: 1861: 309: 1678: 1232: 1225: 2214:"Association of the leukocyte plasma membrane with the actin cytoskeleton through coiled coil-mediated trimeric coronin 1 molecules" 1360: 1396:

The structure of coronin-1A is made out of five WD repeats, and this motifs repeat seven time forming a propeller like structures.

1352: 1344: 286: 1550: 1368:

Therefore, when a pathogen enters the cell, Coronin-1a binds to phagosomal membrane making sure of the binding and activation of

2171:"Homotypic dimerization of the actin-binding protein p57/coronin-1 mediated by a leucine zipper motif in the C-terminal region" 1465: 1444: 2446: 1756:

Steinmetz MO, Jelesarov I, Matousek WM, Honnappa S, Jahnke W, Missimer JH, Frank S, Alexandrescu AT, Kammerer RA (Apr 2007).

208: 183: 1867: 1461: 1440: 125: 1376:

is inhibited then it allows the initiation of the fusion of phagosomes with lysosome and the killing of mycobacteria.

322: 221: 1363:

Surface representation of TgCor, thin stick visualization, showing acetate anion made using Molegro Molecular Viewer

315: 214: 1411: 2419: 1054: 133: 1372:, this resulting in a stop of fusion lysosomes with phagosomes. In other words, if coronin-1a is removed and 1035: 2257:"Downregulation of TACO gene transcription restricts mycobacterial entry/survival within human macrophages" 2107:"Two regions responsible for the actin binding of p57, a mammalian coronin family actin-binding protein" 197: 1949:"Molecular cloning of a novel actin-binding protein, p57, with a WD repeat and a leucine zipper motif" 2412: 1769: 2105:

Oku T, Itoh S, Okano M, Suzuki A, Suzuki K, Nakajin S, Tsuji T, Nauseef WM, Toyoshima S (Apr 2003).

112: 1873: 1665:. Subcellular Biochemistry. Vol. 48 (first ed.). New York, N.Y.: Springer. pp. 1–5. 1399: 1204: 1179: 1149: 1124: 2050: 1978: 1935: 1735: 157: 1208: 1183: 1153: 1128: 2392: 2357: 2313: 2278: 2243: 2200: 2157: 2128: 2093: 2042: 2007: 1970: 1927: 1880: 1840: 1830: 1797: 1727: 1717: 1684: 1674: 1643: 1633: 1595: 1532: 105: 45: 2326:

Gladwish K, Muskat B, Kinach R, Adams SL, Moran MF, Morin GB, Topaloglou T, Figeys D (2007).

2382: 2347: 2339: 2303: 2268: 2233: 2225: 2190: 2182: 2149: 2118: 2083: 2075: 2032: 1999: 1960: 1919: 1822: 1787: 1777: 1709: 1666: 1625: 1624:. Subcellular Biochemistry. Vol. 48. Madame Curie Bioscience Database. pp. 31–40. 1585: 1577: 1524: 560: 402: 333: 277: 232: 153: 1703: 377: 1773: 28: 2352: 2327: 2238: 2213: 2195: 2170: 2088: 2063: 1947:

Suzuki K, Nishihata J, Arai Y, Honma N, Yamamoto K, Irimura T, Toyoshima S (May 1995).

1792: 1757: 1590: 1565: 2037: 2020: 924: 919: 914: 909: 904: 899: 894: 889: 884: 879: 874: 869: 864: 859: 854: 849: 844: 839: 834: 829: 824: 819: 814: 809: 804: 799: 794: 789: 784: 779: 763: 758: 753: 748: 743: 738: 733: 728: 723: 718: 713: 708: 703: 698: 693: 688: 683: 678: 673: 668: 663: 647: 642: 637: 632: 627: 622: 617: 612: 607: 602: 2484: 2021:"A coat protein on phagosomes involved in the intracellular survival of mycobacteria" 1965: 1948: 1889: 1581: 589: 2054: 1982: 1939: 1739: 137: 2371:"Coronin function is required for chemotaxis and phagocytosis in human neutrophils" 395: 174: 2273: 2256: 1713: 161: 2387: 2370: 2328:"Large-scale mapping of human protein-protein interactions by mass spectrometry" 2153: 2079: 1826: 1670: 1629: 1501:

National Center for Biotechnology Information, U.S. National Library of Medicine

1483:

National Center for Biotechnology Information, U.S. National Library of Medicine

1373: 1369: 2169:

Oku T, Itoh S, Ishii R, Suzuki K, Nauseef WM, Toyoshima S, Tsuji T (Apr 2005).

1762:

Proceedings of the National Academy of Sciences of the United States of America

478: 1816: 1619: 294: 191: 141: 1923: 1821:. Subcellular Biochemistry. Vol. 48. Landes Bioscience. pp. 56–71. 2229: 2064:"Thrombospondin-1 binds to polyhistidine with high affinity and specificity" 2003: 1782: 1528: 1299: 1298:. It has been implicated in both T-cell mediated immunity and mitochondrial 954: 538: 416: 361: 348: 260: 247: 149: 2396: 2361: 2317: 2282: 2247: 2204: 2161: 2132: 2097: 2046: 1844: 1801: 1731: 1688: 1647: 1599: 2308: 2291: 2011: 1974: 1931: 1536: 1272: 1267: 1256: 1099: 1080: 2212:

Gatfield J, Albrecht I, Zanolari B, Steinmetz MO, Pieters J (Jun 2005).

1566:"Gene expression profiles associated with aging and mortality in humans" 1359: 2343: 2186: 2123: 2106: 1894: 1884: 1351: 1343: 1288: 1066: 1021: 82: 78: 74: 1240: 976: 1815:

McArdle B, Hofmann A (2000). "Coronin structure and implications".

1410: 1403:

Secondary structure model using Visual Molecular Dynamics software

1398: 1358: 1350: 1342: 1415:

Secondary structure using Database of Secondary Structure Program

939: 935: 2369:

Yan M, Di Ciano-Oliveira C, Grinstein S, Trimble WS (May 2007).

2062:

Vanguri VK, Wang S, Godyna S, Ranganathan S, Liau G (Apr 2000).

1295: 569: 129: 2408: 2404: 1618:

de Hostos EL (2008). "A brief history of the coronin family".

855:

regulation of release of sequestered calcium ion into cytosol

1879:

Overview of all the structural information available in the

1708:. Subcellular Biochemistry. Vol. 48. pp. 116–23. 2292:"The identification of a new actin-binding region in p57" 2470:: Crystal Structure of Murine Coronin-1: monoclinic form 1551:"Entrez Gene: CORO1A coronin, actin binding protein, 1A" 385: 860:

regulation of actin polymerization or depolymerization

550: 116:, CLABP, CLIPINA, HCORO1, IMD8, TACO, p57, coronin 1A 2019:

Ferrari G, Langen H, Naito M, Pieters J (May 1999).

1197: 1172: 1142: 1117: 521:

dentate gyrus of hippocampal formation granule cell

1702:Pieters J (2000). "Coronin 1 in innate immunity". 1457: 1455: 1453: 1436: 1434: 1432: 332: 231: 1319:seven times forming a propeller like structure. 875:negative regulation of neuron apoptotic process 16:Protein-coding gene in the species Homo sapiens 1462:GRCm38: Ensembl release 89: ENSMUSG00000030707 895:early endosome to recycling endosome transport 790:homeostasis of number of cells within a tissue 2420: 1564:Kerber RA, O'Brien E, Cawthon RM (Jun 2009). 825:regulation of actin cytoskeleton organization 8: 1441:GRCh38: Ensembl release 89: ENSG00000102879 870:regulation of actin filament polymerization 840:positive regulation of T cell proliferation 2427: 2413: 2405: 1758:"Molecular basis of coiled-coil formation" 1751: 1749: 1661:Rybakin V, Clemen CS, Eichinger L (2008). 950: 585: 373: 272: 169: 63: 2386: 2351: 2307: 2272: 2237: 2194: 2122: 2087: 2036: 1964: 1791: 1781: 1589: 2111:Biological & Pharmaceutical Bulletin 1613: 1611: 1609: 880:positive regulation of T cell activation 2455:: Crystal Structure of Murine Coronin-1 2442: 1428: 795:negative regulation of actin nucleation 18: 820:positive regulation of cell migration 810:nerve growth factor signaling pathway 780:negative regulation of vesicle fusion 618:phosphatidylinositol 3-kinase binding 337: 298: 293: 236: 195: 190: 7: 2290:Liu CZ, Chen Y, Sui SF (Jan 2006). 1194: 1169: 1139: 1114: 1090: 1071: 1045: 1026: 1000: 981: 845:cellular response to interleukin-4 555: 473: 411: 390: 14: 1291:that in humans is encoded by the 850:natural killer cell degranulation 623:protein homodimerization activity 2460: 2445: 1582:10.1111/j.1474-9726.2009.00467.x 559: 321: 314: 308: 285: 220: 213: 207: 182: 27: 915:immunological synapse formation 905:actin cytoskeleton organization 1818:The Coronin Family of Proteins 1705:The Coronin Family of Proteins 1663:The Coronin Family of Proteins 1621:The Coronin Family of Proteins 570:More reference expression data 539:More reference expression data 1: 2255:Anand PK, Kaul D (Sep 2005). 2218:Molecular Biology of the Cell 2038:10.1016/S0092-8674(00)80754-0 306: 205: 2491:Genes on human chromosome 16 2274:10.1016/j.femsle.2005.06.056 1966:10.1016/0014-5793(95)00393-N 1714:10.1007/978-0-387-09595-0_11 638:cytoskeletal protein binding 2388:10.4049/jimmunol.178.9.5769 2154:10.1016/j.ygeno.2004.01.011 1827:10.1007/978-0-387-09595-0_6 1671:10.1007/978-0-387-09595-0_1 1630:10.1007/978-0-387-09595-0_4 835:actin filament organization 734:phagocytic vesicle membrane 709:cortical actin cytoskeleton 2507: 1872:gene details page in the 633:myosin heavy chain binding 608:protein C-terminus binding 2440: 2332:Molecular Systems Biology 2261:FEMS Microbiology Letters 2080:10.1042/0264-6021:3470469 1497:"Mouse PubMed Reference:" 1479:"Human PubMed Reference:" 1271: 1266: 1262: 1255: 1239: 1220: 1201: 1176: 1165: 1146: 1121: 1110: 1097: 1093: 1078: 1074: 1065: 1052: 1048: 1033: 1029: 1020: 1007: 1003: 988: 984: 975: 960: 953: 949: 933: 613:identical protein binding 588: 584: 567: 558: 549: 536: 485: 476: 423: 414: 384: 376: 372: 355: 342: 305: 284: 275: 271: 254: 241: 204: 181: 172: 168: 123: 120: 110: 103: 98: 71: 66: 49: 44: 39: 35: 26: 21: 1924:10.1002/elps.11501301199 1233:Chr 7: 126.3 – 126.31 Mb 1226:Chr 16: 30.18 – 30.19 Mb 885:regulation of cell shape 2230:10.1091/mbc.E05-01-0042 2175:The Biochemical Journal 2068:The Biochemical Journal 2004:10.1242/jcs.110.24.3071 1992:Journal of Cell Science 1783:10.1073/pnas.0700321104 1529:10.1089/dna.1998.17.779 1384:(also known as TgCor). 865:cell-substrate adhesion 1416: 1404: 1364: 1356: 1348: 925:phagolysosome assembly 890:innate immune response 643:actin filament binding 493:mesenteric lymph nodes 2375:Journal of Immunology 2309:10.1038/sj.cr.7310014 1414: 1402: 1362: 1354: 1346: 785:calcium ion transport 749:immunological synapse 669:extracellular exosome 628:actin monomer binding 198:Chromosome 16 (human) 1893:(Coronin-1A) at the 1866:genome location and 1517:DNA and Cell Biology 920:leukocyte chemotaxis 805:response to cytokine 339:7 69.25 cM|7 F3 300:Chromosome 7 (mouse) 67:List of PDB id codes 40:Available structures 1874:UCSC Genome Browser 1774:2007PNAS..104.7062S 910:uropod organization 830:positive chemotaxis 744:cytoplasmic vesicle 2344:10.1038/msb4100134 2187:10.1042/BJ20041020 2124:10.1248/bpb.26.409 1417: 1405: 1365: 1357: 1349: 1311:desired proteins. 1055:ENSMUSG00000030707 815:T cell homeostasis 773:Biological process 759:phagocytic vesicle 719:cell-cell junction 679:actin cytoskeleton 657:Cellular component 596:Molecular function 505:tibiofemoral joint 162:CORO1A - orthologs 2478: 2477: 1836:978-0-387-09594-3 1723:978-0-387-09594-3 1639:978-0-387-09594-3 1382:Toxoplasma gondii 1282: 1281: 1278: 1277: 1251: 1250: 1216: 1215: 1191: 1190: 1161: 1160: 1136: 1135: 1106: 1105: 1087: 1086: 1061: 1060: 1042: 1041: 1016: 1015: 997: 996: 945: 944: 694:cell leading edge 580: 579: 576: 575: 545: 544: 532: 531: 525:prefrontal cortex 470: 469: 451:bone marrow cells 368: 367: 267: 266: 94: 93: 90: 89: 50:Ortholog search: 2498: 2464: 2449: 2429: 2422: 2415: 2406: 2400: 2390: 2365: 2355: 2321: 2311: 2286: 2276: 2251: 2241: 2208: 2198: 2181:(Pt 2): 325–31. 2165: 2136: 2126: 2101: 2091: 2074:(Pt 2): 469–73. 2058: 2040: 2015: 1986: 1968: 1943: 1849: 1848: 1812: 1806: 1805: 1795: 1785: 1753: 1744: 1743: 1699: 1693: 1692: 1658: 1652: 1651: 1615: 1604: 1603: 1593: 1561: 1555: 1554: 1547: 1541: 1540: 1511: 1505: 1504: 1493: 1487: 1486: 1475: 1469: 1459: 1448: 1438: 1264: 1263: 1235: 1228: 1211: 1195: 1186: 1170: 1166:RefSeq (protein) 1156: 1140: 1131: 1115: 1091: 1072: 1046: 1027: 1001: 982: 951: 586: 572: 563: 556: 541: 481: 479:Top expressed in 474: 419: 417:Top expressed in 412: 391: 374: 364: 351: 340: 325: 318: 312: 301: 289: 273: 263: 250: 239: 224: 217: 211: 200: 186: 170: 164: 115: 108: 85: 64: 58: 37: 36: 31: 19: 2506: 2505: 2501: 2500: 2499: 2497: 2496: 2495: 2481: 2480: 2479: 2474: 2471: 2465: 2456: 2450: 2436: 2433: 2403: 2368: 2324: 2289: 2254: 2211: 2168: 2139: 2104: 2061: 2018: 1998:(24): 3071–81. 1989: 1946: 1912:Electrophoresis 1908: 1904: 1902:Further reading 1857: 1852: 1837: 1814: 1813: 1809: 1755: 1754: 1747: 1724: 1701: 1700: 1696: 1681: 1660: 1659: 1655: 1640: 1617: 1616: 1607: 1563: 1562: 1558: 1549: 1548: 1544: 1513: 1512: 1508: 1495: 1494: 1490: 1477: 1476: 1472: 1460: 1451: 1439: 1430: 1426: 1394: 1341: 1329: 1308: 1273:View/Edit Mouse 1268:View/Edit Human 1231: 1224: 1221:Location (UCSC) 1207: 1203: 1182: 1178: 1152: 1148: 1127: 1123: 1036:ENSG00000102879 929: 768: 739:plasma membrane 652: 603:protein binding 568: 537: 528: 523: 519: 517:right lung lobe 515: 511: 507: 503: 499: 495: 491: 477: 466: 461: 459:trabecular bone 457: 453: 449: 445: 441: 437: 433: 429: 415: 359: 346: 338: 328: 327: 326: 319: 299: 276:Gene location ( 258: 245: 237: 227: 226: 225: 218: 196: 173:Gene location ( 124: 111: 104: 73: 51: 17: 12: 11: 5: 2504: 2502: 2494: 2493: 2483: 2482: 2476: 2475: 2473: 2472: 2466: 2459: 2457: 2451: 2444: 2441: 2438: 2437: 2434: 2432: 2431: 2424: 2417: 2409: 2402: 2401: 2381:(9): 5769–78. 2366: 2322: 2287: 2252: 2224:(6): 2786–98. 2209: 2166: 2137: 2102: 2059: 2016: 1987: 1944: 1905: 1903: 1900: 1899: 1898: 1877: 1856: 1855:External links 1853: 1851: 1850: 1835: 1807: 1768:(17): 7062–7. 1745: 1722: 1694: 1680:978-0387095943 1679: 1653: 1638: 1605: 1556: 1542: 1506: 1488: 1470: 1449: 1427: 1425: 1422: 1393: 1390: 1340: 1337: 1328: 1325: 1307: 1304: 1280: 1279: 1276: 1275: 1270: 1260: 1259: 1253: 1252: 1249: 1248: 1246: 1244: 1237: 1236: 1229: 1222: 1218: 1217: 1214: 1213: 1199: 1198: 1192: 1189: 1188: 1174: 1173: 1167: 1163: 1162: 1159: 1158: 1144: 1143: 1137: 1134: 1133: 1119: 1118: 1112: 1108: 1107: 1104: 1103: 1095: 1094: 1088: 1085: 1084: 1076: 1075: 1069: 1063: 1062: 1059: 1058: 1050: 1049: 1043: 1040: 1039: 1031: 1030: 1024: 1018: 1017: 1014: 1013: 1005: 1004: 998: 995: 994: 986: 985: 979: 973: 972: 967: 962: 958: 957: 947: 946: 943: 942: 931: 930: 928: 927: 922: 917: 912: 907: 902: 900:cell migration 897: 892: 887: 882: 877: 872: 867: 862: 857: 852: 847: 842: 837: 832: 827: 822: 817: 812: 807: 802: 797: 792: 787: 782: 776: 774: 770: 769: 767: 766: 761: 756: 751: 746: 741: 736: 731: 729:actin filament 726: 721: 716: 714:early endosome 711: 706: 701: 696: 691: 686: 681: 676: 671: 666: 664:phagocytic cup 660: 658: 654: 653: 651: 650: 645: 640: 635: 630: 625: 620: 615: 610: 605: 599: 597: 593: 592: 582: 581: 578: 577: 574: 573: 565: 564: 553: 547: 546: 543: 542: 534: 533: 530: 529: 527: 526: 522: 518: 514: 510: 506: 502: 498: 494: 490: 486: 483: 482: 471: 468: 467: 465: 464: 460: 456: 452: 448: 444: 440: 436: 432: 428: 424: 421: 420: 408: 407: 399: 388: 382: 381: 378:RNA expression 370: 369: 366: 365: 357: 353: 352: 344: 341: 336: 330: 329: 320: 313: 307: 303: 302: 297: 291: 290: 282: 281: 269: 268: 265: 264: 256: 252: 251: 243: 240: 235: 229: 228: 219: 212: 206: 202: 201: 194: 188: 187: 179: 178: 166: 165: 122: 118: 117: 109: 101: 100: 96: 95: 92: 91: 88: 87: 69: 68: 60: 59: 48: 42: 41: 33: 32: 24: 23: 15: 13: 10: 9: 6: 4: 3: 2: 2503: 2492: 2489: 2488: 2486: 2469: 2463: 2458: 2454: 2448: 2443: 2439: 2430: 2425: 2423: 2418: 2416: 2411: 2410: 2407: 2398: 2394: 2389: 2384: 2380: 2376: 2372: 2367: 2363: 2359: 2354: 2349: 2345: 2341: 2337: 2333: 2329: 2323: 2319: 2315: 2310: 2305: 2302:(1): 106–12. 2301: 2297: 2296:Cell Research 2293: 2288: 2284: 2280: 2275: 2270: 2267:(1): 137–44. 2266: 2262: 2258: 2253: 2249: 2245: 2240: 2235: 2231: 2227: 2223: 2219: 2215: 2210: 2206: 2202: 2197: 2192: 2188: 2184: 2180: 2176: 2172: 2167: 2163: 2159: 2155: 2151: 2148:(1): 205–10. 2147: 2143: 2138: 2134: 2130: 2125: 2120: 2117:(4): 409–16. 2116: 2112: 2108: 2103: 2099: 2095: 2090: 2085: 2081: 2077: 2073: 2069: 2065: 2060: 2056: 2052: 2048: 2044: 2039: 2034: 2031:(4): 435–47. 2030: 2026: 2022: 2017: 2013: 2009: 2005: 2001: 1997: 1993: 1988: 1984: 1980: 1976: 1972: 1967: 1962: 1958: 1954: 1950: 1945: 1941: 1937: 1933: 1929: 1925: 1921: 1918:(12): 960–9. 1917: 1913: 1907: 1906: 1901: 1896: 1892: 1891: 1886: 1882: 1878: 1875: 1871: 1870: 1865: 1864: 1859: 1858: 1854: 1846: 1842: 1838: 1832: 1828: 1824: 1820: 1819: 1811: 1808: 1803: 1799: 1794: 1789: 1784: 1779: 1775: 1771: 1767: 1763: 1759: 1752: 1750: 1746: 1741: 1737: 1733: 1729: 1725: 1719: 1715: 1711: 1707: 1706: 1698: 1695: 1690: 1686: 1682: 1676: 1672: 1668: 1664: 1657: 1654: 1649: 1645: 1641: 1635: 1631: 1627: 1623: 1622: 1614: 1612: 1610: 1606: 1601: 1597: 1592: 1587: 1583: 1579: 1576:(3): 239–50. 1575: 1571: 1567: 1560: 1557: 1552: 1546: 1543: 1538: 1534: 1530: 1526: 1523:(9): 779–87. 1522: 1518: 1510: 1507: 1502: 1498: 1492: 1489: 1484: 1480: 1474: 1471: 1467: 1463: 1458: 1456: 1454: 1450: 1446: 1442: 1437: 1435: 1433: 1429: 1423: 1421: 1413: 1409: 1401: 1397: 1391: 1389: 1385: 1383: 1377: 1375: 1371: 1361: 1353: 1345: 1338: 1336: 1332: 1326: 1324: 1320: 1316: 1312: 1305: 1303: 1301: 1297: 1294: 1290: 1286: 1274: 1269: 1265: 1261: 1258: 1254: 1247: 1245: 1242: 1238: 1234: 1230: 1227: 1223: 1219: 1212: 1210: 1206: 1200: 1196: 1193: 1187: 1185: 1181: 1175: 1171: 1168: 1164: 1157: 1155: 1151: 1145: 1141: 1138: 1132: 1130: 1126: 1120: 1116: 1113: 1111:RefSeq (mRNA) 1109: 1102: 1101: 1096: 1092: 1089: 1083: 1082: 1077: 1073: 1070: 1068: 1064: 1057: 1056: 1051: 1047: 1044: 1038: 1037: 1032: 1028: 1025: 1023: 1019: 1012: 1011: 1006: 1002: 999: 993: 992: 987: 983: 980: 978: 974: 971: 968: 966: 963: 959: 956: 952: 948: 941: 937: 932: 926: 923: 921: 918: 916: 913: 911: 908: 906: 903: 901: 898: 896: 893: 891: 888: 886: 883: 881: 878: 876: 873: 871: 868: 866: 863: 861: 858: 856: 853: 851: 848: 846: 843: 841: 838: 836: 833: 831: 828: 826: 823: 821: 818: 816: 813: 811: 808: 806: 803: 801: 798: 796: 793: 791: 788: 786: 783: 781: 778: 777: 775: 772: 771: 765: 762: 760: 757: 755: 752: 750: 747: 745: 742: 740: 737: 735: 732: 730: 727: 725: 722: 720: 717: 715: 712: 710: 707: 705: 704:lamellipodium 702: 700: 697: 695: 692: 690: 687: 685: 682: 680: 677: 675: 672: 670: 667: 665: 662: 661: 659: 656: 655: 649: 648:actin binding 646: 644: 641: 639: 636: 634: 631: 629: 626: 624: 621: 619: 616: 614: 611: 609: 606: 604: 601: 600: 598: 595: 594: 591: 590:Gene ontology 587: 583: 571: 566: 562: 557: 554: 552: 548: 540: 535: 524: 520: 516: 512: 508: 504: 500: 496: 492: 488: 487: 484: 480: 475: 472: 462: 458: 454: 450: 446: 442: 438: 434: 430: 426: 425: 422: 418: 413: 410: 409: 406: 404: 400: 398: 397: 393: 392: 389: 387: 383: 379: 375: 371: 363: 358: 354: 350: 345: 335: 331: 324: 317: 311: 304: 296: 292: 288: 283: 279: 274: 270: 262: 257: 253: 249: 244: 234: 230: 223: 216: 210: 203: 199: 193: 189: 185: 180: 176: 171: 167: 163: 159: 155: 151: 147: 143: 139: 135: 131: 127: 119: 114: 107: 102: 97: 86: 84: 80: 76: 70: 65: 62: 61: 57: 54: 47: 43: 38: 34: 30: 25: 20: 2467: 2452: 2378: 2374: 2335: 2331: 2299: 2295: 2264: 2260: 2221: 2217: 2178: 2174: 2145: 2141: 2114: 2110: 2071: 2067: 2028: 2024: 1995: 1991: 1959:(3): 283–8. 1956: 1953:FEBS Letters 1952: 1915: 1911: 1888: 1868: 1862: 1817: 1810: 1765: 1761: 1704: 1697: 1662: 1656: 1620: 1573: 1569: 1559: 1545: 1520: 1516: 1509: 1500: 1491: 1482: 1473: 1418: 1406: 1395: 1386: 1381: 1378: 1366: 1333: 1330: 1321: 1317: 1313: 1309: 1292: 1284: 1283: 1205:NP_001288303 1202: 1180:NP_001180262 1177: 1150:NM_001301374 1147: 1125:NM_001193333 1122: 1098: 1079: 1053: 1034: 1008: 989: 969: 964: 800:phagocytosis 754:cytoskeleton 401: 394: 360:126,306,959 347:126,298,945 121:External IDs 72: 2435:PDB gallery 1374:calcineurin 1370:calcineurin 684:cell cortex 513:bone marrow 489:granulocyte 447:bone marrow 427:granulocyte 259:30,189,076 246:30,182,827 99:Identifiers 1570:Aging Cell 1468:, May 2017 1447:, May 2017 1424:References 1285:Coronin-1A 455:lymph node 405:(ortholog) 142:HomoloGene 2338:(1): 89. 1392:Structure 1327:Phylogeny 1306:Discovery 1300:apoptosis 1209:NP_034028 1184:NP_009005 1154:NM_009898 1129:NM_007074 955:Orthologs 674:cytoplasm 150:GeneCards 2485:Category 2397:17442961 2362:17353931 2318:16467882 2283:16040207 2248:15800061 2205:15601263 2162:15203218 2142:Genomics 2133:12673016 2098:10749676 2055:18159353 2047:10338208 1983:45276555 1940:41855774 1845:18925371 1802:17438295 1740:40384881 1732:18925376 1689:18925366 1648:18925369 1600:19245677 1464:– 1443:– 1339:Function 1257:Wikidata 934:Sources: 724:membrane 443:appendix 431:monocyte 2353:1847948 2239:1142424 2196:1134960 2089:1220979 2012:9365277 1994:. 110. 1975:7758584 1932:1286667 1895:PDBe-KB 1885:UniProt 1793:1855353 1770:Bibcode 1591:2759984 1537:9778037 1466:Ensembl 1445:Ensembl 1289:protein 1067:UniProt 1022:Ensembl 961:Species 940:QuickGO 764:cytosol 689:nucleus 380:pattern 238:16p11.2 138:1345961 106:Aliases 2395: 2360: 2350: 2316: 2281: 2246: 2236: 2203: 2193: 2160: 2131: 2096: 2086: 2053: 2045: 2010: 1981: 1973: 1938: 1930: 1890:O89053 1869:CORO1A 1863:CORO1A 1860:Human 1843: 1833: 1800: 1790: 1738: 1730: 1720: 1687: 1677: 1646: 1636: 1598: 1588: 1535: 1293:CORO1A 1243:search 1241:PubMed 1100:O89053 1081:P31146 977:Entrez 551:BioGPS 501:spleen 497:thymus 463:thymus 439:spleen 154:CORO1A 130:605000 113:CORO1A 22:CORO1A 2051:S2CID 1979:S2CID 1936:S2CID 1736:S2CID 1287:is a 1010:12721 991:11151 970:Mouse 965:Human 936:Amigo 509:blood 435:blood 403:Mouse 396:Human 343:Start 278:Mouse 242:Start 175:Human 2468:2b4e 2453:2aq5 2393:PMID 2358:PMID 2314:PMID 2279:PMID 2244:PMID 2201:PMID 2158:PMID 2129:PMID 2094:PMID 2043:PMID 2025:Cell 2008:PMID 1971:PMID 1928:PMID 1883:for 1841:PMID 1831:ISBN 1798:PMID 1728:PMID 1718:ISBN 1685:PMID 1675:ISBN 1644:PMID 1634:ISBN 1596:PMID 1533:PMID 1296:gene 699:axon 386:Bgee 334:Band 295:Chr. 233:Band 192:Chr. 146:6545 126:OMIM 83:2B4E 79:2AQ5 75:2AKF 56:RCSB 53:PDBe 2383:doi 2379:178 2348:PMC 2340:doi 2304:doi 2269:doi 2265:250 2234:PMC 2226:doi 2191:PMC 2183:doi 2179:387 2150:doi 2119:doi 2084:PMC 2076:doi 2072:347 2033:doi 2000:doi 1996:110 1961:doi 1957:364 1920:doi 1881:PDB 1823:doi 1788:PMC 1778:doi 1766:104 1710:doi 1667:doi 1626:doi 1586:PMC 1578:doi 1525:doi 356:End 255:End 158:OMA 134:MGI 46:PDB 2487:: 2391:. 2377:. 2373:. 2356:. 2346:. 2334:. 2330:. 2312:. 2300:16 2298:. 2294:. 2277:. 2263:. 2259:. 2242:. 2232:. 2222:16 2220:. 2216:. 2199:. 2189:. 2177:. 2173:. 2156:. 2146:84 2144:. 2127:. 2115:26 2113:. 2109:. 2092:. 2082:. 2070:. 2066:. 2049:. 2041:. 2029:97 2027:. 2023:. 2006:. 1977:. 1969:. 1955:. 1951:. 1934:. 1926:. 1916:13 1914:. 1887:: 1839:. 1829:. 1796:. 1786:. 1776:. 1764:. 1760:. 1748:^ 1734:. 1726:. 1716:. 1683:. 1673:. 1642:. 1632:. 1608:^ 1594:. 1584:. 1572:. 1568:. 1531:. 1521:17 1519:. 1499:. 1481:. 1452:^ 1431:^ 938:/ 362:bp 349:bp 261:bp 248:bp 156:; 152:: 148:; 144:: 140:; 136:: 132:; 128:: 81:, 77:, 2428:e 2421:t 2414:v 2399:. 2385:: 2364:. 2342:: 2336:3 2320:. 2306:: 2285:. 2271:: 2250:. 2228:: 2207:. 2185:: 2164:. 2152:: 2135:. 2121:: 2100:. 2078:: 2057:. 2035:: 2014:. 2002:: 1985:. 1963:: 1942:. 1922:: 1897:. 1876:. 1847:. 1825:: 1804:. 1780:: 1772:: 1742:. 1712:: 1691:. 1669:: 1650:. 1628:: 1602:. 1580:: 1574:8 1553:. 1539:. 1527:: 1503:. 1485:. 280:) 177:) 160::

Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.

Index