Archaeoglobaceae - Knowledge (XXG)

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Quackenbush, John; Lee, Norman H.; Sutton, Granger G.; Gill, Steven; Kirkness, Ewen F.; Dougherty, Brian A.; McKenney, Keith; Adams, Mark D.; Loftus, Brendan; Peterson, Scott; Reich, Claudia I.; McNeil, Leslie K.; Badger, Jonathan H.; Glodek, Anna; Zhou, Lixin; Overbeek, Ross; Gocayne, Jeannine D.; Weidman, Janice F.; McDonald, Lisa; Utterback, Teresa; Cotton, Matthew D.; Spriggs, Tracy; Artiach, Patricia; Kaine, Brian P.; Sykes, Sean M.; Sadow, Paul W.; D'Andrea, Kurt P.; Bowman, Cheryl; Fujii, Claire; Garland, Stacey A.; Mason, Tanya M.; Olsen, Gary J.; Fraser, Claire M.; Smith, Hamilton O.; Woese, Carl R.; Venter, J. Craig (November 1997).

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2019). They are able to thrive in these environments by using a variety of metabolic pathways to obtain energy, and by producing a range of heat-shock proteins and other stress-response mechanisms that help them to survive in these extreme conditions. They are extremophiles, which means they can also be found in environments that are high in salt content, such as in salt flats or Salt Lake. Archaeoglobaceae are able to thrive in these extreme environments because they are able to use a variety of different minerals and gases to make energy. For example, some species of Archaeoglobaceae are able to use sulfur in a process called

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are found in a variety of extreme environments, including deep-sea hydrothermal vents, oil reservoirs, and hot springs. These environments are characterized by high temperatures, high pressures, and low oxygen concentrations, which make them inhospitable to most other forms of life (Topçuoğlu et al

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Klenk, Hans-Peter; Clayton, Rebecca A.; Tomb, Jean-Francois; White, Owen; Nelson, Karen E.; Ketchum, Karen A.; Dodson, Robert J.; Gwinn, Michelle; Hickey, Erin K.; Peterson, Jeremy D.; Richardson, Delwood L.; Kerlavage, Anthony R.; Graham, David E.; Kyrpides, Nikos C.; Fleischmann, Robert D.;

315:: This genus contains the most well-known and studied members of the Archaeoglobaceae family. They are thermophilic sulfate-reducing bacteria that are found in hydrothermal vents and oil reservoirs. They can grow at high temperatures and use a variety of organic compounds as electron donors. 363:

In addition to their ability to use different energy sources, some species of Archaeoglobaceae are also known to form symbiotic relationships with other organisms. For example, some species of Archaeoglobaceae have been found living in association with tube worms, which are able to extract

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from the hydrothermal vent environment and provide them to the bacteria in exchange for energy. These symbiotic relationships are thought to be important for the survival of both the bacteria and the tube worms in these extreme environments(Topçuoğlu et al 2019).

1700:"Physiological and Genomic Characterization of a Hyperthermophilic Archaeon Archaeoglobus neptunius sp. nov. Isolated From a Deep-Sea Hydrothermal Vent Warrants the Reclassification of the Genus Archaeoglobus" 1601:

Huber, Harald; Hohn, Michael J.; Rachel, Reinhard; Fuchs, Tanja; Wimmer, Verena C.; Stetter, Karl O. (May 2002). "A new phylum of Archaea represented by a nanosized hyperthermophilic symbiont".

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vents. They are thermophilic and can grow at high temperatures, and they differ from other members of the family in that they use acetate as an electron donor.

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and can grow at high temperatures, but they differ from other members of the family in that they use iron as an electron donor instead of organic compounds.

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While all genera within the Archaeoglobaceae are related to each other phylogenetically, the mode of metabolism used by each of these organisms is unique.

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Slobodkina, Galina; Allioux, Maxime; Merkel, Alexander; Cambon-Bonavita, Marie-Anne; Alain, Karine; Jebbar, Mohamed; Slobodkin, Alexander (16 July 2021).

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Stetter, KO (1989). "Group II. Archaeobacterial sulfate reducers. Order Archaeoglobales". In JT Staley; MP Bryant; N Pfennig; JG Holt (eds.).

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Kim, Daehyun D.; O'Farrell, Corynne; Toth, Courtney R. A.; Montoya, Oscar; Gieg, Lisa M.; Kwon, Tae-Hyuk; Yoon, Sukhwan (July 2018).

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reduction, which allows them to produce energy without the need for oxygen. Other species of Archaeoglobaceae are able to use

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Bergey's Manual of Systematic Bacteriology Volume 1: The Archaea and the deeply branching and phototrophic Bacteria

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Bergey's Manual of Systematic Bacteriology Volume 1: The Archaea and the deeply branching and phototrophic Bacteria

1174: 1245: 2753: 1349: 1322: 1295: 399: 943: 609: 321:: This genus contains a single species, Ferroglobus placidus, which is found in hydrothermal vents. They are 2222: 1937: 976: 895: 692: 645: 55: 2822: 2610: 1649:"The complete genome sequence of the hyperthermophilic, sulphate-reducing archaeon Archaeoglobus fulgidus" 1063: 926: 588: 442: 63:

fragment and illustrating the base-pairing and aromatic stacking stabilization of the bound conformation.

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Marietou, Angeliki (2021). "Sulfate reducing microorganisms in high temperature oil reservoirs".

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Saini, Rashmi; Kapoor, Rupam; Kumar, Rita; Siddiqi, T.O.; Kumar, Anil (November 2011). "

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Topçuoğlu, Begüm D.; Holden, James F. (2019). "Extremophiles: Hot Environments".

1492: 331:: This genus contains a single species, Geoglobus acetivorans, which is found in 2696: 2642: 2375: 2050: 2035: 1553:

Saini, Rashmi; Kapoor, Rupam; Kumar, Rita; Siddiqi, T. O.; Kumar, Anil (2011). "

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Brileya, Kristen; Reysenbach, Anna-Louise (2014). "The Class Archaeoglobi".

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dioxide or hydrogen gas as a source of energy(Topçuoğlu et al 2019).

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have three genera and here are some brief differences between them:

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List of Prokaryotic names with Standing in Nomenclature

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List of Prokaryotic names with Standing in Nomenclature

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sulfate-reducing archaea, the only known member of the

1175:"Archaeoglobales - an overview | ScienceDirect Topics" 2617: 2528: 2475: 2466: 2366: 2357: 2348: 2248: 2181: 2069: 2004: 1985: 1961: 1952: 1414:(2nd ed.). New York: Springer Verlag. p. 221:. All known genera within the Archaeoglobaceae are 377:The currently accepted taxonomy is based on the 1565:utilizing microbes – A comprehensive review". 1454:utilizing microbes — A comprehensive review". 229:. Archaeoglobaceae are the only family in the 1809: 1092:National Center for Biotechnology Information 383:National Center for Biotechnology Information 8: 1112:Madigan, M.T. & Martinko, J.M. (2005). 2605: 2472: 2363: 2354: 1958: 1816: 1802: 1794: 1435:Bergey's Manual of Systematic Bacteriology 40: 31: 1768: 1725: 1715: 1672: 387: 265:that possesses this type of metabolism. 1075: 275:organisms that couple the oxidation of 2818:Organisms living on hydrothermal vents 1081: 1079: 1410:. In DR Boone; RW Castenholz (eds.). 1379:. In DR Boone; RW Castenholz (eds.). 7: 1408:"Order I. Archaeoglobales ord. nov." 968: 918: 911: 887: 875: 807: 795: 771: 764: 757: 664: 637: 580: 573: 512: 500: 434: 422: 415: 408: 289:are iron reducing-archaea that use 59:, bound to a short double-stranded 1536:10.1016/B978-0-12-809633-8.90683-6 1487:. Vol. 116. pp. 99–131. 25: 1528:Reference Module in Life Sciences 236:, which is the only order in the 1579:10.1016/j.biotechadv.2011.08.009 1485:Advances in Applied Microbiology 1468:10.1016/j.biotechadv.2011.08.009 72: 1246:"LTP_all tree in newick format" 1114:Brock Biology of Microorganisms 225:and can be found near undersea 1: 1146:10.1007/978-3-642-38954-2_323 463:Archaeoglobus sulfaticallidus 1493:10.1016/bs.aambs.2021.03.004 1406:Huber H; Stetter KO (2001). 1375:Huber H; Stetter KO (2001). 1267:"LTP_06_2022 Release Notes" 483:species‑group 2 2839: 2803:Archaea taxonomic families 1383:(2nd ed.). New York: 2585: 1836: 1717:10.3389/fmicb.2021.679245 1704:Frontiers in Microbiology 990: 973: 966: 940: 923: 916: 909: 892: 885: 873: 829: 812: 805: 793: 776: 769: 762: 689: 669: 662: 642: 635: 606: 585: 578: 571: 537: 517: 510: 498: 459: 439: 432: 420: 413: 398:53 marker proteins based 397: 390: 301:Characteristic and genera 196: 189: 142: 135: 69:Scientific classification 67: 48: 39: 34: 1350:Genome Taxonomy Database 1323:Genome Taxonomy Database 1296:Genome Taxonomy Database 1094:(NCBI) taxonomy database 2223:Methanomassiliicoccales 2148:Methanonatronarchaeales 1761:10.1111/1751-7915.13281 1749:Microbial Biotechnology 1291:"GTDB release 08-RS214" 2145:Methanonatronarchaeia 2055:"Methanofastidiosales" 1567:Biotechnology Advances 1456:Biotechnology Advances 1064:List of Archaea genera 677:Hafenbradl et al. 1997 614:Slobodkina et al. 2021 525:Slobodkina et al. 2009 443:Archaeoglobus infectus 130:Huber and Stetter 2002 49:The PIWI domain of an 2427:"Methanomethylicales" 1995:"Hydrothermarchaeles" 1992:"Hydrothermarchaeia" 1986:"Hydrothermarchaeota" 1179:www.sciencedirect.com 1118:Pearson Prentice Hall 2545:"Heimdallarchaeales" 2424:"Methanomethylicia" 2406:"Geothermarchaeales" 2227:"Natronoplasmatales" 2213:"Aciduliprofundales" 2172:"Syntropharchaeales" 1318:"ar53_r214.sp_label" 1086:Sayers; et al. 780:Ferroglobus placidus 697:Burggraf et al. 1990 673:Ferroglobus placidus 467:Steinsbu et al. 2010 279:to the reduction of 2592:Alternative views: 2195:"Thermoprofundales" 2166:"Syntropharchaeia" 2005:"Methanobacteriota" 1978:"Persephonarchaeia" 1665:1997Natur.390..364K 1615:2002Natur.417...63H 545:Kashefi et al. 2002 340:living environments 297:as energy sources. 271:, in contrast, are 199:"Archaeoglobaceae" 2403:Conexivisphaerales 2264:"Aenigmatarchaeia" 2230:"Sysuiplasmatales" 2139:Methanomicrobiales 2128:"Methanoliparales" 2017:Methanobacteriales 1200:"Archaeoglobaceae" 1140:. pp. 15–23. 1088:"Archaeoglobaceae" 994:A. sulfaticallidus 259:chemoorganotrophic 247:Mode of metabolism 227:hydrothermal vents 181:Methanoproducendum 171:Methanomixotrophus 2790: 2789: 2762:Open Tree of Life 2611:Taxon identifiers 2602: 2601: 2581: 2580: 2577: 2576: 2530:Heimdallarchaeota 2509:"Sigynarchaeales" 2462: 2461: 2430:"Nezhaarchaeales" 2410:Nitrososphaerales 2336:"Undinarchaeota" 2316:"Nanohalarchaeia" 2289:"Huberarchaeota" 2259:Aenigmatarchaeota 2244: 2243: 2234:Thermoplasmatales 2219:"Lunaplasmatales" 2216:"Gimiplasmatales" 2169:"Methanophagales" 2157:Methanosarcinales 2125:"Methanoliparia" 2090:"Mnemosynellales" 1659:(6658): 364–370. 1545:978-0-12-809633-8 1502:978-0-12-824594-1 1425:978-0-387-98771-2 1398:978-0-387-98771-2 1155:978-3-642-38953-5 1116:(11th ed.). 1055: 1054: 1050: 1049: 1041: 1040: 1032: 1031: 1023: 1022: 1014: 1013: 1005: 1004: 955: 954: 862: 861: 853: 852: 844: 843: 752: 751: 743: 742: 734: 733: 725: 724: 716: 715: 707: 706: 698: 678: 651: 650:Huber et al. 1998 624: 623: 615: 594: 555: 554: 546: 526: 487: 486: 477: 476: 468: 448: 295:organic compounds 273:chemolithotrophic 223:hyperthermophilic 208: 207: 202: 131: 51:argonaute protein 35:Archaeoglobaceae 27:Family of archaea 16:(Redirected from 2830: 2783: 2782: 2770: 2769: 2757: 2756: 2744: 2743: 2741:archaeoglobaceae 2731: 2730: 2718: 2717: 2705: 2704: 2692: 2691: 2679: 2678: 2666: 2665: 2653: 2652: 2651: 2649:Archaeoglobaceae 2638: 2637: 2636: 2619:Archaeoglobaceae 2606: 2570:"Wukongarchaeia" 2562:"Borrarchaeales" 2551:"Kariarchaeales" 2542:"Gerdarchaeales" 2538:Heimdallarchaeia 2506:"Lokiarchaeales" 2490:"Hermodarchaeia" 2473: 2443:"Marsarchaeales" 2419:"Culexarchaeles" 2416:"Culexarchaeia" 2400:"Caldarchaeales" 2364: 2355: 2311:Nanohalarchaeota 2184:Thermoplasmatota 2161:Methanotrichales 2153:Methanosarcinia 2115:"Methanocellia" 2047:"Theionarchaeia" 1959: 1865: 1845: 1818: 1811: 1804: 1795: 1790: 1772: 1739: 1729: 1719: 1694: 1676: 1642: 1590: 1564: 1563: 1562: 1549: 1522: 1479: 1453: 1452: 1451: 1438: 1429: 1402: 1362: 1361: 1359: 1357: 1341: 1335: 1334: 1332: 1330: 1314: 1308: 1307: 1305: 1303: 1287: 1281: 1280: 1278: 1276: 1271: 1263: 1257: 1256: 1254: 1252: 1242: 1236: 1235: 1233: 1231: 1221: 1215: 1214: 1212: 1211: 1195: 1189: 1188: 1186: 1185: 1171: 1160: 1159: 1133: 1122: 1121: 1109: 1103: 1102: 1100: 1099: 1083: 969: 919: 912: 888: 876: 808: 796: 772: 765: 758: 696: 676: 665: 649: 638: 613: 592: 581: 574: 544: 524: 513: 501: 466: 447:Mori et al. 2008 446: 435: 423: 416: 409: 388: 306:Archaeoglobaceae 211:Archaeoglobaceae 200: 129: 126:Archaeoglobaceae 77: 76: 44: 32: 21: 2838: 2837: 2833: 2832: 2831: 2829: 2828: 2827: 2793: 2792: 2791: 2786: 2778: 2773: 2765: 2760: 2752: 2747: 2739: 2734: 2726: 2721: 2713: 2708: 2700: 2695: 2687: 2682: 2674: 2669: 2661: 2656: 2647: 2646: 2641: 2632: 2631: 2626: 2613: 2603: 2598: 2573: 2565:"Sifarchaeales" 2556:"Njordarchaeia" 2548:"Hodarchaeales" 2524: 2503:"Helarchaeales" 2487:"Freyrarchaeia" 2484:"Baldrarchaeia" 2458: 2452:Thermoproteales 2396:Nitrososphaeria 2380:"Korarchaeales" 2350:Proteoarchaeota 2344: 2339:"Undinarchaeia" 2292:"Huberarchaeia" 2269:"Altarchaeota" 2240: 2203:"Poseidoniales" 2177: 2134:Methanomicrobia 2119:Methanocellales 2110:"Hikarchaeales" 2101:Halobacteriales 2086:Archaeoglobales 2065: 2029:Methanococcales 2012:Methanobacteria 2000: 1981: 1973:"Hadarchaeales" 1948: 1947: 1863: 1841: 1832: 1822: 1742: 1697: 1645: 1623:10.1038/417063a 1609:(6884): 63–67. 1600: 1597: 1561: 1558: 1557: 1556: 1554: 1552: 1546: 1525: 1503: 1482: 1450: 1447: 1446: 1445: 1443: 1441: 1432: 1426: 1405: 1399: 1385:Springer Verlag 1374: 1371: 1369:Further reading 1366: 1365: 1355: 1353: 1345:"Taxon History" 1343: 1342: 1338: 1328: 1326: 1316: 1315: 1311: 1301: 1299: 1289: 1288: 1284: 1274: 1272: 1269: 1265: 1264: 1260: 1250: 1248: 1244: 1243: 1239: 1229: 1227: 1223: 1222: 1218: 1209: 1207: 1197: 1196: 1192: 1183: 1181: 1173: 1172: 1163: 1156: 1138:The Prokaryotes 1135: 1134: 1125: 1111: 1110: 1106: 1097: 1095: 1085: 1084: 1077: 1072: 1060: 1051: 1042: 1033: 1024: 1015: 1006: 956: 863: 854: 845: 753: 744: 735: 726: 717: 708: 625: 556: 488: 478: 391:16S rRNA based 375: 342: 303: 249: 234:Archaeoglobales 219:Archaeoglobales 128: 116:Archaeoglobales 71: 28: 23: 22: 18:Archaeoglobales 15: 12: 11: 5: 2836: 2834: 2826: 2825: 2820: 2815: 2810: 2805: 2795: 2794: 2788: 2787: 2785: 2784: 2771: 2758: 2745: 2732: 2719: 2706: 2693: 2680: 2667: 2654: 2639: 2623: 2621: 2615: 2614: 2609: 2600: 2599: 2597: 2596: 2590: 2586: 2583: 2582: 2579: 2578: 2575: 2574: 2572: 2571: 2568: 2567: 2566: 2563: 2559:"Sifarchaeia" 2557: 2554: 2553: 2552: 2549: 2546: 2543: 2534: 2532: 2526: 2525: 2523: 2522: 2517: 2512: 2511: 2510: 2507: 2504: 2494: 2493:"Jordarchaeia" 2491: 2488: 2485: 2481: 2479: 2470: 2464: 2463: 2460: 2459: 2457: 2456: 2455: 2454: 2449: 2444: 2441: 2440:"Gearchaeales" 2433: 2432: 2431: 2428: 2422: 2421: 2420: 2414: 2413: 2412: 2407: 2404: 2401: 2393: 2392: 2391: 2390:"Hecatellales" 2383: 2382: 2381: 2372: 2370: 2368:Thermoproteota 2361: 2352: 2346: 2345: 2343: 2342: 2341: 2340: 2334: 2333: 2332: 2331:"Nanohalobiia" 2329: 2328:"Nanoarchaeia" 2319: 2318: 2317: 2307: 2306: 2305: 2304:"Micrarchaeia" 2295: 2294: 2293: 2287: 2286: 2285: 2284:"Iainarchaeia" 2275: 2274: 2273: 2267: 2266: 2265: 2254: 2252: 2246: 2245: 2242: 2241: 2239: 2238: 2237: 2236: 2231: 2228: 2225: 2220: 2217: 2214: 2209:Thermoplasmata 2206: 2205: 2204: 2200:"Poseidoniia" 2198: 2197: 2196: 2192:"Izemarchaea" 2189: 2187: 2179: 2178: 2176: 2175: 2174: 2173: 2170: 2164: 2163: 2162: 2159: 2151: 2150: 2149: 2143: 2142: 2141: 2131: 2130: 2129: 2123: 2122: 2121: 2113: 2112: 2111: 2107:"Hikarchaeia" 2105: 2104: 2103: 2093: 2092: 2091: 2088: 2077: 2075: 2072:Halobacteriota 2067: 2066: 2064: 2063: 2062: 2061: 2059:Thermococcales 2056: 2048: 2045: 2044: 2043: 2041:Methanopyrales 2033: 2032: 2031: 2021: 2020: 2019: 2008: 2006: 2002: 2001: 1999: 1998: 1997: 1996: 1989: 1987: 1983: 1982: 1980: 1979: 1976: 1975: 1974: 1970:"Hadarchaeia" 1967: 1965: 1956: 1950: 1949: 1946: 1945: 1944: 1943: 1942: 1941: 1938:Mesomycetozoea 1935: 1930: 1920: 1910: 1909: 1908: 1903: 1898: 1893: 1888: 1887: 1886: 1874:Diaphoretickes 1871: 1866: 1861: 1856: 1851: 1846: 1838: 1837: 1834: 1833: 1831:classification 1823: 1821: 1820: 1813: 1806: 1798: 1792: 1791: 1755:(4): 788–796. 1740: 1695: 1643: 1596: 1593: 1592: 1591: 1573:(6): 949–960. 1559: 1550: 1544: 1523: 1501: 1480: 1462:(6): 949–960. 1448: 1439: 1430: 1424: 1403: 1397: 1370: 1367: 1364: 1363: 1336: 1309: 1282: 1258: 1237: 1216: 1190: 1161: 1154: 1123: 1104: 1074: 1073: 1071: 1068: 1067: 1066: 1059: 1056: 1053: 1052: 1048: 1047: 1044: 1043: 1039: 1038: 1035: 1034: 1030: 1029: 1026: 1025: 1021: 1020: 1017: 1016: 1012: 1011: 1008: 1007: 1003: 1002: 999: 998: 989: 986: 985: 982: 981: 972: 967: 965: 962: 961: 958: 957: 953: 952: 949: 948: 939: 936: 935: 932: 931: 922: 917: 915: 910: 908: 905: 904: 901: 900: 891: 886: 884: 874: 872: 869: 868: 865: 864: 860: 859: 856: 855: 851: 850: 847: 846: 842: 841: 838: 837: 828: 825: 824: 821: 820: 816:G. acetivorans 811: 806: 804: 794: 792: 789: 788: 785: 784: 775: 770: 768: 763: 761: 756: 754: 750: 749: 746: 745: 741: 740: 737: 736: 732: 731: 728: 727: 723: 722: 719: 718: 714: 713: 710: 709: 705: 704: 701: 700: 688: 685: 684: 681: 680: 668: 663: 661: 658: 657: 654: 653: 641: 636: 634: 631: 630: 627: 626: 622: 621: 618: 617: 605: 602: 601: 598: 597: 584: 579: 577: 572: 570: 562: 561: 558: 557: 553: 552: 549: 548: 536: 533: 532: 529: 528: 521:G. acetivorans 516: 511: 509: 499: 497: 494: 493: 490: 489: 485: 484: 480: 479: 475: 474: 471: 470: 458: 455: 454: 451: 450: 438: 433: 431: 421: 419: 414: 412: 407: 404: 403: 396: 374: 371: 344:Archaeoglobus 341: 338: 337: 336: 326: 316: 302: 299: 248: 245: 206: 205: 204: 203: 194: 193: 187: 186: 185: 184: 174: 164: 157: 150: 140: 139: 133: 132: 123: 119: 118: 113: 109: 108: 103: 99: 98: 93: 89: 88: 83: 79: 78: 65: 64: 46: 45: 37: 36: 26: 24: 14: 13: 10: 9: 6: 4: 3: 2: 2835: 2824: 2823:Euryarchaeota 2821: 2819: 2816: 2814: 2811: 2809: 2806: 2804: 2801: 2800: 2798: 2781: 2776: 2772: 2768: 2763: 2759: 2755: 2750: 2746: 2742: 2737: 2733: 2729: 2724: 2720: 2716: 2711: 2707: 2703: 2698: 2694: 2690: 2685: 2681: 2677: 2672: 2668: 2664: 2659: 2655: 2650: 2644: 2640: 2635: 2629: 2625: 2624: 2622: 2620: 2616: 2612: 2607: 2595: 2591: 2588: 2587: 2584: 2569: 2564: 2561: 2560: 2558: 2555: 2550: 2547: 2544: 2541: 2540: 2539: 2536: 2535: 2533: 2531: 2527: 2521: 2518: 2516: 2513: 2508: 2505: 2502: 2501: 2499: 2495: 2492: 2489: 2486: 2483: 2482: 2480: 2478: 2477:Lokiarchaeota 2474: 2471: 2469: 2465: 2453: 2450: 2448: 2445: 2442: 2439: 2438: 2437: 2436:Thermoproteia 2434: 2429: 2426: 2425: 2423: 2418: 2417: 2415: 2411: 2408: 2405: 2402: 2399: 2398: 2397: 2394: 2389: 2388: 2387: 2386:Bathyarchaeia 2384: 2379: 2378: 2377: 2374: 2373: 2371: 2369: 2365: 2362: 2360: 2356: 2353: 2351: 2347: 2338: 2337: 2335: 2330: 2327: 2326: 2324: 2323:Nanoarchaeota 2320: 2315: 2314: 2312: 2308: 2303: 2302: 2300: 2299:Micrarchaeota 2296: 2291: 2290: 2288: 2283: 2282: 2280: 2279:Iainarchaeota 2276: 2272:"Altarchaeia" 2271: 2270: 2268: 2263: 2262: 2260: 2256: 2255: 2253: 2251: 2247: 2235: 2232: 2229: 2226: 2224: 2221: 2218: 2215: 2212: 2211: 2210: 2207: 2202: 2201: 2199: 2194: 2193: 2191: 2190: 2188: 2185: 2180: 2171: 2168: 2167: 2165: 2160: 2158: 2155: 2154: 2152: 2147: 2146: 2144: 2140: 2137: 2136: 2135: 2132: 2127: 2126: 2124: 2120: 2117: 2116: 2114: 2109: 2108: 2106: 2102: 2099: 2098: 2097: 2094: 2089: 2087: 2084: 2083: 2082: 2081:Archaeoglobia 2079: 2078: 2076: 2073: 2068: 2060: 2057: 2054: 2053: 2052: 2049: 2046: 2042: 2039: 2038: 2037: 2034: 2030: 2027: 2026: 2025: 2022: 2018: 2015: 2014: 2013: 2010: 2009: 2007: 2003: 1994: 1993: 1991: 1990: 1988: 1984: 1977: 1972: 1971: 1969: 1968: 1966: 1964: 1960: 1957: 1955: 1954:Euryarchaeota 1951: 1939: 1936: 1934: 1931: 1929: 1926: 1925: 1924: 1921: 1919: 1916: 1915: 1914: 1911: 1907: 1904: 1902: 1901:Stramenopiles 1899: 1897: 1894: 1892: 1889: 1885: 1882: 1881: 1880: 1877: 1876: 1875: 1872: 1870: 1867: 1864:(major groups 1862: 1860: 1857: 1855: 1852: 1850: 1847: 1844: 1840: 1839: 1835: 1830: 1826: 1819: 1814: 1812: 1807: 1805: 1800: 1799: 1796: 1788: 1784: 1780: 1776: 1771: 1766: 1762: 1758: 1754: 1750: 1746: 1741: 1737: 1733: 1728: 1723: 1718: 1713: 1709: 1705: 1701: 1696: 1692: 1688: 1684: 1680: 1675: 1674:10.1038/37052 1670: 1666: 1662: 1658: 1654: 1650: 1644: 1640: 1636: 1632: 1628: 1624: 1620: 1616: 1612: 1608: 1604: 1599: 1598: 1594: 1588: 1584: 1580: 1576: 1572: 1568: 1551: 1547: 1541: 1537: 1533: 1529: 1524: 1520: 1516: 1512: 1508: 1504: 1498: 1494: 1490: 1486: 1481: 1477: 1473: 1469: 1465: 1461: 1457: 1440: 1436: 1431: 1427: 1421: 1417: 1413: 1409: 1404: 1400: 1394: 1390: 1386: 1382: 1378: 1373: 1372: 1368: 1352: 1351: 1346: 1340: 1337: 1325: 1324: 1319: 1313: 1310: 1298: 1297: 1292: 1286: 1283: 1268: 1262: 1259: 1247: 1241: 1238: 1226: 1220: 1217: 1205: 1201: 1198:J.P. Euzéby. 1194: 1191: 1180: 1176: 1170: 1168: 1166: 1162: 1157: 1151: 1147: 1143: 1139: 1132: 1130: 1128: 1124: 1119: 1115: 1108: 1105: 1093: 1089: 1082: 1080: 1076: 1069: 1065: 1062: 1061: 1057: 1046: 1045: 1037: 1036: 1028: 1027: 1019: 1018: 1010: 1009: 1001: 1000: 997: 996: 995: 988: 987: 984: 983: 980: 979: 978: 971: 970: 964: 963: 960: 959: 951: 950: 947: 946: 945: 938: 937: 934: 933: 930: 929: 928: 921: 920: 914: 913: 907: 906: 903: 902: 899: 898: 897: 890: 889: 883: 882: 881:Archaeoglobus 878: 877: 871: 870: 867: 866: 858: 857: 849: 848: 840: 839: 836: 835: 834: 827: 826: 823: 822: 819: 818: 817: 810: 809: 803: 802: 798: 797: 791: 790: 787: 786: 783: 782: 781: 774: 773: 767: 766: 760: 759: 755: 748: 747: 739: 738: 730: 729: 721: 720: 712: 711: 703: 702: 699: 695: 694: 687: 686: 683: 682: 679: 675: 674: 667: 666: 660: 659: 656: 655: 652: 648: 647: 640: 639: 633: 632: 629: 628: 620: 619: 616: 612: 611: 604: 603: 600: 599: 596: 591: 590: 583: 582: 576: 575: 569: 568: 567:Archaeoglobus 564: 563: 560: 559: 551: 550: 547: 543: 542: 535: 534: 531: 530: 527: 523: 522: 515: 514: 508: 507: 503: 502: 496: 495: 492: 491: 482: 481: 473: 472: 469: 465: 464: 457: 456: 453: 452: 449: 445: 444: 437: 436: 430: 429: 428:Archaeoglobus 425: 424: 418: 417: 411: 410: 406: 405: 401: 394: 389: 386: 384: 380: 372: 370: 367: 361: 359: 355: 352: 351:dissimilatory 347: 339: 334: 330: 327: 324: 320: 317: 314: 313:Archaeoglobus 311: 310: 309: 307: 300: 298: 296: 292: 288: 287: 282: 278: 274: 270: 269: 264: 260: 256: 255: 254:Archaeoglobus 246: 244: 242: 239: 235: 232: 228: 224: 220: 216: 212: 198: 197: 195: 192: 188: 182: 179: 175: 172: 169: 165: 163: 162: 158: 156: 155: 151: 149: 148: 147:Archaeoglobus 144: 143: 141: 138: 134: 127: 124: 121: 120: 117: 114: 111: 110: 107: 104: 101: 100: 97: 96:Euryarchaeota 94: 91: 90: 87: 84: 81: 80: 75: 70: 66: 62: 58: 57: 52: 47: 43: 38: 33: 30: 19: 2813:Sulphophiles 2808:Thermophiles 2618: 2520:Thorarchaeia 2515:Odinarchaeia 2498:Lokiarchaeia 2447:Sulfolobales 2096:Halobacteria 2024:Methanococci 1963:Hadarchaeota 1923:Opisthokonta 1752: 1748: 1707: 1703: 1656: 1652: 1606: 1602: 1595:Bibliography 1570: 1566: 1527: 1484: 1459: 1455: 1434: 1411: 1380: 1354:. Retrieved 1348: 1339: 1327:. Retrieved 1321: 1312: 1300:. Retrieved 1294: 1285: 1273:. Retrieved 1261: 1249:. Retrieved 1240: 1228:. Retrieved 1219: 1208:. Retrieved 1193: 1182:. Retrieved 1178: 1137: 1113: 1107: 1096:. Retrieved 992: 991: 977:A. veneficus 975: 974: 944:A. neptunius 942: 941: 925: 924: 894: 893: 879: 831: 830: 814: 813: 799: 778: 777: 693:A. profundus 691: 690: 671: 670: 646:A. veneficus 644: 643: 610:A. neptunius 608: 607: 593:Stetter 1988 587: 586: 565: 539: 538: 519: 518: 504: 461: 460: 441: 440: 426: 376: 362: 343: 333:hydrothermal 323:thermophilic 305: 304: 284: 277:ferrous iron 266: 252: 250: 241:Archaeoglobi 240: 233: 210: 209: 201:Stetter 1989 177: 167: 159: 152: 145: 125: 106:Archaeoglobi 54: 29: 2697:iNaturalist 2643:Wikispecies 2594:Wikispecies 2376:Korarchaeia 2051:Thermococci 2036:Methanopyri 1825:Prokaryotes 927:A. fulgidus 896:A.profundus 833:G. ahangari 595:(type sp.) 589:A. fulgidus 541:G. ahangari 381:(LPSN) and 319:Ferroglobus 268:Ferroglobus 154:Ferroglobus 56:A. fulgidus 2797:Categories 1710:: 679245. 1387:. p. 1210:2021-11-17 1184:2023-04-27 1098:2021-06-05 1070:References 1918:Amoebozoa 1896:Alveolata 1884:Cryptista 1859:Eukaryota 1519:235081283 1225:"The LTP" 801:Geoglobus 506:Geoglobus 402:08-RS214 395:_06_2022 373:Phylogeny 366:nutrients 329:Geoglobus 286:Geoglobus 161:Geoglobus 92:Kingdom: 2634:Q4785366 2628:Wikidata 1913:Amorphea 1891:Rhizaria 1879:Hacrobia 1869:Excavata 1854:Bacteria 1787:44082150 1779:29806176 1736:34335500 1691:83683005 1631:11986665 1587:21856405 1511:34353505 1476:21856405 1058:See also 385:(NCBI). 291:hydrogen 191:Synonyms 122:Family: 82:Domain: 2589:Source: 1928:Animals 1849:Archaea 1829:Archaea 1770:6011920 1727:8322695 1683:9389475 1661:Bibcode 1639:4395094 1611:Bibcode 354:sulfate 346:species 293:gas or 281:nitrate 263:Archaea 217:of the 112:Order: 102:Class: 86:Archaea 2780:416242 2728:951454 2715:105569 2702:357111 2468:Asgard 1906:Plants 1843:Domain 1785: 1777: 1767: 1734: 1724: 1689: 1681: 1653:Nature 1637: 1629: 1603:Nature 1585: 1542: 1517: 1509: 1499: 1474: 1422: 1395: 1356:10 May 1329:10 May 1302:10 May 1275:10 May 1251:10 May 1230:10 May 1206:(LPSN) 1152: 358:carbon 215:family 213:are a 137:Genera 2775:WoRMS 2710:IRMNG 2250:DPANN 1933:Fungi 1783:S2CID 1687:S2CID 1635:S2CID 1515:S2CID 1270:(PDF) 238:class 231:order 53:from 2754:2232 2749:NCBI 2736:LPSN 2723:ITIS 2689:3799 2684:GBIF 2676:7961 2359:TACK 1775:PMID 1732:PMID 1679:PMID 1627:PMID 1583:PMID 1540:ISBN 1507:PMID 1497:ISBN 1472:PMID 1420:ISBN 1393:ISBN 1358:2023 1331:2023 1304:2023 1277:2023 1253:2023 1232:2023 1150:ISBN 400:GTDB 257:are 2767:999 2671:EoL 2663:6N2 2658:CoL 1765:PMC 1757:doi 1722:PMC 1712:doi 1669:doi 1657:390 1619:doi 1607:417 1575:doi 1532:doi 1489:doi 1464:doi 1416:169 1389:169 1142:doi 393:LTP 178:Ca. 168:Ca. 61:RNA 2799:: 2777:: 2764:: 2751:: 2738:: 2725:: 2712:: 2699:: 2686:: 2673:: 2660:: 2645:: 2630:: 2500:" 2325:" 2313:" 2301:" 2281:" 2261:" 1827:: 1781:. 1773:. 1763:. 1753:11 1751:. 1747:. 1730:. 1720:. 1708:12 1706:. 1702:. 1685:. 1677:. 1667:. 1655:. 1651:. 1633:. 1625:. 1617:. 1605:. 1581:. 1571:29 1569:. 1555:CO 1538:. 1530:. 1513:. 1505:. 1495:. 1470:. 1460:29 1458:. 1444:CO 1418:. 1391:. 1347:. 1320:. 1293:. 1202:. 1177:. 1164:^ 1148:. 1126:^ 1090:. 1078:^ 283:. 243:. 2496:" 2321:" 2309:" 2297:" 2277:" 2257:" 2186:" 2182:" 2074:" 2070:" 1940:) 1817:e 1810:t 1803:v 1789:. 1759:: 1738:. 1714:: 1693:. 1671:: 1663:: 1641:. 1621:: 1613:: 1589:. 1577:: 1560:2 1548:. 1534:: 1521:. 1491:: 1478:. 1466:: 1449:2 1428:. 1401:. 1360:. 1333:. 1306:. 1279:. 1255:. 1234:. 1213:. 1187:. 1158:. 1144:: 1120:. 1101:. 183:" 176:" 173:" 166:" 20:)

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