1466:
37:
1319:
Nadal-Jimenez, Pol; Siozios, Stefanos; Frost, Crystal L.; Court, Rebecca; Chrostek, Ewa; Drew, Georgia C.; Evans, Jay D.; Hawthorne, David J.; Burritt, James B.; Hurst, Gregory D. D. (2022-08-03).
777:
Huger, AM; Skinner, SW; Werren, JH (1985). "Bacterial infections associated with the son-killer trait in the parasitoid wasp
Nasonia (= Mormoniella) vitripennis (Hymenoptera: Pteromalidae)".
1615:
714:"Genetic manipulation allows in vivo tracking of the life cycle of the son-killer symbiont, Arsenophonus nasoniae, and reveals patterns of host invasion, tropism and pathology"
1205:
Budge, Giles E.; Adams, Ian; Thwaites, Richard; Pietravalle, Stéphane; Drew, Georgia C.; Hurst, Gregory D. D.; Tomkies, Victoria; Boonham, Neil; Brown, Mike (November 2016).
1589:
1628:
1252:
Cornman, R. Scott; Tarpy, David R.; Chen, Yanping; Jeffreys, Lacey; Lopez, Dawn; Pettis, Jeffery S.; vanEngelsdorp, Dennis; Evans, Jay D. (2012-08-21).
1563:
1602:
1206:
1148:"Genome sequence of Candidatus Arsenophonus lipopteni, the exclusive symbiont of a blood sucking fly Lipoptena cervi (Diptera: Hippoboscidae)"
584:
Drew, Georgia C.; Budge, Giles E.; Frost, Crystal L.; Neumann, Peter; Siozios, Stefanos; Yañez, Orlando; Hurst, Gregory D. D. (October 2021).
1362:
Thao, MyLo Ly; Baumann, Paul (2004). "Evidence for
Multiple Acquisition of Arsenophonus by Whitefly Species (Sternorrhyncha: Aleyrodidae)".
442:"NOTES: Arsenophonus nasoniae gen. nov., sp. nov., the Causative Agent of the Son-Killer Trait in the Parasitic Wasp Nasonia vitripennis"
473:
Duron, Olivier; Bouchon, Didier; Boutin, Sébastien; Bellamy, Lawrence; Zhou, Liqin; Engelstädter, Jan; Hurst, Gregory D. (2008-06-24).
1687:
331:
triggers the death of approximately 80% of the wasps male offspring. Killing male offspring is thought to facilitate the spread of
1654:
651:"Characteristics of the draft genome of "Candidatus Arsenophonus nilaparvatae", a facultative endosymbiont of Nilaparvata lugens"
318:
586:"Transitions in symbiosis: evidence for environmental acquisition and social transmission within a clade of heritable symbionts"
271:
1607:
712:
Nadal-Jimenez, Pol; Griffin, Joanne S.; Davies, Lianne; Frost, Crystal L.; Marcello, Marco; Hurst, Gregory D. D. (2019).
36:
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222:
147:
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bacteria have been identified in a diversity of insect taxa, including economically important species such as the
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235:
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through the host population as it releases more resources to female offspring, and it is the female line that
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genus are increasingly discovered bacterial symbionts of arthropods that are estimated to infect over 5% of
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Ferree, Patrick M.; Avery, Amanda; Azpurua, Jorge; Wilkes, Timothy; Werren, John H. (2008-09-23).
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Nováková, Eva; Hypša, Václav; Nguyen, Petr; HusnĂk, Filip; Darby, Alistair C. (2016-09-17).
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534:"Endosymbiotic bacteria in honey bees: Arsenophonus spp. are not transmitted transovarially"
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in a colony has been linked to poor bee health. This species has been formally described as
78:
1040:"Arsenophonus, an emerging clade of intracellular symbionts with a broad host distribution"
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475:"The diversity of reproductive parasites among arthropods: Wolbachiado not walk alone"
1676:
1089:
Perotti, M. Alejandra; Allen, Julie M.; Reed, David L.; Braig, Henk R. (April 2007).
790:
1132:
1091:"Host-symbiont interactions of the primary endosymbiont of human head and body lice"
1024:
698:
1399:
350:
111:
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synthesis, and are vertically transmitted across host generations. In other hosts
1500:
1278:
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949:
869:"A Bacterium Targets Maternally Inherited Centrosomes to Kill Males in Nasonia"
649:
Fan, Hai-Wei; Lu, Jia-Bao; Ye, Yu-Xuan; Yu, Xiao-Ping; Zhang, Chuan-Xi (2016).
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species globally and form a variety of relationships with hosts across the
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1321:"Arsenophonus apicola sp. nov., isolated from the honeybee Apis mellifera"
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934:"The Impact of Male-Killing Bacteria on Host Evolutionary Processes"
1555:
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1325:
International
Journal of Systematic and Evolutionary Microbiology
368:
symbionts are essential to host functioning and are involved in
301:
for which genetic manipulation has been successful in achieving
1475:
1542:
989:
Hurst, Gregory D. D.; Majerus, Michael E. N. (July 1993).
812:
Werren, J. H.; Skinner, S. W.; Huger, A. M. (1986-02-28).
1407:
Grindle, Nathan; et al. (2003). "Identification of
991:"Why do maternally inherited microorganisms kill males?"
932:
Engelstädter, Jan; Hurst, Gregory D. D. (January 2007).
1207:"Identifying bacterial predictors of honey bee health"
1484:
1254:"Pathogen Webs in Collapsing Honey Bee Colonies"
579:
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446:International Journal of Systematic Bacteriology
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8:
1038:Nováková, E.; Hypša, V.; Moran, A. (2009).
814:"Male-killing bacteria in a parasitic wasp"
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403:. The majority of associations between
440:Gherna, Robert L.; et al. (1991).
416:
407:and host taxa remain uncharacterized.
321:through eggs, and has a male-killing
7:
295:has been done on the type species
14:
1417:Journal of Invertebrate Pathology
1411:-type bacteria from the dog tick
1211:Journal of Invertebrate Pathology
779:Journal of Invertebrate Pathology
35:
272:mutualism parasitism continuum
223:Arsenophonus phytopathogenicus
1:
1429:10.1016/s0022-2011(03)00080-6
1152:Standards in Genomic Sciences
342:Within the genus a number of
1279:10.1371/journal.pone.0043562
791:10.1016/0022-2011(85)90069-2
346:strains have known roles as
178:corrig. Nováková et al. 2016
950:10.1534/genetics.106.060921
305:tracking of the bacterium.
1709:
718:Environmental Microbiology
610:10.1038/s41396-021-00977-z
236:Arsenophonus triatominarum
148:Arsenophonus arthropodicus
1688:Monotypic bacteria genera
1376:10.1007/s00284-003-4157-7
1223:10.1016/j.jip.2016.11.003
1165:10.1186/s40793-016-0195-1
893:10.1016/j.cub.2008.07.093
538:FEMS Microbiology Letters
459:10.1099/00207713-41-4-563
210:Arsenophonus nilaparvatae
132:
125:
117:
110:
32:Scientific classification
30:
23:
389:horizontally transmitted
339:is transmitted through.
291:The majority of work on
161:Arsenophonus insecticola
1057:10.1186/1471-2180-9-143
838:10.1126/science.3945814
738:10.1111/1462-2920.14724
675:10.1111/1744-7917.12318
532:Yañez, Orlando (2016).
174:Arsenophonus lipoptenae
1413:Dermacentor variabilis
1337:10.1099/ijsem.0.005469
492:10.1186/1741-7007-6-27
395:, and the presence of
319:vertically transmitted
187:Arsenophonus melophagi
1108:10.1096/fj.06-6808com
550:10.1093/femsle/fnw147
328:Arsenophonus nasoniae
308:Arsenophonus nasoniae
298:Arsenophonus nasoniae
197:Arsenophonus nasoniae
119:Arsenophonus nasoniae
1461:Encyclopedia of Life
1364:Current Microbiology
1008:10.1038/hdy.1993.110
401:Arsenophonus apicola
317:parasitic wasps, is
191:Nováková et al. 2015
136:Arsenophonus apicola
1270:2012PLoSO...743562C
885:2008CBio...18.1409F
830:1986Sci...231..990W
730:2019EnvMi..21.3172N
667:2016InsSc..23..478F
602:2021ISMEJ..15.2956D
376:is suspected to be
260:Gammaproteobacteria
240:Hypša and Dale 1997
227:Bressan et al. 2012
69:Gammaproteobacteria
285:Nilaparvata lugens
282:and the rice pest
201:Gherna et al. 1991
105:Gherna et al. 1991
1670:
1669:
1642:Open Tree of Life
1621:arsenophonus.html
1478:Taxon identifiers
879:(18): 1409–1414.
824:(4741): 990–992.
596:(10): 2956–2968.
429:LPSN lpsn.dsmz.de
382:Western honey bee
356:Pediculus humanus
325:. Infection with
280:Western honey bee
262:. Members of the
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165:Allen et al. 2007
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139:Nadal et al. 2022
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16:Genus of bacteria
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79:Enterobacterales
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1456:"Arsenophonus"
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1445:External links
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655:Insect Science
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25:Arsenophonus
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1577:iNaturalist
1510:Wikispecies
479:BMC Biology
348:mutualistic
1677:Categories
411:References
353:. In both
233:Candidatus
220:Candidatus
207:Candidatus
184:Candidatus
171:Candidatus
158:Candidatus
145:Candidatus
1501:Q16530186
1384:0343-8651
1345:1466-5026
1288:1932-6203
1231:1096-0805
1217:: 41–44.
1174:1944-3277
1158:(1): 72.
1117:1530-6860
1017:1365-2540
958:0016-6731
901:0960-9822
846:0036-8075
746:1462-2920
683:1744-7917
618:1751-7370
501:1741-7007
485:(1): 27.
380:. In the
378:parasitic
323:phenotype
268:arthropod
258:, of the
1495:Wikidata
1437:12877836
1392:15057483
1306:22927991
1258:PLOS ONE
1239:27818181
1192:27660670
1133:18998241
1125:17227954
1076:19619300
1025:26129786
995:Heredity
976:17151259
938:Genetics
919:18804376
764:31237728
699:44398605
691:26792263
636:33941888
568:27279628
519:18577218
311:infects
85:Family:
55:Phylum:
49:Bacteria
45:Domain:
1595:1032190
1569:3221724
1458:at the
1400:2919000
1297:3424165
1266:Bibcode
1183:5027103
1067:2724383
1050:: 143.
967:1774985
910:2577321
881:Bibcode
854:3945814
826:Bibcode
818:Science
799:4067323
755:6771839
726:Bibcode
663:Bibcode
627:8443716
598:Bibcode
559:4941583
510:2492848
387:can be
370:vitamin
314:Nasonia
303:in vivo
127:Species
95:Genus:
75:Order:
65:Class:
1660:570989
1647:857267
1608:956777
1582:508088
1556:1ARSEG
1435:
1398:
1390:
1382:
1343:
1304:
1294:
1286:
1237:
1229:
1190:
1180:
1172:
1131:
1123:
1115:
1074:
1064:
1023:
1015:
974:
964:
956:
917:
907:
899:
852:
844:
797:
762:
752:
744:
697:
689:
681:
634:
624:
616:
566:
556:
517:
507:
499:
1655:WoRMS
1590:IRMNG
1543:97443
1396:S2CID
1331:(8).
1129:S2CID
1021:S2CID
695:S2CID
1629:NCBI
1616:LPSN
1603:ITIS
1564:GBIF
1551:EPPO
1530:339B
1451:LPSN
1433:PMID
1388:PMID
1380:ISSN
1341:ISSN
1302:PMID
1284:ISSN
1235:PMID
1227:ISSN
1188:PMID
1170:ISSN
1121:PMID
1113:ISSN
1072:PMID
1013:ISSN
972:PMID
954:ISSN
915:PMID
897:ISSN
850:PMID
842:ISSN
795:PMID
760:PMID
742:ISSN
687:PMID
679:ISSN
632:PMID
614:ISSN
564:PMID
515:PMID
497:ISSN
391:via
359:and
1634:637
1538:EoL
1525:CoL
1425:doi
1415:".
1372:doi
1333:doi
1292:PMC
1274:doi
1219:doi
1215:141
1178:PMC
1160:doi
1103:doi
1062:PMC
1052:doi
1003:doi
962:PMC
946:doi
942:175
905:PMC
889:doi
834:doi
822:231
787:doi
750:PMC
734:doi
671:doi
622:PMC
606:doi
554:PMC
546:doi
542:363
505:PMC
487:doi
454:doi
1679::
1657::
1644::
1631::
1618::
1605::
1592::
1579::
1566::
1553::
1540::
1527::
1512::
1497::
1431:.
1421:83
1419:.
1394:.
1386:.
1378:.
1368:48
1366:.
1339:.
1329:72
1327:.
1323:.
1300:.
1290:.
1282:.
1272:.
1260:.
1256:.
1233:.
1225:.
1213:.
1209:.
1186:.
1176:.
1168:.
1156:11
1154:.
1150:.
1127:.
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1099:21
1097:.
1093:.
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1019:.
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999:71
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