46:
33:
319:. This technique has also led to the commercial production of certain metabolic compounds that the plant is known to secrete, especially in regard to the medicinal plants that are difficult to cultivate in sufficient quantities by other means. The root cultures are also used for
417:
1113:
935:
1087:
948:
1061:
909:
1100:
922:
658:
Kyndt, Tina; Quispea, Dora; Zhaic, Hong; Jarretd, Robert; Ghislainb, Marc; Liuc, Qingchang; Gheysena, Godelieve; Kreuzeb, Jan F. (20 April 2015).
234:
induces the formation of proliferative multiple-branched adventitious roots at the site of infection, so-called 'hairy roots'. It also induces
615:
542:
660:"The genome of cultivated sweet potato contains Agrobacterium T-DNAs with expressed genes: An example of a naturally transgenic food crop"
1169:
527:
719:
261:
effects that attract the bacteria. Under such conditions, certain bacterial genes are turned on leading to the transfer of its
1105:
927:
754:
Otani, Motoyasu; Mii, Masahiro; Handa, Takashi; Kamada, Hiroshi; Shimada, Takiko (1993). "Transformation of sweet potato (
359:
is not subsumed. However, GTDB makes 4 extra species-level clusters containing genomes likely mislabelled as this species.
900:
472:
Chilton, Mary-Dell; Tepfer, David A.; Petit, Annik; David, Chantal; Casse-Delbart, Francine; Tempé, Jacques (1982).
45:
953:
265:
from its root-inducing plasmid (Ri plasmid) into the plant through the wound. After integration and expression,
817:
764:
862:
1164:
340:
130:
1128:
963:
826:
773:
671:
624:
485:
181:
351:, which also resolves much of the phylogenetic incoherences on the molecular level given 2001 data.
320:
282:
77:
807:
Van de Velde, Willem; Mergeay, Joachim; Holsters, Marcelle; Goormachtig, Sofie (December 2003). "
163:
147:
40:
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842:
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is observed, which typically includes overdevelopment of a root system that is not completely
1141:
986:
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728:
689:
679:
632:
571:
530:
493:
426:
87:
381:
Frank 1889, with an emended description of the genus, and the inclusion of all species of
558:
Cardarelli, M.; Mariotti, D.; Pomponi, M.; Spanò, L.; Capone, I.; Costantino, P. (1987).
454:
355:
agrees on this assignment of the type strain, and finds that it's still coherent even if
940:
830:
777:
675:
628:
489:
694:
659:
254:
250:
67:
838:
732:
474:"Agrobacterium rhizogenes inserts T-DNA into the genomes of the host plant root cells"
1158:
785:
219:
1118:
605:
Intrieri, Maria
Carmela; Buiatti, Marcello (July 2001). "The horizontal transfer of
32:
1040:
289:
262:
97:
1013:
1074:
894:
717:
Shanks, Jacqueline V.; Morgan, John (April 1999). "Plant 'hairy root' culture".
524:
Seed-Borne
Diseases of Agricultural Crops: Detection, Diagnosis & Management
300:
242:
227:
664:
Proceedings of the
National Academy of Sciences of the United States of America
560:"Agrobacterium rhizogenes T-DNA genes capable of inducing hairy root phenotype"
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846:
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Young, JM; Kuykendall, LD; Martínez-Romero, E; Kerr, A; Sawada, H (2001).
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International
Journal of Systematic and Evolutionary Microbiology
277:, and altered (wrinkled) leaf morphology, if leaves are present.
517:
515:
352:
235:
860:
296:
genes which are not present in other members of its genus.
311:
to study their soil interaction with other pathogens like
288:
Bacterial genes may be retained within the plant, and
196:. 1930) Conn 1942 (Approved Lists 1980) emend. Sawada
997:
869:
292:for instance has retained and actively expresses
249:or other sources. This leads to the secretion of
8:
522:Kumar, Ravindra; Gupta, Anuja, eds. (2020).
269:or under natural conditions, the hairy root
339:The Young paper renames on the ground of a
857:
31:
20:
693:
683:
430:
245:, plants may suffer from wounds by soil
367:
332:
455:"GTDB - GCF_000696095.1 (release 214)"
616:Molecular Phylogenetics and Evolution
609:genes and the evolution of the genus
7:
1129:c283ff8b-00e8-4358-9c84-4ba21d2db0ac
964:76aa2d90-6a22-461a-b349-3967c9302dd8
564:Molecular and General Genetics MGG
528:Springer Nature Singapore Pte Ltd.
14:
720:Current Opinion in Biotechnology
44:
1:
839:10.1016/S0168-9452(03)00339-X
733:10.1016/S0958-1669(99)80026-3
222:soil bacterium that produces
811:-mediated transformation of
786:10.1016/0168-9452(93)90016-S
393:. 1998 as new combinations:
1186:
1170:Bacteria described in 2001
535:10.1007/978-981-32-9046-4
169:
162:
136:
129:
41:Scientific classification
39:
30:
23:
16:Disease-causing bacterium
941:agrobacterium-rhizogenes
901:Agrobacterium rhizogenes
871:Agrobacterium rhizogenes
809:Agrobacterium rhizogenes
760:Agrobacterium rhizogenes
607:Agrobacterium rhizogenes
432:10.1099/00207713-51-1-89
216:Agrobacterium rhizogenes
189:Agrobacterium rhizogenes
173:Agrobacterium rhizogenes
685:10.1073/pnas.1419685112
637:10.1006/mpev.2001.0927
387:Allorhizobium undicola
758:(L.) Lam.) plants by
395:Rhizobium radiobacter
347:that subsumes all of
281:also propagates as a
228:dicotyledonous plants
1119:rhizobium-rhizogenes
999:Rhizobium rhizogenes
211:Rhizobium rhizogenes
140:Rhizobium rhizogenes
25:Rhizobium rhizogenes
831:2003PlnSc.165.1281V
778:1993PlnSc..94..151O
676:2015PNAS..112.5844K
629:2001MolPE..20..100I
490:1982Natur.295..432C
459:gtdb.ecogenomic.org
321:genetic engineering
283:seed-borne pathogen
78:Alphaproteobacteria
576:10.1007/BF00331152
251:phenolic compounds
224:hairy root disease
122:R. rhizogenes
1152:
1151:
1137:Open Tree of Life
972:Open Tree of Life
863:Taxon identifiers
813:Sesbania rostrata
670:(18): 5844–5849.
544:978-981-32-9046-4
484:(5848): 432–434.
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825:(6): 1281–1288.
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498:10.1038/295432a0
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425:(Pt 1): 89–103.
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88:Hyphomicrobiales
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756:Ipomoea batatas
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377:"A revision of
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43:
17:
12:
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861:
853:
852:
799:
772:(1): 151–159.
746:
727:(2): 151–155.
709:
650:
623:(1): 100–110.
597:
570:(3): 475–480.
550:
543:
511:
464:
446:
385:Conn 1942 and
366:
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361:
331:
330:
328:
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255:acetosyringone
205:
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153:. 1930) Young
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68:Pseudomonadota
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37:
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28:
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15:
13:
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399:R. rhizogenes
396:
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383:Agrobacterium
380:
371:
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358:
357:Agrobacteirum
354:
350:
349:Agrobacterium
346:
342:
336:
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322:
318:
314:
310:
306:
302:
297:
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294:A. rhizogenes
291:
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279:R. rhizogenes
276:
272:
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260:
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248:
244:
239:
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232:R. rhizogenes
229:
225:
221:
220:Gram-negative
217:
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131:Binomial name
128:
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38:
34:
29:
26:
22:
19:
1165:Rhizobiaceae
998:
870:
822:
816:
812:
808:
802:
769:
763:
759:
755:
749:
724:
718:
712:
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290:sweet potato
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208:
197:
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188:
177:
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154:
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139:
137:
121:
120:
108:
98:Rhizobiaceae
24:
18:
1075:iNaturalist
895:Wikispecies
407:R. undicola
389:de Lajudie
309:bioreactors
301:hairy roots
259:chemotactic
257:which have
243:rhizosphere
1159:Categories
327:References
303:are grown
214:(formerly
1014:Q26280580
847:0168-9452
794:0168-9452
611:Nicotiana
584:1432-1874
506:1476-4687
379:Rhizobium
345:Rhizobium
317:nematodes
275:geotropic
271:phenotype
247:pathogens
116:Species:
109:Rhizobium
1093:11296065
1008:Wikidata
880:Wikidata
741:10209145
704:25902487
645:11421651
592:17193709
441:11211278
411:R. vitis
343:view of
305:in vitro
267:in vitro
180:. 1930)
164:Synonyms
94:Family:
64:Phylum:
58:Bacteria
54:Domain:
1142:5898446
1067:5427489
1023:BacDive
987:2113718
977:5898446
915:3220740
886:Q138216
827:Bibcode
774:Bibcode
695:4426443
672:Bibcode
625:Bibcode
486:Bibcode
403:R. rubi
241:In the
218:) is a
192:(Riker
176:(Riker
104:Genus:
84:Order:
74:Class:
1126:NZOR:
1106:965489
1080:560379
1054:AGRBRH
984:uBio:
961:NZOR:
928:967927
845:
792:
739:
702:
692:
643:
590:
582:
541:
504:
478:Nature
439:
409:, and
341:lumper
200:. 1993
157:. 2001
1088:IRMNG
1041:4SBZT
1028:13571
391:et al
313:fungi
263:T-DNA
253:like
236:galls
198:et al
194:et al
178:et al
155:et al
151:et al
148:Riker
1114:LPSN
1101:ITIS
1062:GBIF
1049:EPPO
949:NCBI
936:LPSN
923:ITIS
910:GBIF
843:ISSN
790:ISSN
737:PMID
700:PMID
641:PMID
588:PMID
580:ISSN
539:ISBN
502:ISSN
437:PMID
353:GTDB
315:and
299:The
184:1942
182:Conn
1036:CoL
954:359
835:doi
823:165
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782:doi
762:".
729:doi
690:PMC
680:doi
668:112
633:doi
613:".
572:doi
568:209
531:doi
494:doi
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427:doi
307:in
226:in
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