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Volume 60, Issue 3

Transfer of , and to the genus emend. as comb. nov., comb. nov. and comb. nov. and description of sp. nov. Free

Abstract

, and were described for strains isolated from fruit and soil originating in Japan. These three ‘Japanese’ species have been shown to be phylogenetically distant from other species of the genus . It has been observed previously that, using multilocus sequence analysis (MLSA), the ‘Japanese’ species consistently formed a distinct clade with an extended branch length, casting doubt on the inclusion of these species within the genus . Furthermore, the ‘Japanese’ species are closely related to , strains of which originate from human clinical specimens. DNA–DNA hybridization and phenotypic tests confirmed the observed phylogenetic distance of , and from the genus and the affiliation of these species with . In addition, strains causing pink disease of pineapple, identified previously as , were shown to represent a separate species by using 16S rRNA gene sequence analysis, and MLSA and DNA–DNA hybridization data. The name sp. nov. with the type strain LMG 23360 (=BD 878=NCPPB 4036=CMC6) is proposed to accommodate these strains. The new combinations (Kageyama 1992) comb. nov. (type strain, SHS 2003=ATCC 31623=BD 875=CCUG 30156=CIP 105599=DSM 13699=JCM 8882=LMG 22049), (Kageyama 1992) comb. nov. (type strain, SHS 2006=ATCC 31626=BD 876=CCUG 30159=CIP 105598=DSM 13700=JCM 8885=LMG 22050) and (Kageyama 1992) comb. nov. (type strain, SHS 2008=ATCC 31628=BD 877=CCUG 30161=CIP 105600=DSM 13701=JCM 8887=LMG 22051) are proposed for , and , respectively.

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Keyword(s): atpD, ATP synthase β-subunit , DKGA, 2,5-diketo-d-gluconic acid , gyrB, DNA gyrase , infB, initiation translation factor 2 , MLSA, multilocus sequence analysis and rpoB, RNA polymerase β-subunit
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2010-03-01
2024-04-18
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Transfer of Pantoea citrea, Pantoea punctata and Pantoea terrea to the genus Tatumella emend. as Tatumella citrea comb. nov., Tatumella punctata comb. nov. and Tatumella terrea comb. nov. and description of Tatumella morbirosei sp. nov.
Int J Syst Evol Microbiol 60, 484 (2010); https://doi.org/10.1099/ijs.0.012070-0
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