Reclassification of Bisgaard taxon 37 and taxon 44 as Psittacicella melopsittaci gen. nov., sp. nov., Psittacicella hinzii sp. nov. and Psittacicella gerlachiana sp. nov. within Psittacicellaceae fam. nov. of the order Pasteurellales

Di Xin, Magne Bisgaard, Hans Jürgen Busse, Rikke H. Olsen, Claudia Hess, Bent Aalbæk, John E. Olsen, Henrik Christensen*

*Corresponding author for this work

    Abstract

    Bacteria isolated from lesions as well as apparently normal tissues of psittacine birds have previously been reported as taxon 37 and taxon 44 of Bisgaard. 16S rRNA gene sequence comparisons revealed a distant relationship to members of Pasteurellaceae at the species, genus and family levels. The polar lipid profile consisted of the major components phosphatidylethanolamine and phosphatidylglycerol. A new family Psittacicellaceae fam. nov. is proposed with the type genus Psittacicella gen. nov. The new genus Psittacicella includes the type species Psittacicella melopsittaci sp. nov. with type strain B96/4 T (=CCUG 70858 T =DSM 105476 T ), Psittacicella hinzii sp. nov. with type strain 111 T (=CCUG 52861 T =CCM 8842 T ) and Psittacicella gerlachiana sp. nov. with type strain EEAB3T1 T (=CCUG 70857 T =DSM 105477 T ). In addition to the major polar lipids, strain 111 T possessed the non-identified aminophospholipids APL1 and APL2 and trace amounts of four lipids (L1-L4) whereas strain B94/4 T showed the minor unidentified aminophospholipids APL3 and APL2 and trace amounts of unidentified lipid L3. These results demonstrate that strain B96/4 T can be distinguished from 111 T based on presence/absence of the unidentified lipids APL1 and APL3. The total polar lipid profile of strain EEAB3T1 T differed from B96/4Tonly in one minor lipid. Strain B96/4 T can further be distinguished from 111 T by acid formation from trehalose and raffinose and the aglucosidase test. Strains 111 T and EEAB3T1 T can be separated based on acid formation from trehalose and the aglucosidase test. Strains B96/4 T and EEAB3T1 T can be separated by acid formation from raffinose and eight signature indels in the RpoB protein.

    Original languageEnglish
    Article number003133
    JournalInternational Journal of Systematic and Evolutionary Microbiology
    Volume69
    Issue number2
    Pages (from-to)350-355
    Number of pages6
    ISSN1466-5026
    DOIs
    Publication statusPublished - 2019

    Keywords

    • 16S rRNA
    • Amazona
    • Budgerigar
    • Parrot

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