CLASSIFICATION OF RHIZOMONAS-SUBERIFACIENS, AN UNNAMED RHIZOMONAS SPECIES, AND SPHINGOMONAS SPP IN RIBOSOMAL-RNA SUPERFAMILY-IV

被引：37

作者：

VANBRUGGEN, AHC ^{[1
]}

JOCHIMSEN, KN ^{[1
]}

STEINBERGER, EM ^{[1
]}

SEGERS, P ^{[1
]}

GILLIS, M ^{[1
]}

机构：

[1] STATE UNIV GHENT, MICROBIOL LAB, B-9000 GHENT, BELGIUM

来源：

INTERNATIONAL JOURNAL OF SYSTEMATIC BACTERIOLOGY | 1993年 / 43卷 / 01期

关键词：

D O I：

10.1099/00207713-43-1-1

中图分类号：

Q93 [微生物学];

学科分类号：

071005 ; 100705 ;

摘要：

Thermal melting profiles of hybrids between H-3-labeled rRNA of Rhizomonas suberifaciens, the causal agent of corky root of lettuce, and chromosomal DNAs from 27 species of gram-negative bacteria indicated that the genus Rhizomonas belongs to superfamily IV of De Ley. On the basis of the melting temperatures of DNA hybrids with rRNAs from the type strains of R. suberifaciens, Sphingomonas paucimobilis, and Sphingomonas capsulata, Rhizomonas strains constitute a separate branch in superfamily IV, which is closely related to but separate from branches containing Zymomonas mobilis, Sphingomonas spp., and S. capsulata. Sphingomonas yanoikuyae and Rhizomonas sp. strain WI4 are located toward the base of the Rhizomonas rRNA branch. DNA-DNA hybridization indicated that S. yanoikuyae is equidistant from Rhizomonas sp. strain WI4 and S. paucimobilis. Sequences of 270 bp of 16S ribosomal DNAs from eight strains of Rhizomonas spp., eight strains of Sphingomonas spp., and Agrobacterium tumefaciens indicated that S. yanoikuyae and Rhizomonas sp. strains WI4 and CA16 are genetically more closely related to R. suberifaciens than to Sphingomonas spp. Thus, S. yanoikuyae may need to be transferred to the genus Rhizomonas on the basis of the results of further study.

引用

页码：1 / 7

页数：7

共 33 条

[1]

Ausubel FM, 2003, CURRENT PROTOCOLS MO

[2] DETERMINATION OF THE MOST FREQUENT N-2-FIXING BACTERIA IN A RICE RHIZOSPHERE [J].

BALLY, R ;

THOMASBAUZON, D ;

HEULIN, T ;

BALANDREAU, J ;

RICHARD, C ;

DELEY, J .

CANADIAN JOURNAL OF MICROBIOLOGY, 1983, 29 (08) :881-887

[3]

BAUWENS M, 1981, FLAVOBACTERIUM CYTOP, P27

[4]

Bruggen A. H. C. van, 1992, Food and Agricultural Immunology, V4, P27, DOI 10.1080/09540109209354750

[5] DISTRIBUTION OF ISOPRENOID QUINONE STRUCTURAL TYPES IN BACTERIA AND THEIR TAXONOMIC IMPLICATIONS [J].

COLLINS, MD ;

JONES, D .

MICROBIOLOGICAL REVIEWS, 1981, 45 (02) :316-354

[6] ISOLATION OF RHIZOMONAS-SUBERIFACIENS IN FLORIDA [J].

DATNOFF, LE ;

NAGATA, RT .

PLANT DISEASE, 1990, 74 (05) :394-394

[7] CELLULAR FATTY-ACID COMPOSITION OF PSEUDOMONAS - PAUCIMOBILIS AND GROUP-IIK-2, GROUP-VE-2 AND GROUP-VE-2 [J].

DEES, SB ;

MOSS, CW ;

WEAVER, RE ;

HOLLIS, D .

JOURNAL OF CLINICAL MICROBIOLOGY, 1979, 10 (02) :206-209

[8] EVALUATION OF MEMBRANE FILTER METHODS FOR DNA-DNA HYBRIDIZATION [J].

DELEY, J ;

TIJTGAT, R .

ANTONIE VAN LEEUWENHOEK JOURNAL OF MICROBIOLOGY AND SEROLOGY, 1970, 36 (04) :461-&

[9] IMPROVEMENTS OF MEMBRANE-FILTER METHOD FOR DNA-R-RNA HYBRIDIZATION [J].

DELEY, J ;

DESMEDT, J .

ANTONIE VAN LEEUWENHOEK JOURNAL OF MICROBIOLOGY, 1975, 41 (03) :287-307

[10] INTRAGENERIC AND INTERGENERIC SIMILARITIES OF AGROBACTERIUM RIBOSOMAL RIBONUCLEIC-ACID CISTRONS [J].

DESMEDT, J ;

DELEY, J .

INTERNATIONAL JOURNAL OF SYSTEMATIC BACTERIOLOGY, 1977, 27 (03) :222-240

← 1 2 3 4 →