Actinomycetales

Arthrobacter agilis (Ali-Cohen 1889) Stackebrandt et al. 1995

Ac-635^T = ATCC 966, CCM 2390, DSM 20550, NCDO 983, NCTC 7509

<--Gvozdyak O. R. <--Nesterenko O. A. (Micrococcus agilis) <--CCM
<--Jeffries L., W.O. 219 <--ATCC 966 <--NCTC 7509. Type strain (67). Taxonomy, description (18, 64, 67). Numerical taxonomy (33). Murein: A3 ; L-Lys — L-Thr — L-Ala₃ (67, 93); menaquinones: MK-9(H₂) (119); fatty acids: iso-C_15:0 (C_16:0) (18); mol% GC in DNA: 69.0 (T_m) (12). 16S rDNA sequencing (61). DNA homology (18). (Medium 1, 22^°C)

Arthrobacter citreus Sacks 1954

Ac-654^T= AJ 1423, ATCC 11624, CCM 1647, DSM 20133, IAM 12341, IFO 12957, IMET 10680, NCIMB 8915, JCM 1331, VKM Ac-1106, VKM Ac-1125, VKM B-654

<--Nesterenko O. A. <--VKM B-654. Type strain (688). Taxonomy (416). Numerical taxonomy (279, 330, 334, 377). Peptidoglycan (320, 374). Cell wall composition (304, 335, 336). Menaquinones (338, 414). Mycolic acids (267). Fatty acids (280, 281, 338, 393). Phospholipids (290, 341). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (281, 341, 382, 415). DNA homology (381, 382, 391). 16S rRNA sequence similarity (382). Serology (304). Assay of subtilin (372). Production of L-serine (409). (Medium 1, 28^°C)

Arthrobacter globiformis (Conn 1928) Conn et Dimmick 1947

Ac-661^T = AJ 1422, ATCC 8010, CCM 1651, DSM 20124, IAM 12438, ICPB 3434, IFO 12137, JCM 1332, NCIMB 8907, VKM Ac-1112, VKM B-661

<--Pisarchuk E.N. <--VKM B-661. Soil. Type strain (688). Taxonomy (416). Numerical taxonomy (279, 334, 377). Peptidoglycan (374). Cell wall composition (335, 336). Menaquinones (286, 414). Fatty acids (280, 393). Phospholipids (290, 341). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (301, 341, 382, 415). DNA homology (301, 381, 382, 391). Genome size (301). 5S rRNA sequence similarity (360), 16S rRNA sequence similarity (386). Ribosomal proteins (358). (Medium 1, 28^°C)

Ac-687 = ATCC 19239, CCM 193, IMET 10348, NCIMB 9792

<--Nesterenko O.A. <--CCM 193 (“Brevibacterium helvolum” (Zimmerman 1890) Lochhead 1955). Taxonomy (416). Numerical taxonomy (334, 377). Peptidoglycan (374). Monosaccharide composition of the cells (267). Fatty acids (262, 281). GC-content of DNA (281, 415). Morphology (268). Produces 2-ketogluconoreductase (307). (Medium 1, 28^°C)

Arthrobacter nicotianae Giovannozzi-Sermanni 1959

Ac-656^T = AJ 1426, ATCC 15236, CCM 1648, DSM 20123, IAM 12342, IFO 14234, IMET 10353, JCM 1333, NCIMB 9458, VKM Ac-1112, VKM Ac-1127, VKM B-803

<--Nesterenko O.A. <--VKM B-803. Air of tobacco warehouse. Type strain (688). Taxonomy (416). Numerical taxonomy (330, 334, 377). Peptidoglycan (270, 374). Monosaccharide composition of cell wall (335). Menaquinones (296, 414). Fatty acids (296, 393). Phospholipids (296). Cell wall polysaccharides, teichoic acids (318, 394). GC-content of DNA (382, 415). DNA homology (381, 382). Ribosomal proteins (358). Decomposes nicotine (322). (Medium 1, 28^°C)

Arthrobacter oxydans Sguros 1954

Ac-663^T = AJ 1427, ATCC 14358, DSM 20119, IFO 12138, IMET 10684, JCM 2521, NCIMB 9333, VKM Ac-1114, VKM B-663

<--Pisarchuk E.N. <--VKM B-663. Air (379). Type strain (688). Taxonomy (416). Numerical taxonomy (279, 330, 334, 377). Peptidoglycan (320, 374). Monosaccharide composition of cell wall (335). Menaquinones, fatty acids (338). Mycolic acids (335). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (338, 382, 415). DNA homology (338, 381, 382). 16S rRNA sequence similarity (382, 385). Ribosomal proteins (358). (Medium 1, 28^°C)

Arthrobacter protophormiae (Lysenko 1959) Stackebrandt et al. 1984

Ac-679 = ATCC 17775, DSM 20644

<--Nesterenko O.A. <-- DSM 20644 (Arthrobacter citreus Sacks 1954). Soil. Numerical taxonomy (327, 334, 377). Peptidoglycan (382). Menaquinones, fatty acids, phospholipids (296). Teichoic acids (318). GC-content of DNA (382). DNA homology (381, 382). Ribosomal proteins (358). Produces glutamic acid (408). (Medium 1, 28^°C)

Ac-680^T = AJ 3125, ATCC 19271, CCEB 282, DSM 20168, IFO 12128, NCIMB 12765

<--Nesterenko O.A. <--Lysenko O., CCEB 282 (Brevibacterium protophormiae). Synonym: Brevibacterium protophormiae Lysenko 1959 Type (688). Fly (Protoformia terraenovae) (348). Type strain (352, 382). Taxonomy (416). Numerical taxonomy (334, 377). Peptidoglycan (381). Menaquinones, fatty acids, phospholipids (296). Cell wall polysaccharides (394). Teichoic acids (318, 394). GC-content of DNA (382, 415). DNA homology (381, 382). Ribosomal proteins (358). (Medium 1, 28^°C)

Arthrobacter simplex, see Nocardioides simplex Ac-667

Arthrobacter sulfureus Stackebrandt et al. 1984

Ac-684 = ATCC 15170, DSM 20645

<--Nesterenko O.A. <-- DSM 20645 (Arthrobacter citreus). Numerical taxonomy (334, 377). Peptidoglycan (382). Menaquinones, fatty acids, phospholipids (296). Teichoic acids (318). GC-content of DNA (382). DNA homology (381, 382). Ribosomal proteins (358). Produces L-isoleucine (400). (Medium 1, 28^°C)

Ac-685^T= AJ 1448, ATCC 19098, DSM 20167, IAM 1488, IFO 12678, NCIMB 10355

<--Nesterenko O.A. <-- DSM 20167 (“Brevibacterium sulfureum”). Synonym: “Brevibacterium sulfureum” (Bergey et al. 1923) Breed 1957. Oil brine (329). Type strain (352, 382). Numerical taxonomy (334, 377). Peptidoglycan (374). Cell wall monosaccharide composition (335). Menaquinones, phospholipids (296). Fatty acids (280, 281, 296). Mycolic acids (325). Cell wall polysaccharides (394). Teichoic acids (318, 394). GC-content of DNA (281, 382). DNA homology (381, 382). Ribosomal proteins (358). (Medium 1, 28^°C)

Arthrobacter tumescens, see Terrabacter tumescens Ac-669

Arthrobacter ureafaciens ( Krebs et Eggleston 1939) Clark 1955

Ac-686^T= AJ 1421, ATCC 7562, CCM 1644, DSM 20126, IAM 1658, IFO 12140, JCM 1337, NCIMB 7811, VKM Ac-1121, VKM Ac-1132, VKM B-670

<--Pisarchuk E.N. <--VKM B-670. Soil. Type strain. (688). Taxonomy (416). Numerical taxonomy (279, 330, 334, 377). Peptidoglycan (320, 374). Cell wall monosaccharide composition (335). Menaquinones (286, 414). Fatty acids (281, 393). Phospholipids (341). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (281, 341, 415). DNA homology (338, 381, 382, 391). Ribosomal proteins (358). Degradation of creatine and creatinine (305). (Medium 1, 28^°C)

Arthrobacter variabilis, see Corynebacterium variabilis Ac-717

Brachybacterium conglomeratum Takeuchi et al. 1995

Ac-515 = DSM 46339, IFO 15223, IMET 11351, NCIB, NCIMB 9859, VKM Ac-1424

<--Gvozdyak O.R. (Brachybacterium faecium) <--Nesterenko O.A. (Arthrobacter sp.) <--VKM <--NCIB 9859, Schefferle H.E., 3-8. Poultry deep litter (90). Taxonomy, description (3, 22, 97, 109). Numerical analysis (3). Murein: A4γ ; m-Dpm—D-Glu₂, α -carboxylic group of D-Glu is substituted by glycine (10); menaquinones: MK-7 (109); mycolic acids: absent (109); phospholipids (109); whole cell sugars: galactose, glucose (109); major fatty acids: anteiso-C_15:0 (C_15:1, anteiso-C_17:0) (109); mol% GC in DNA: 70.5 (109). Serology (2). DNA homology (97; 109). (Medium 1, 28^°C)

Ac-516 =ATCC 19101, CCM 2134, IAM 1459, IFO 15263

<--Gvozdyak O.R. (Brachybacterium faecium) <--Nesterenko O.A. ("Micrococcus conglomeratus") <--CCM. Oil brine (48). Taxonomy, description (3; 109). Numerical analysis (3). Murein: A4γ; m-Dpm—D-Glu₂, α -carboxylic group of D-Glu is substituted by glycine (10); menaquinones: MK-7 (2, 109); mycolic acids: none (109); major fatty acids: anteiso-C_17:0, anteiso-C_15:0 (C_15:1; iso-C_16:0) (109); whole cell sugars: galactose, glucose (109); phospholipids (109); mol% GC in DNA: 68.0 (14). DNA homology (97, 109). (Medium 1, 28^°C)

Ac-517 =ATCC 19102, CCM 2135, IAM 1470

<--Gvozdyak O.R. (Brachybacterium faecium) <--Nesterenko O.A. ("Micrococcus conglomeratus") <--CCM. Taxonomy, description (3, 109). Numerical analysis (3). Cytology (1). Murein: A4γ; m-Dpm—D-Glu₂, α -carboxylic group of D-Glu is substituted by glycine (10); menaquinones: MK-7 (2; 109); mycolic acids: none (109); major fatty acids: anteiso-C_15:0, anteiso-C_17:0(iso-C_15:0; C_15:1) (109); whole cell sugars: galactose, glucose (109); phospholipids (109); mol% GC in DNA: 68.0 (14). Serology (2). DNA homology (97, 109). (Medium 1, 28^°C)

Brachybacterium faecium Collins et al. 1988

Ac-514^T= ATCC 43885, DSM 4810, IFO 14762, IMET 11352, NCIB 9860, NCIMB 9860, VKM Ac-1423

<--Gvozdyak O.R. <--Nesterenko O.A. (Arthrobacter sp.) <--VKM <--NCIB
<--Schefferle H.E. Poultry deep litter (90). Type strain (22). Taxonomy, description (3, 22, 97, 109). Numerical analysis (3). Murein: A4γ ; m-Dpm—D-Glu₂, α-carboxylic group of D-Glu is substituted by glycine (10); menaquinones: MK-7 (109); mycolic acids: none (109); major fatty acids: anteiso-C_15:0, iso-C_15:0 (anteiso-C_17:0) (109); whole cell sugars: galactose, glucose, 6-deoxytallose (109); phospholipids (109); mol% GC in DNA: 72.1 (109). Serology (2). DNA homology (109). (Medium 1, 28^°C)

Brachybacterium nesterenkovii Gvozdyak et al. 1992

Ac-750 = IMV 2

<--Gvozdyak O.R. Taxonomy, description (3, 43, 109). Numerical analysis (43). Murein: m-Dpm : Ala : Glu (1 : 2 : 3) (A4γ , m-Dpm—D-Glu₂, α-carboxylic group of D-Glu is not substituted by glycine) (43). (Medium 1, 28^°C)

Ac-751 = IMV 9

<--Gvozdyak O.R. Taxonomy, description (3; 43; 109). Numerical analysis (43). Murein: m-Dpm : Ala : Glu (1 : 2 : 3) : A4γ , m-Dpm-D-Glu₂, α-carboxylic group of D-Glu is not substituted by glycine (43). (Medium 1, 28^°C)

Ac-752^T= DSM 9573, IFO 15384, IMV 35

<--Gvozdyak O.R. Cheese (43). Type strain (43). Taxonomy , description (3, 43, 109). Numerical analysis (3). Murein: m-Dpm : Ala : Glu (1 : 2 : 3) (A4γ , m-Dpm—D-Glu₂, α-carboxylic group of D-Glu is not substituted by glycine) (43); major fatty acids: C_15:0 (C_18:0, anteiso-C_17:0, iso-C_16:0) (109); menaquinones: MK-7 (43); mycolic acids: none (43); phospholipids (109); whole cell sugars: galactose, glucose, rhamnose (43); mol% GC in DNA: 70.0 (43). Serology (2). DNA homology (43, 109). (Medium 1, 28^°C)

Brachybacterium sp.

Ac-530 =IMV 449

<--Gvozdyak O.R. (Brachybacterium faecium). Soil, Caucasian mountains. Numerical analysis (3). Murein: m-Dpm : Ala : Glu : Gly (1 : 2 : 3 : 1) (A4γ, m-Dpm—D-Glu₂, α-carboxylic group of D-Glu is substituted by glycine) (2). Whole cell sugars: galactose, glucose (2). (Medium 1, 28^°C)

Ac-533 =IMV 418

<--Gvozdyak O.R. (Brachybacterium faecium). Fermented carrot. Numerical analysis (3). Murein: m-Dpm : Ala : Glu : Gly (1 : 2 : 3 : 1) (A4γ, m-Dpm—D-Glu₂, α-carboxylic group of D-Glu is substituted by glycine) (2). Whole cell sugars: galactose, glucose (2). (Medium 1, 28^°C)

Ac-534 =IMV 517a

<--Gvozdyak O.R. (Brachybacterium faecium). Soil, Kyiv region. Numerical analysis (3). Murein: m-Dpm : Ala : Glu : Gly (1 : 2 : 3 : 1) (A4 γ, m-Dpm—D-Glu₂, α-carboxylic group of D-Glu is substituted by glycine) (2). Whole cell sugars: galactose, glucose (2). (Medium 1, 28^°C)

Ac-540 =IMV 825

<--Gvozdyak O.R. (Brachybacterium faecium). Waste water containing hexamethylene diamine. Numerical analysis (3). Murein: m-Dpm : Ala : Glu : Gly (1 : 2 : 3 : 1) (A4γ , m-Dpm—D-Glu₂, α- -carboxylic group of D-Glu is substituted by glycine) (2).Whole cell sugars: galactose, glucose (2). (Medium 1, 28^°C)

Ac-541 =IMV 174ì

<--Gvozdyak O.R. (Brachybacterium faecium). Fresh milk. Taxonomy, description (3). Numerical analysis (3). Murein: m-Dpm : Ala : Glu : Gly (1 : 2 : 3 : 1) (A4γ , m-Dpm—D-Glu₂, α--carboxylic group of D-Glu is substituted by glycine) (2). Whole cell sugars: galactose, glucose (2). (Medium 1, 28^°C)

Ac-552 =IMV 159

<--Gvozdyak O.R. (Brachybacterium faecium). Fresh milk. Numerical analysis (3). Murein: m-Dpm : Ala : Glu : Gly (1 : 2 : 3 : 1) (A4γ, m-Dpm-D-Glu₂, α-carboxylic group of D-Glu is substituted by glycine) (2). Whole cell sugars: galactose, glucose (2). (Medium 1, 28^°C)

Brevibacterium albidum, see Curtobacterium albidum Ac-704

Brevibacterium ammoniagenes, see Corynebacterium ammoniagenes Ac-732

Brevibacterium citreum, see Curtobacterium citreum Ac-705

Brevibacterium divaricatum, see Corynebacterium glutamicum Ac-733

Brevibacterium imperiale, see Microbacterium imperiale Ac-694

Brevibacterium iodinum Collins et al. 1981

Ac-642 = CCEB 561

<--Nesterenko O.A <--Kiprianova E.A., 1907 <--CCEB 561 (“Pseudomonas iodinum“ (Davis 1936) Tobie 1939). (Medium 1, 28^°C)

Brevibacterium linens (Wolff 1910) Breed 1953

Ac-726 = AJ 1540, ATCC 19391, DSM 20158, IMET 10776, NCIMB 11438

<--Nesterenko O.A <--CCM 47. Taxonomy (416). Numerical taxonomy (334, 377). Peptidoglycan (319). Monosaccharide composition of cells, mycolic acids (267). Fatty acids (262, 280). Cell wall polysaccharides, teichoic acids (319). GC-content of DNA (415). DNA, DNA-rRNA hybridization (319). 16S rRNA sequence similarity (385). Morphology (268). Ultrastructure of cells (273). Produces L-lysine (308). (Medium 1, 28^°C)

Ac-727 = VKM B-1209

<--Nesterenko O.A <--CCM 1924. Cell wall composition, monosaccharide composition of cells, mycolic acids (267). Fatty acids (262). (Medium 1, 28^°C)

Ac-728 = AJ 1522, ATCC 9174, NCIMB 9910

<--Nogina T.M., ATCC 9174 <--Jones D., C21. Romadur cheese. Taxonomy (416). Numerical taxonomy (330). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (293). Fatty acids (280, 293). Mycolic acids (267, 325, 335). Phospholipids (293). Cell wall polysaccharides, teichoic acids (319). GC-content of DNA (301, 415). DNA homology, size of genom (301). Morphology (268). (Medium 1, 28^°C)

Ac-729 = AJ 1523, ATCC 9175, DSM 20426, IFO 12171, IMET 10996, JCM 2590, NCDO 739, NCIMB 8546

<--Nogina T.M., NCIB 8546 <--Jones D., C92. Camembert cheese. Taxonomy (416). Numerical taxonomy (279, 330, 334, 377). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (293). Fatty acids (280, 281, 293). Mycolic acids (267, 325, 335). Phospholipids (293). Cell wall polysaccharides, teichoic acids (319). GC-content of DNA (281, 301, 415). DNA homology (301, 319). DNA-rRNA hybridization (319). Size of genom (301). Produces flavin-adenine dinucleotide (410). (Medium 1, 28^°C)

Brevibacterium luteum, see Curtobacterium luteum Ac-706

“Brevibacterium maris”, see Dietzia maris Ac-734

Brevibacterium protophormiae, see Arthrobacter protophormiae Ac-680

Brevibacterium pusillum, see Curtobacterium pusillum Ac-707

Brevibacterium saperdae, see Aureobacterium saperdae Ac-692

Brevibacterium stationis, see Corynebacterium sp. Ac-719

“Brevibacterium sulfureum”, see Arthrobacter sulfureus Ac-685

Brevibacterium testaceum, see Aureobacterium testaceum Ac-693

Brevibacterium vitarumen, see Corynebacterium vitarumen Ac-718

Caseobacter polymorphus, see Corynebacterium variabilis Ac-716

Cellulomonas cellasea ( Kellermann et al. 1913) Bergey et al. 1923

Ac-709^T = ATCC 487, CCM 1925, DSM 20118, IFO 3753, NCIMB 8078, VKM Ac-1136, VKM B-1212

<--Nogina T.M <--VKM B-1212. Type strain (688). Taxonomy (265, 384). Numerical taxonomy (330, 334, 377). Peptidoglycan (317, 374). Monosaccharide composition of cell wall (317, 335). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (312, 384). DNA homology (312, 381, 383, 384). DNA-rRNA hybridization (312). Phylogenetic analysis (263). (Medium 1, 28^°C)

Cellulomonas flavigena (Kellermann et McBeth 1912) Bergey et al. 1923

Ac-710^T = AJ 1570, ATCC 482, CCM 1926, DSM 20109, IFO 3754, 3775, IMET 10357, JCM 1489, NCIMB 8073, VKM Ac-1137, VKM B-1213

<--Nogina T.M. <--VKM B-1213. Soil. Type strain (688). Taxonomy (265, 384, 416). Numerical taxonomy (330, 377). Peptidoglycan (317, 374). Monosaccharide composition of cell wall (317, 335). Menaquinones (286). Fatty acids (280, 335, 350). Mycolic acids (325, 335, 350). Phospholipids (350). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (384, 415). DNA homology (383, 384). 16S RNA sequence similarity (385, 386, 387). Phylogenetic analysis (263). Serology (282). (Medium 1, 28^°C)

Cellulomonas uda (Kellermann et al. 1913) Bergey et al. 1923

Ac-712^T= AJ 1568, ATCC 491, DSM 20107, IFO 3747, NCIMB 8200, NRRL B-404, VKM Ac-1140, VKM B-1374

<--Nogina T.M. <--VKM B-1374. Compost. Type strain (688). Taxonomy (265, 384, 416). Numerical taxonomy (330, 377). Peptidoglycan (317, 374). Monosaccharide composition of cell wall (317, 335). Fatty acids (280). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (312, 384, 415). DNA homology (312, 384). DNA-rRNA hybridization (312). Phylogenetic analysis (263). (Medium 1, 28^°C)

Cellulosimicrobium cellulans (Metcalf et Brown 1957) Schumann et al. 2001

Ac-688 <--Nesterenko O. A., 73-14 <--VKM (“Arthrobacter luteus” 73-14). Synonym: Cellulomonas cellulans (Metcalf et Brown 1957) Stackebrandt et Keddie 1988 [783]. Endoglucanase and protease activities (375). (Medium 1, 28^°C)

Clavibacter michiganensis subsp. insidiosus (McCulloch 1925) Davis et al. 1984

Ac-630^T= ATCC 10253, CFBP 2404, DSM 20157, ICMP 2621, NCPPB 1109, VKM Ac-1402

<--Nogina T.M. <--Varbanets L.D <--Vidaver A.K., NCPPB 1109 (Clavibacter michiganense subsp. insidiosum). Synonyms: Corynebacterium insidiosum (McCulloch 1925) Jensen 1934 Type (688), Corynebacterium michiganense subsp. insidiosum (McCulloch 1925) Carlson et Vidaver 1982 Type (352). Lucerne (Medicago sativa), USA. Type strain (352). Numerical taxonomy (313, 334, 377, 423). Peptidoglycan (248, 374). Monosaccharide composition of cell wall (306, 335). Cell wall polysaccharides, teichoic acids (248). Menaquinones (291). Fatty acids (291, 393). Phospholipids (291). GC-content of DNA (312, 415). DNA homology (312). DNA-rRNA hybridization (312). Electrophoresis of enzymes (369). Cellular proteins (306). Serology (368). (Medium 1, 28^°C)

Ac-1994 <--Muras V.A., 7246 á <--Beltyukova K.I., 7246 b. Synonym: Corynebacterium insidiosum (McCulloch 1925) Jensen 1934. Lucerne (Medicago sativa), Ukraine. Produces polysaccharide stimulating the production of tumor necrosis factor and interleukine-1 (161). (Medium 29, 26^°C)

Clavibacter michiganensis subsp. michiganensis (Smith 1910) Davis et al. 1984

Ac-629^T= CFBP 2352, ICMP 2550, NCPPB 2979, VKM Ac-1403

<--Nogina T. M.<--Varbanets L.D <--Vidaver A.K., NCPPB 2979 (Clavibacter michiganense subsp. michiganense). Synonyms: Corynebacterium michiganense (Smith 1910) Jensen 1934 Type (688), Corynebacterium michiganense subsp. michiganense (Smith 1910) Carlson et Vidaver (1982) Type (352). Tomato (Lycopersicon esculentum), Hungary. Type strain (352). Numerical taxonomy (313, 423). Cell wall composition (248, 306). Cell wall polysaccharides, teichoic acids (248). Menaquinones, fatty acids, phospholipids (291). DNA homology (422). Electrophoresis of enzymes (369). Cellular proteins (306). Serology (368). (Medium 1, 28^°C)

Ac-700 = ICMP 2541, NCPPB 1468, VKM Ac-1262

<--Nogina T. M.<--Varbanets L.D <--Fletchet M.J., ICMP 2541 (Corynebacterium michiganense pv. michiganense). Synonym: Corynebacterium michiganense (Smith 1910) Jensen 1934. Tomato (Lycopersicon esculentum), Great Britain. Numerical taxonomy (279, 313, 330, 334, 377). Cell wall composition (248, 335). Cell wall polysaccharides (248). Mycolic acids (335). (Medium 1, 28^°C)

Ac-1996 <--Muras V.A., 13 <--Matyshevskaya M.S., 13. Synonym: Corynebacterium michiganense (Smith 1910) Jensen 1934. Tomato (Lycopersicon esculentum), fruit, Ukraine. (Medium 29, 26^°C)

Ac-1998 <--Muras V.A., 14 <--Matyshevskaya M.S., 14. Synonym: Corynebacterium michiganense (Smith 1910) Jensen 1934. Tomato (Lycopersicon esculentum), fruit, Ukraine. (Medium 29, 26^°C)

Clavibacter michiganensis subsp. sepedonicus (Spieckermann et Kotthoff 1914) Davis et al. 1984

Synonym: Corynebacterium sepedonicum (Spieckermann et Kotthoff 1914) Skaptason et Burkholder 1942

Ac-1995 <--Muras V.A., 7757 <--Beltyukova K.I., 7757. Potato (Solanum tuberosum), bulb, Ukraine. Produces mitogenic active polysaccharide (162). (Medium 29, 26^°C)

Ac-1997 <--Muras V.A., 7694 <--Beltyukova K.I., 7694. Potato (Solanum tuberosum), bulb, Ukraine. Produces polysaccharide which stimulates DNA reparation (163) and induces interferon production (164). (Medium 29, 26^°C)

Corynebacterium ammoniagenes (Cooke et Keith 1927) Collins 1987

Ac-676 = VKPM B-4769

<--Nogina T. M., <--Tsybulskaya M.I., B-6 (Brevibacterium ammoniagenes). Produces coenzyme A (246). (Medium 1, 28^°C)

Ac-732^T = AJ 1443, ATCC 6871, DSM 20306, IFO 12612, JCM 1305, NCIMB 8143, NCTC 2398, VKM B-672

<--Nesterenko O.A <--VKM B-672 (Brevibacterium ammoniagenes). Synonym: Brevibacterium ammoniagenes (Cooke et Keith 1927) Breed 1953 Type (688). Stool of infant. Type strain (284). Numerical taxonomy (330, 334, 377). Peptidoglycan (320). Monosaccharide composition of cell wall (335). Menaquinones (286, 414). Fatty acids (262, 280, 281, 289, 393). Mycolic acids (257, 288, 325, 335). Phospholipids (341). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (301, 361, 415). Ribosomal proteins (358). Morphology (268). Produces L-isoleucine (404), 5'-inosinic acid (405), 8-azapurine-5'-ribosyl phosphates (406). (Medium 1, 28^°C)

“Corynebacterium barkeri”, see Aureobacterium barkeri Ac-690

Corynebacterium equi, see Rhodococcus equi Ac-740

Corynebacterium flavescens Barksdale et al. 1979

Ac-611T= ATCC 10340, DSM 20296, IAM 1642, IFO 14136, JCM 1317, NCIMB 8707, VKM Ac-1956

<-- Nogina T. M. <-- VKM Ac-1956. Cheese (755). Type strain (688). Peptidoglycan (373). GC - content of DNA. (415). DNA homology (391). Menaquinones (414, 286). Serology (756). (Medium 2, 28°C).

Corynebacterium glutamicum (Kinoshita et al. 1958) Abe et al. 1967

Ac-714 <--Nogina T. M. <--Bekker M. E., 22 (Brevibacterium sp.). Taxonomy (255). Diagnostic acid of cell wall, cellular monosaccharide composition (267). Mycolic acids (257). Produces: lysin (242), L-glutamic acid. (Medium 1, 28^°C)

Ac-715 = VKPM B-820

<--Nogina T. M.., 22T <--Bekker M. E., 22L (Brevibacterium sp.). Taxonomy (255). Diagnostic acid of cell wall, cellular monosaccharide composition (267). Bacteriocins (260). Produces L-lysine (244). (Medium 1, 28^°C)

Ac-733 = AJ 1496, ATCC 14020, DSM 20297, IAM 12432, IMET 11073, JCM 1307, NCIMB 9379, NRRL B-2312

<--Nesterenko O.A., ATCC 14020 <--Jones D., C94 (Brevibacterium divaricatum). Synonym: Brevibacterium divaricatum Su et Yamada 1960 Type (688). Soil. Numerical taxonomy (279, 330, 334, 377). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (286, 347). Fatty acids (262, 280, 289, 393). Mycolic acids (257, 288, 325, 335). GC-content of DNA (275, 347, 415). DNA homology (347, 391). Restrictional analysis of DNA (347). Ribosomal proteins (358). Ultrastructure of cells (273). Produces L-glutamic acid (275, 402). (Medium 1, 28^°C)

“Corynebacterium hydrocarboclastus”, see Rhodococcus erythropolis Ac-19

Corynebacterium insidiosum, see Clavibacter michiganensis subsp. Insidiosus
Ac-630, Ac-1994

“Corynebacterium laevaniformans”, see Microbacterium laevaniformans Ac-695

Corynebacterium michiganense, see Clavibacter michiganensis subsp. michiganensis Ac-629, Ac-700, Ac-1996, Ac-1998

Corynebacterium michiganense subsp. insidiosum, see Clavibacter michiganensis subsp. insidiosus Ac-630

Corynebacterium michiganense subsp. michiganense, see Clavibacter michiganensis subsp. michiganensis Ac-629

Corynebacterium sepedonicum, see Clavibacter michiganensis subsp. sepedonicus Ac-1995, Ac-1997

Corynebacterium sp.

Ac-675 = VKPM B-1959

<--Nogina T. M., Ac-675 <--Kyiv State University <--Tripolye biochemical factory <--VNIIGenetics, Å-531 (Brevibacterium sp.). Produces L-lysin. (Medium 1, 28^°C)

Ac-719 = ATCC 14403, CCM 317, DSM 20302, IFO 12144, NCIMB 565, VKM B-1228

<--Nesterenko T. M., ATCC 14403 <--CCM 317 (Brevibacterium stationis (ZoBell et Upham 1944) Breed 1953 Type (688). Sea water. Numerical taxonomy (279, 330, 334, 377). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (286). Fatty acids (262, 280). Mycolic acids (257, 288, 325, 335). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (415). Morphology (268). (Medium 1, 28^°C)

Corynebacterium terpenotabidum Takeuchi et al. 1999

Ac-610T = IFO 14764, VKM Ac-2071

<-- Nogina T. M. <-- VKM Ac-2071. Soil. Type strain (757). Description (758). Serology (756). (Medium 2, 28°C).

Corynebacterium variabilis (Mü ller 1961) Collins 1987

Ac-716 = ATCC 33010, CCM 3383, DSM 20536, IAM 12549, IFO 14747, NCDO 2097

<--Nesterenko O.A <--CCM 3383 <--Crombach W.H.J., AC256 (Caseobacter polymorphus). Synonym: Caseobacter polymorphus Crombach 1978 Type (688). Meshanger cheese (302). Description (302). Numerical taxonomy (334, 377). Cell wall composition (302, 335). Fatty acids (280, 289, 393). Mycolic acids (288, 302, 335). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (301, 361). DNA homology (301, 391). Size of genom (301). 16S rRNA sequence similarity (298, 360). (Medium 1, 28^°C)

Ac-717^T = ATCC 15753, CCM 1565, DSM 20132, IAM 12346, IMET 10433, JCM 2154, NCIMB 9455 , VKM Ac-1122, VKM B-671

<--Nesterenko O.A <--VKM B-671 (Arthrobacter variabilis). Synonym: Arthrobacter variabilis Mü ller 1961 Type (688). Cheese. Type strain (283). Description (283). Numerical taxonomy (330, 377). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (286). Fatty acids (280, 289). Mycolic acids (267, 288, 325, 335). Phospholipids (283). GC-content of DNA (415). DNA homology (298). 16S rRNA sequence similarity (385). (Medium 1, 28^°C)

Corynebacterium vitarumen (Bechdel et al. 1928) Laneelle et al. 1980

Ac-718^T = AJ 1525, ATCC 10234, CCEB 252, CIP 82.07, DSM 20294, IAM 12429, IFO 12143, JCM 1323, NCIMB 9291, VKM B-1211

<--Nesterenko O.A <--VKM B-1211 (Brevibacterium vitarumen). Synonym: Brevibacterium vitarumen (Bechdel et al. 1928) Breed 1957 Type (688). Type strain (344, 352). Numerical taxonomy (334, 377). Peptidoglycan (374). Cell wall composition (335, 344). Fatty acids (280, 344, 393). Mycolic acids (335, 344). Phospholipids (344). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (301, 415). DNA homology (391). Ribosomal proteins (358). (Medium 1, 28^°C)

Curtobacterium albidum (Komagata et Iizuka 1964) Yamada et Komagata 1972

Ac-704^T= AJ 1472, ATCC 15831, CCM 2296, CIP 102693, DSM 20512, IAM 1631, JCM 1344, NCIMB 11030, VKM B-1206

<--Nesterenko O.A <--CCM 2296 (Brevibacterium albidum). Synonym: Brevibacterium albidum Komagata et Iizuka 1964 Type (140). Paddy (Oryza sativa). Type strain (688). Taxonomy (140, 416). Numerical taxonomy (334, 377). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (414). Fatty acids (262, 280, 393). Mycolic acids (267, 325). Phospholipids (341). GC-content of DNA (312, 415). DNA, DNA-rRNA hybridization (312). Restriction endonuclease BalI (321). (Medium 1, 28^°C)

Curtobacterium citreum (Komagata et Iizuka 1964) Yamada et Komagata 1972

Ac-705^T= AJ 1469, ATCC 15828, CCM 2297, CCRC 12126, CCUG 23579, DSM 20528, IFO 12677, IMET 10359, JCM 1345, NCIMB 10702, VKM B-1207

<--Nesterenko O.A <--CCM 2297 (Brevibacterium citreum). Synonym: Brevibacterium citreum Komagata et Iizuka 1964 Type (688). Paddy (Oryza sativa). Type strain (688). Taxonomy (416). Numerical taxonomy (334, 377). Monosaccharide composition of cell wall (335). Menaquinones (286, 287, 414). Fatty acids (262, 278, 280, 287, 393). Mycolic acids (267, 325). Phospholipids (287, 341). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (312, 415). DNA homology (312, 391). DNA-rRNA hybridization (312). 5S rRNA sequence similarity (360). Produces steroids (245). (Medium 1, 28^°C)

Curtobacterium luteum (Komagata et Iizuka 1964) Yamada et Komagata 1972

Ac-706^T = AJ 1470, ATCC 15830, CCM 2298, CCRC 12127, CCUG 23848, DSM 20542, IAM 1623, IFO 12676, IMET 10360, JCM 1480, NCIMB 11029

<--Nesterenko O.A <--CCM 2298 (Brevibacterium luteum). Synonym: Brevibacterium luteum Komagata et Iizuka 1964 Type (688). Paddy (Oryza sativa) (338). Type strain (688). Taxonomy (416). Numerical taxonomy (334, 377). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (286, 287, 414). Fatty acids (262, 280, 287). Mycolic acids (267, 325). Phospholipids (287). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (312, 415). DNA homology (312). Restriction endonucleases BluI and BluII (370). Produces steroids (245). (Medium 1, 28^°C)

Curtobacterium pusillum (Iizuka et Komagata 1965) Yamada et Komagata 1972

Ac-707^T= AJ 1462, ATCC 19096, DSM 20527, IAM 1479, IFO 12674, IMET 11077, JCM 1350, NCIMB 10354, VKM Ac-1413

<--Nesterenko O.A <--Komagata K., IAM 1479 (Brevibacterium pusillum). Synonym: Brevibacterium pusillum Iizuka et Komagata 1965 Type (688). Oil brine (329). Type strain (688). Taxonomy (416). Numerical taxonomy (334, 377). Peptidoglycan (374). Fatty acids (393). Mycolic acids (267). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (312, 415). DNA homology (312). (Medium 1, 28^°C)

Curtobacterium saperdae, see Aureobacterium saperdae Ac-692

Curtobacterium testaceum, see Aureobacterium testaceum Ac-693

Dermacoccus nischinomiyaensis (Oda 1935) Stackebrandt et al. 1995

Ac-636^T = ATCC 29093, CCM 2140, CIP 81.71, DSM 20488, NCDO 2358, NCFB 2358, NCTC 11039, OUT 8094, VKM B-1818

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus nishinomiyaensis)
<--CCM <--OUT 8094 <--Oda M., 59. Water. Type (68). Taxonomy, description (68; 106; 107). Numerical analysis (32). Murein: A4γ , L-Lys—L-Ser₂—D-Glu (20; 68); cell wall polysaccharide: galactosamine; menaquinones: MK-8(H₂) (107); cytochromes: aa₃, c₅₄₉, c₅₅₅, b₅₅₉, b₅₆₄, d (31); mycolic and teichoic acids: none; major fatty acids: iso-C_15:0, iso-C_17:1, iso- and anteiso-C_17:0, iso-C_16:0(107); polar lipids: diphosphatidylglycerol, phosphatidylglycerol, phosphatidylinositol (107); aliphatic hydrocarbons (60); mol% GC in DNA: 67.8 (T_m) (14). Phylogeny (106; 107). (Medium 1, 34^°C)

Dietzia maris (Nesterenko et al. 1982) Rainey et al. 1995

Synonym: Rhodococcus maris (Harrison 1929) Nesterenko et al. 1982

Ac-23 <--Nogina T.M., IMV 23 <--Nesterenko O.A., 23. Soil, Ukraine. Numerical taxonomy (271). (Medium 1, 28^°C)

Ac-53 = IEGM AC 314

<--Nogina T.M., IMV 53 <--Nesterenko O.A., 53. Soil, Ukraine. Numerical taxonomy (271). Mycobactins (328). (Medium 1, 28^°C)

Ac-195^T= ATCC 35013, DSM 43672, JCM 6166, NCIMB 11744, VKM Ac-593, IEGM AC 55

<--Nogina T.M., IMV 195 <--Nesterenko O.A., 195. Oil-polluted soil, Ukraine. Type strain (352, 357, 366). Taxonomy (357, 366). Numerical taxonomy (271, 333). Fatty acids (262, 357). Mycolic acids (257). Phospholipids (366). Menaquinones (357). GC-content of DNA (266, 421). DNA homology (421). Mycobactins (328). Ultrastructure of cells (273). Utilization of n-alkanes, D-alkamon, alkyl benzene sulphonate, alkyl sulphonate (254). (Medium 1, 28^°C)

Ac-217 <--Nogina T.M., IMV 217 <--Nesterenko O.A., 217. Soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). (Medium 1, 28^°C)

Ac-249 <--Nogina T.M., IMV 249 <--Nesterenko O.A., 249. Oil-polluted soil, Ukraine. Numerical taxonomy (271). Utilizes n-alkanes. (Medium 1, 28^°C)

Ac-277 = IEGM AC 44

<--Nogina T.M., IMV 277 <--Nesterenko O.A., 277. Oil-polluted soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). Fatty acids (262). GC-content of DNA, DNA homology (266). Serology (253). Utilizes n-alkanes. (Medium 1, 28^°C)

Ac-324 <--Nogina T.M., IMV 324 <--Nesterenko O.A., 324. Oil-polluted soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). Fatty acids (262). Utilizes n-alkanes. (Medium 1, 28^°C)

Ac-392 <--Nogina T.M., IMV 392 <--Nesterenko O.A., 392. Oil-polluted soil, Ukraine. Numerical taxonomy (371). Utilizes n-alkanes. (Medium 1, 28^°C)

Ac-678 <--Nogina T.M., IMV 678 <--Nesterenko O.A., 678. Oil-polluted soil, Ukraine. Numerical taxonomy (271). Mycobactins (328). Utilizes n-alkanes. (Medium 1, 28^°C)

Ac-734 <--Nesterenko O.A <--VKM B-464 (“Brevibacterium maris“ (Harrison 1929) Breed 1953). Ozokerit rock. Taxonomy (357). Numerical taxonomy (271, 377). Cellular monosaccharide composition, mycolic acids (267). GC-content of DNA, DNA homology (266). Morphology (268). Utilizes n-alkanes. (Medium 1, 28^°C)

Faenia rectivirgula, see Saccharopolyspora rectivirgula Ac-409

Gordonia bronchialis (Tsukamura 1971) Stackebrandt et al. 1989

Ac-737^T = ATCC 25592, CCM 2631, DSM 43247, IMET 7370, JCM 3198, 3231, KCC A-0198, NCTC 10667, VKM Ac-956

<--Nesterenko O.A <--Goodfellow M., N654 (Rhodococcus bronchialis). Synonym: Rhodococcus bronchialis (Tsukamura 1971) Tsukamura 1974 Type. Sputum of woman with cavitary disease of both upper lungs. Type strain (388). Numerical taxonomy (324, 327, 333, 399). Fatty acids (278, 280). Menaquinones (297). Mycolic acids (277, 335). Phospholipids (351). GC-content of DNA (266). DNA homology (251). 16S rRNA sequence similarity (388). Sensitivity to antibiotics (326). Mycobactins (328). (Medium 2, 28^°C)

“Gordonia lentifragmenta”, see Rhodococcus ruber Ac-745

“Gordonia rubra”, see Gordonia rubropertinctus Ac-739

Gordonia rubripertincta (Hefferan 1904) Stackebrandt et al. 1989

Ac-125 <-- Nogina T. M., IMV 125<-- Dumanskaya T. U., N 7. Synonym: Rhodococcus rubropertinctus (Hefferan 1904) Goodfellow et Alderson 1979. Oil-polluted soil, Ukraine. Destructor of oil hydrocarbons. (758). (Medium 1, 28°C).

Gordonia rubropertinctus (Hefferan 1904) Stackebrandt et al. 1989

Synonym: Rhodococcus rubropertinctus (Hefferan 1904) Goodfellow et Alderson 1979

Ac-119 = ATCC 8674, ATCC 15905, CBC 245.55, NCTC 3489, DSM 43301, RIA 673

<--Nesterenko O.A. (Rhodococcus rubropertinctus) <--Kuznetsov V.D., RIA 673 (“Proactinomyces minimus”). Soil. Taxonomy (265). Numerical taxonomy (323, 333). (Medium 2, 28^°C)

Ac-122 = IEGM AC 142

<--Nesterenko O.A. (Rhodococcus rubropertinctus) <--Prauser H., IMET 7301 (“Nocardia rubropertincta”). Taxonomy (265). Utilization of aniline, xylene, naphthalene, phenol (254). (Medium 2, 28^°C)

Ac-135 = IEGM AC 100

<--Nesterenko O.A., IMV 9G (Rhodococcus rubropertinctus) <--Smirnova G.F., 9G. Water, the Dnieper river, Ukraine. (Medium 2, 28^°C)

Ac-183 = IEGM AC 117

<--Nesterenko O.A., IMV 285 (Rhodococcus rubropertinctus) <--Kasumova S.A., 285. Oil-polluted soil, Ukraine. (Medium 2, 28^°C)

Ac-210 = IEGM AC 135

<--Nesterenko O.A., IMV 568 (Rhodococcus rubropertinctus) <--Kasumova S.A., 568. Oil-polluted soil, Ukraine. Utilizes aniline (254). (Medium 2, 28^°C)

Ac-739 = ATCC 25593, CCM 2632, DSM 43248, IMET 7372, JCM 3199, NCTC 10668, VKM Ac-1017

<--Nesterenko O.A., ATCC 25593 (Rhodococcus rubropertinctus) <--Goodfellow M., N657 (Rhodococcus corallinus). Synonyms: Rhodococcus corallinus (Bergey et al. 1923) Goodfellow et Alderson 1979 Type (324, 688), “Gordona rubra” Tsukamura 1971 Type (398). Soil. Taxonomy (398). Numerical taxonomy (324, 327, 333, 377, 399). Menaquinones (297). Mycolic acids (277, 335). Phospholipids (351). DNA homology (251, 353). Serology (252). Sensitivity to antibiotics (326). (Medium 2, 28^°C)

Ac-746^T = ATCC 14352, DSM 43197, IMET 7277, JCM 3204, NCIMB 9664, VKM Ac-1016, IEGM AC 95

<--Nesterenko O.A., ATCC 14352 <--Goodfellow M., N4 (Rhodococcus rubropertinctus). Soil. Type strain (388). Numerical taxonomy (323, 324, 327, 333, 377). Fatty acids (278). GC-content of DNA (266, 353). DNA homology (353). 16S rRNA sequence similarity (388). Serology (252, 253). Mycobactins (328). (Medium 2, 28^°C)

Gordonia terrae (Tsukamura 1971) Stackebrandt et al. 1989

Synonym: Rhodococcus terrae (Tsukamura 1971) Tsukamura 1974

Ac-232 = IEGM AC 147

<--Nesterenko O.A., IMV 30G (Rhodococcus terrae) <--Smirnova G.F., 30G. Water, the Dnieper river, Ukraine. (Medium 2, 28^°C)

Ac-233 = IEGM AC 148

<--Nesterenko O.A., IMV 32G (Rhodococcus terrae) <--Smirnova G.F., 32G. Water, the Dnieper river, Ukraine. Utilizes: butanol, glycerol, xylene, naphthalene, pentanol, propanol, ethanol (254). (Medium 2, 28^°C)

Ac-237 = IEGM AC 152

<--Nesterenko O.A., IMV 36G (Rhodococcus terrae) <--Smirnova G.F., 36G. Water, the Dnieper river, Ukraine. (Medium 2, 28^°C)

Ac-239 = IEGM AC 155

<--Nesterenko O.A., IMV 39G (Rhodococcus terrae) <--Smirnova G.F., 39G. Water, the Dnieper river, Ukraine. (Medium 2, 28^°C)

Ac-247 = IEGM AC 160

<--Nesterenko O.A., IMV 48GM (Rhodococcus terrae) <--Gavrilenko M.N., 48GÌ. Soil, Ukraine. (Medium 2, 28^°C)

Ac-748^T = ATCC 25594, DSM 43249, IMET 7371, KCC A-0206, NCTC 1069, VKM Ac-1023, IEGM AC 143

<--Nesterenko O.A <--Goodfellow M., N659 (Rhodococcus terrae). Soil. Type strain (388). Numerical taxonomy (324, 327, 333, 399). Menaquinones (297). Mycolic acids (277). Phospholipids (351). GC-content of DNA, DNA homology (251, 266). 16S rRNA sequence similarity (388). Serology (252, 253). Mycobactins (328). Sensitivity to antibiotics (326). Utilizes ethanol (254). (Medium 2, 28^°C)

Kocuria kristinae (Kloos et al. 1974) Stackebrandt et al. 1995

Ac-637^T =ATCC 27570, CCM 2690, CIP 81.69, DSM 20032, NCTC 11038, VKM B-1811

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus kristinae) <--CCM <--Kloos W.E., PM 129. Human skin (60). Type strain (60). Taxonomy, description (60, 92, 107). Numerical analysis (32). Murein: A3α , L-Lys—L-Ala₄ (60); cell wall aminosugar: glucosamine; menaquinones: MK-7(H₂), MK-8(H₂) (107); cytochromes: aa₃, c₅₄₈, b₅₅₇, b₅₆₁,b₅₆₂, b₅₆₄, d (31); phospholipids (107); major fatty acids: anteiso-C_15:0 (C_16:0, iso-C_16:0, anteiso-C_17:0) (107); major aliphatic hydrocarbons (60); aldolase: class II (41); mol% GC in DNA: 66.8 (60). Immunology (86). DNA homology (92). 16S rDNA sequence similarity (61). (Medium 1, 34^°C)

Kocuria rosea (Flü gge 1886) Stackebrandt et al. 1995

Ac-491 = CCM 189

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM
<--Apai J., RIR, 185. Meat. Taxonomy, description (64). Murein: A3α, L-Lys—L-Ala₄ (93); mol% GC in DNA: 70—72.2 (T_m) (13). (Medium 1, 34^°C)

Ac-492 = CCM 239, NCIB (NCIMB) 9147

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM. Water. Taxonomy, description (64). Mol% GC in DNA: 71.1 (T_m) (64). (Medium 1, 34^°C)

Ac-493 = CCM 558

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM (Medium 1, 34^°C)

Ac-494 = ATCC 397, CCM 562, NCTC 7528.

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM <--ATCC
<--Hucker G.H <--Krá l Collection. Taxonomy, description (64). Murein: A3α , L-Lys—L-Ala₄ (93); mol% GC in DNA: 72.8 (T_m) (13); major fatty acids: iso-C_15:0 (C_16:1; anteiso- C_17:0) (18). (Medium 1, 34^°C)

Ac-495 = CCM 574

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM. Taxonomy, description (64). (Medium 1, 34^°C)

Ac-496 = ATCC 416, CCM 837, NCTC 7518, VKM B-1861

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM <--Evans J.B., AMIF <--ATCC <--Hucker G.J. Taxonomy, description (64, 77, 81). Murein: A3α , L-Lys—L-Ala₄(93, 95); menaquinones: MK-8(H₂) (51); major aliphatic hydrocarbons (60); mol% GC in DNA: 69.7—70.0 (T_m) (11). (Medium 1, 28^°C)

Ac-497 = CCM 908

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM <--Ne mcová J. Pond water. Taxonomy, description (64). Murein: A3α, L-Lys—L-Ala₄ (93); mol% GC in DNA: 69.2 (T_m) (13). (Medium 1, 34^°C)

Ac-498 = IMV 184

<--Gvozdyak O.R. Equipment of dairy farm (2). (Medium 1, 34^°C)

Ac-499 = IMV 300

<--Gvozdyak O.R. Domestic sewages (2). (Medium 1, 34^°C)

Ac-500 = IMV 345

<--Gvozdyak O.R. Black soil, Odessa region (2). (Medium 1, 34^°C)

Ac-501 = IMV 411a

<--Gvozdyak O.R. Fermented carrot (2). Murein: A3α, L-Lys—L-Ala₄ (2). (Medium 1, 34^°C)

Ac-502 = IMV 497

<--Gvozdyak O.R. Soil, Caucasian mountains (2). (Medium 1, 34^°C)

Ac-504 = IMV 510

<--Gvozdyak O.R. Soil, Caucasian mountains (2). Murein: A3α , L-Lys—L-Ala₄ (2). (Medium 1, 34^°C)

Ac-505 = IMV 512

<--Gvozdyak O.R. Soil, Caucasian mountains (2). (Medium 1, 34^°C)

Ac-507 = IMV 522

<--Gvozdyak O.R. Soil, Kyiv (2). (Medium 1, 34^°C)

Ac-508 = IMV 609

<--Gvozdyak O.R. Soil, Kyiv (2). (Medium 1, 34^°C)

Ac-509 = IMV 108 ì

<--Gvozdyak O.R.<--Nesterenko O.A. (Micrococcus sp.) <--Melnichenko L.A. Soil, contaminated with oil. (Medium 1, 34^°C)

Ac-510 = IMV 113 ì

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus sp.) <--Melnichenko L.A. Soil, contaminated with oil. (Medium 1, 34^°C)

Ac-570 = CCM 570, VKM B-1822

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM
<--Kocur M. Pond water (South Moravia, Czechoslovakia). Taxonomy, description (64). Murein: A3α, L-Lys—L-Ala₄ (93); mol% GC in DNA: 73.8 (T_m) (13). (Medium 1, 34^°C)

Ac-646 =IMV 234

<--Gvozdyak O.R. Soil near dairy farm (2). (Medium 1, 34^°C)

Ac-650^T = ATCC 186, CCM 679, CCUG 4312, CCRC 11044, CIP 71.15, DSM 20447, IAM 1315, IFO 3768, NCIMB 11696, NCFB 975, NCTC 7523, VKM B-1236, VKM B-1823

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM <--ATCC 186 <--Breed R.S. (Micrococcus rubens) <--Krá l Collection (Micrococcus roseus “beta” roseo-fulvus <--Migula W <--Bujwid O. (Micrococcus tetragenes ruber). Phalera bucephala. Type strain (64). Cell division (120). Taxonomy, description (18, 64, 77, 81, 108). Numerical analysis (32). Murein: A3α, L-Lys—L-Ala₄ (93); cell wall aminosugar: galactosamine; menaquinones: MK-8(H₂), MK-7(H₂), MK-9(H₂) (107); cytochromes: aa₃, c₅₅₀, b₅₅₇, b₅₆₄, d (31); major fatty acids: anteiso-C_15:0 (iso-C_15:0, C_16:1) (107); major aliphatic hydrocarbons: br-Δ -C₂₄, br-Δ -C₂₅ (61); mol% GC in DNA: 69.0 (11). DNA homology (80). Nitrogen and energy requirements (30). Transformation (56). Putrescine oxidase (121). (Medium 1, 34^°C)

Ac-651 = ATCC 516, CCM 839, CIP 82.16, NCTC 7521, VKM B-1862

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus roseus) <--CCM <--Evans J.B, AMIF <--ATCC 516 <--Meyer K.F. Taxonomy, description (18, 64). Murein: A3 , L-Lys-L-Ala₄ (93); major fatty acids: iso-C_15:0 (C_16:0) (18); major aliphatic hydrocarbons (60); mol% GC in DNA: 72.0 (T_m) (13). Transformation (56). Nitrogen and energy sources (30). Defined nutrient medium (25). Carotenoid pigments: cantaxanthine (26; 99; 100; 111). (Medium 1, 34^°C)

Ac-758 = IMV 362

<--Gvozdyak O.R. Soil, Ukraine (2). (Medium 1, 34^°C)

Ac-759 = IMV 363

<--Gvozdyak O.R. Soil, Ukraine (2). (Medium 1, 34^°C)

Ac-761 = IMV 388

<--Gvozdyak O.R. Soil, Caucasian mountains (2). (Medium 1, 34^°C)

Ac-766 = IMV 443

<--Gvozdyak O.R. Soil, Caucasian mountains (2). (Medium 1, 34^°C)

Ac-782 = IMV 653 a

<--Gvozdyak O.R. Fresh cream (2). (Medium 1, 34^°C)

Kocuria varians (Migula 1900) Stackebrandt et al. 1995

Ac-484 = IMV 7a

<--Gvozdyak O.R <--Nogina T.M. (non-identified strain). Milk (2). (Medium 1, 34^°C)

Ac-485 = IMV 58-1ya

<--Gvozdyak O.R <--Nogina T.M. (non-identified strain). Milk (2). (Medium 1, 34^°C)

Ac-487 = IMV 74 b

<--Gvozdyak O.R <--Nogina T.M. (non-identified strain). Milk (2). Murein: L-Lys—L-Ala_3-4. (Medium 1, 34^°C)

Ac-488 = IMV 581

<--Gvozdyak O.R. Maize (2). (Medium 1, 34^°C)

Ac-489 = IMV 704

<--Gvozdyak O.R. Waste water (2). (Medium 1, 34^°C)

Ac-490 = IMV 824

<--Gvozdyak O.R <--Nogina T.M. (non-identified strain). Milk (2). (Medium 1, 34^°C)

Ac-640 = CCM 881

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus varians) <--CCM. (Medium 1, 34^°C)

Ac-641^T= ATCC 15306, CCM 884, DSM 20033, CCRC 12152, NCDO 777, NCFB 624, NCIMB 11697, NCTC 7564, VKM B-1232, VKM B-1827

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus varians) <--CCM <--NCTC <--Gibson T., G 33 (Staphylococcus lactis). Milk. Type (63). Taxonomy, description (63, 77, 81, 92, 107). Numerical analysis (32). Murein: A3α , L-Lys—L-Ala₄ (93); cell wall aminosugar: galactosamin; cytochromes (31); menaquinones: MK-7(H₂) (51; 107); aldolase: class II (41); phospholipids (107); mycolic and teichoic acids: absent; major fatty acids: anteiso-C_15:0 (C_16:0, iso-C_16:0, anteiso-C_17:0) (107); major aliphatic hydrocarbons (60); mol% GC in DNA: 69,3 (84). Electrophoresis of soluble proteins (35). Catalase isoenzymes (36). Immunological study of catalases (86). Antigenic structure (78). Plasmids (72). DNA homology (80, 92, 107). (Medium 1, 34^°C)

Kytococcus sedentarius (ZoBell et Upham 1944) Stackebrandt et al. 1995

Ac-638^T= ATCC 14392, CCM 314, CIP 81.72, DSM 20547, NCIB (NCIMB) 555, NCTC 11040

<--Gvozdyak O.R <--Nesterenko O.A. (Micrococcus sedentarius) <--CCM <--ZoBell C.E., 54. Sea water (122). Taxonomy, description (60; 107). Numerical analysis (32). Type (60). Murein: A3α , L-Lys—Gly₂ (93); menaquinones: MK-8, MK-9, MK-10 (107); cytochromes: aa₃, c₅₅₀, b₅₅₇, b₅₆₁, b₅₆₄, d (31); polar lipids: diphosphatidylglycerol, phosphatidylglycerol, phosphatidylinositol (107); major aliphatic hydrocarbons (60); mycolic and teichoic acids: absent; major fatty acids: anteiso-C_17:0; iso-C_17:1; C_15:0; C_17:0 (107); mol% GC in DNA: 69.3 (12). (Medium 1, 28^°C)

Microbacterium barkeri Collins et al.1983 Takeuchi et Hatano 1998

Ac-690^T= ATCC 15954, CCM 1928, DSM 20145, IAM 12585, IFO 15036, IMET 10688, JCM 1343, NCIMB 9658, VKM Ac-1020

<--Nesterenko O.A. <--CCM 1928 (“Corynebacterium barkeri”). Synonym: “Corynebacterium barkeri” (Dias et al. 1962) Type (311), Aureobacterium barkeri (Dias et al. 1982) Collins et al.1983 [782]. Raw domestic sewage (311). Type strain (292, 352). Description (292, 784). Numerical taxonomy (334, 377). Peptidoglycan (374). Menaquinones, phospholipids (292). Mycolic acids (292, 325). Fatty acids (280, 292, 393). GC-content of DNA (292, 312). DNA homology (312, 419). Produces pectinmethylesterase and pectintranseliminase (311). (Medium 1, 28^°C)

Microbacterium imperiale (Steinhaus 1941) Collins et al. 1983

Ac-694^T = AJ 1446, ATCC 8365, CCEB 497, CCRC 11226, CIP 82.108, DSM 20530, IAM 1654, IFO 12610, IMET 10714, JCM 1378, NCFB 2269, NCIMB 9888, VKM Ac-1447, VKM B-1204

<--Nesterenko O.A., VKM B-1204 <--IBPhM B-67 (Brevibacterium imperiale). Synonym: Brevibacterium imperiale (Steinhaus 1941) Breed 1953 Type (688). Alimentary tract of imperial moth (Eacles imperialis) (389). Type strain (294, 352). Numerical taxonomy (330, 334, 377). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (294). Fatty acids (241, 294, 393). Mycolic acids (294, 325). Phospholipids, glycolipids (294). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (294, 312, 415). DNA homology (312, 420). DNA-rRNA hybridization (312). (Medium 1, 28^°C)

Microbacterium lacticum Orla-Jensen 1919

Ac-696^T = ATCC 8180, CCM 1584, DSM 20172, DSM 20427, IAM 1640, IFO 14135, IMET 10712, JCM 1379, NCDO 747, NCIMB 9540, VKM Ac-1145, VKM B-1254

<--Nogina T.M.<--VKM Ac-1145. Type strain (688). Numerical taxonomy (279, 330, 334, 377). Peptidoglycan (373). Monosaccharide composition of cell wall (335). Menaquinones (294). Fatty acids (278, 280, 294). Mycolic acids (294, 325). Phospholipids, glycolipids (294). Cell wall polysaccharides, teichoic acids (394). Protein profiles of cell-free extracts (300). GC-content of DNA (279, 294, 300, 312, 415). DNA homology (312, 420). DNA-rRNA hybridization (312). 16S rRNA sequence similarity (385). (Medium 1, 28^°C)

Microbacterium laevaniformans (Dias et Bhat 1962) Collins et al. 1983

Ac-695^T =ATCC 15953, CCM 1929, DSM 20140, IFO 14471, IMET 10713, NCIMB 9659, VKM Ac-1138, VKM B-1215

<--Nesterenko O.A <--IBPhM B-138. Synonym: “Corynebacterium laevaniformans“ Dias et Bhat 1962 Type. Activated sluge (309, 310). Type strain (294, 352). Numerical taxonomy (279, 334, 377). Peptidoglycan (374). Monosaccharide composition of cell wall (335). Menaquinones (294). Fatty acids (241, 280, 294). Mycolic acids (267, 294). Phospholipids, glycolipids (294). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (294, 312). DNA homology (312, 420). DNA-rRNA hybridization (312). Produces levan (309, 310). (Medium 1, 28^°C)

Microbacterium liquefaciens (Collins et al. 1983) Takeuchi et Hatano 1998

Ac-691^T= ATCC 43647, DSM 20638, IFO 15037, JCM 3879, NCIMB 11509, VKM Ac-1018

<--Nogina T. M. <--VKM Ac-1018. Synonym: “Microbacterium liquefaciens” (Orla-Jensen 1919) Abd-el-Malek et Gibson 1952 Type, Aureobacterium liquefaciens (Orla-Jensen 1919, Collins et al. 1983) [782]. Milk. Type strain (292, 352). Description (292, 784). Numerical taxonomy (334, 377). Peptidoglycan (312, 374). Menaquinones, mycolic acids, phospholipids (292). Fatty acids (278, 292). GC-content of DNA (292, 312). DNA homology (312, 419). (Medium 1, 28^°C)

Microbacterium saperdae (Lysenko 1959) Takeuchi et Hatano 1998

Ac-692^T = AJ 3126, ATCC 19272, CCEB 366, DSM 20169, IFO 15038, IMET 11076, JCM 1352, VKM Ac-1022, VKM Ac-1414

<--Nesterenko O. A. <--Lysenko O., CCEB 366 (Brevibacterium saperdae). Synonyms: Brevibacterium saperdae Lysenko 1959 Type (688), Curtobacterium saperdae (Lysenko 1959) Yamada et Komagata 1972 Type (688) Aureobacterium saperdae (Lysenko 1959) Collins et al. 1983 [782] Type. Dead larvae of elm borer (Saperdae carcharias) (348). Type strain (292, 352). Description (292, 348, 784). Numerical taxonomy (334, 377). Peptidoglycan (374). Menaquinones (287, 292). Mycolic acids (292). Fatty acids (287, 292, 393). Phospholipids (287). GC-content of DNA (292, 312, 415). DNA homology (312, 419). DNA-rRNA homology (312). Medium 1, 28^°C)

Microbacterium testaceum (Komagata et Iizuka 1964) Takeuchi et Hatano 1998

Ac-693^T= AJ 1466, ATCC 15829, CCM 2299, DSM 20166, IAM 1561, IFO 12675, IMET 10361, JCM 1353, NCIMB 11430, VKM Ac-1019, VKM B-1229

<--Nesterenko O.A. <--CCM 2299 (Brevibacterium testaceum). Synonyms: Brevibacterium testaceum Komagata et Iizuka 1964 Type (688), Curtobacterium testaceum (Komagata et Iizuka 1964) Yamada et Komagata 1972 Type (688). Aureobacterium testaceum (Komagata et Iizuka 1964) Collins et al. 1983 [782]. Paddy (Oryza sativa). Type strain (292, 352). Description (292). Numerical taxonomy (334, 377). Peptidoglycan (312). Menaquinones (287, 292). Mycolic acids (292). Fatty acids (280, 287, 292, 393). Phospholipids (287, 292, 341). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (292, 312). DNA homology (312, 419). DNA-rRNA hybridization (312). 5S rRNA sequence similarity (360). (Medium 1, 28^°C)

Micrococcus agilis, see Arthrobacter agilis

Micrococcus kristinae, see Kocuria kristinae

Micrococcus luteus (Schroeter 1872) Cohn 1872

Ac-463 = CCM 248, NCIMB 8854

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--Institute of Hygiene, Perugia, Italy. Taxonomy, description (66). Murein: A2, L-Lys peptide subunit (93); mol% GC in DNA: 73.3 (84, 85). (Medium 1, 34^°C)

Ac-464 = CCM 265, DSM 46257, IFO 3066, IMET 10817

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--IFO (Sarcina marginata). Taxonomy, description (66). Murein: A2, L-Lys peptide subunit (93). Mol% GC in DNA: 72.8 (84, 85). (Medium 1, 34^°C)

Ac-465 = AMNH 208, ATCC 382, CCM 337

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--ATCC <--Hucker G.J. Taxonomy, description (60, 66). Murein: A2, L-Lys peptide subunit (93). Mol% GC in DNA: 72.3 (T_m) (11); major aliphatic hydrocarbons: br-Δ-C₂₇, br-Δ-C₂₉ (60). (Medium 1, 34^°C)

Ac-466 = ATCC 540, CCM 351

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--ATCC <--Meyer K.F. Taxonomy, description (60, 66). Murein: A2, L-Lys peptide subunit (93); mol% GC in DNA: 71.5 (T_m) (62); aliphatic hydrocarbons br-Δ-C₂₇, br-Δ-C₂₈, br-Δ-C₂₉ (60). (Medium 1, 34^°C)

Ac-467 = ATCC 9273, CCM 1076

<--Gvozdyak O.R <--Nesterenko O.A <--CCM. (Medium 1, 34^°C)

Ac-468 = ATCC 12698, CCM 1423

<--Gvozdyak O.R <--Nesterenko O.A <--CCM. (Medium 1, 34^°C)

Ac-469 = GISK 2665, VKM B-109

<--Gvozdyak O.R <--Nesterenko O.A <--VKM <--INMI, VKM B-109 <--GISK, 2665. (Medium 1, 34^°C)

Ac-632 = ATCC 10240a, CCM 555, FDA 16 RD, PCI 1216/D, NCIB 10419

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--ATCC 1024a (“Micrococcus flavus”) <--FDA 16 RD. Numerical analysis (46). Mol% GC in DNA: 71.8 (62). Assay of bacitracin in pharmaceutical preparations, resistance to dihydrostreptomycin and streptomycin (15). Sensitivity to phages (6). (Medium 1, 34^°C)

Ac-633 = ATCC 381, CCM 559, VKM B-1855

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--ATCC 381 (“Sarcina lutea”) <--Hucker G.J., S 66 <--Krá l Collection <--Migula W. Water. Taxonomy, description (60; 66). Numerical analysis (32). Murein: A2, L-Lys peptide subunit (93); menaquinones (51); neutral lipids (76); aliphatic hydrocarbons: br-Δ -C₂₉ (br-Δ -C₂₇, br-Δ -C₂₈) (60); mol% GC in DNA: 72.8 (84). Electrophoresis of soluble proteins (35). Catalase isoenzymes (36). Purine auxotroph (75). Transformation (56). DNA homology (80). Production of naphthylamidase isoenzyme complement (8). (Medium 1, 34^°C)

Ac-634 = ATCC 10240, ATCC 10786, BTCC 387, CCM 732, CIP 53.160, DSM 1790, DSM 20490, FDA 16, IEMM 8158, IFO 3242, HMGBB 523, HMGBB 524, HNCMB 115001, IEMM 8158, IMET 10759, NCIB (NCIMB) 8166, NCIB 8640, NCTC 7743, OUT 8276, PCI 1216

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--ATCC (“Micrococcus flavus”) <--Commercial Solvent Corporation, 13021 (Micrococcus flavus). Numerical analysis (33). Murein: A2, L-Lys peptide subunit (93); major fatty acids (50); mol% GC in DNA: 65.0 (5). Electrophoresis of soluble proteins (35). Catalase isoenzymes (36). Transformation (56). Assay of benzalkonium chloride, chlorhexidine diacetate and gluconate, phenylmercuric acetate and nitrate, thimerosal. Assay of nisine in cheese (396); bacitracin in body fluids, food, milk and pharmaceutical preparations (113). (Medium 1, 34^°C)

Ac-643 =ATCC 11880, CCM 144, CIP 55.98, NCIB 8854, NRRL B-3190, VKM B-1843

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--J.B. Evans (“Micrococcus sodonensis”) <--ATCC 11880 <--Aaronson S., B <--Bicknell A. Lake water. Taxonomy, description (66). Numerical analysis (33). Murein: A2, L-Lys peptide subunit (93); mol% GC in DNA: 71.8 (84). Menaquinones: hydrogenated (51). Electrophoresis of proteins (35). Catalase isoenzymes (36). Metabolism of carbon sources (82, 83). Metabolism of adenosine (102, 103). Transformation (56). Extracellular alkaline phosphatase (38). Serology (42; 78). Assay of biotin (4). (Medium 1, 34^°C)

Ac-645^T =ATCC 4698, ATCC 15307, CCM 169, CCRC 11034, CCUG 5858, CIP A-270, DSM 20030, IAM 1056, IEM M 15/65, IFO 3333, JCM 1464, NCIB 9278, NCIMB 9278, NCIMB 10474, NCTC 2665, NCFB 947, NRRL B-287, VKM B-1314, VKM B-1813

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--Evans J.B. (“Microccus lysodeikticus”) <--ATCC 4698 <--Fleming A. (Micrococcus lysodeikticus). Type strain (66). Taxonomy, description (23, 37, 61, 66, 77, 81, 88, 92, 107). Numerical analysis (32). Murein: A2, L-Lys peptide subunit (93, 95); mol% GC in DNA: 73.3 (T_m) (11); cytochromes: a ,b, c, d (31); menaquinones: MK-8(MK-7) (51); aldolase: class-II (41); aliphatic hydrocarbons: br-Δ-C₂₉ (br-Δ -C₂₇) (60). Electrophoresis of soluble proteins (35). Catalase isoenzymes (36). Immunology (86). Oxidative phosphorylation (117). Phages (6, 66). Transformation (56). DNA homology (92). 16S rDNA sequence similarity (107). Assay of lysozyme (34). Determination of bacteriolytic activity (89, 114, 115). Isolation of cytochrome b (49). Polynucleotide phosphorylase (7, 55). (Medium 1, 34^°C)

Ac-648 =ATCC 272, CCM 410, NRRL B-2618

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--ATCC 272 <--Jordan E.O. Taxonomy, description (66, 95). Numerical analysis (46). Murein: A2, L-Lys peptide subunit (93); menaquinones: MK-8(H₂) (119); neutral lipids (76); aliphatic hydrocarbons: br-Δ-C₂₉ (br-Δ -C₂₇, br-Δ -C₂₈) (60); phospholipids (69); mol% GC in DNA: 73.7 (T_m) (11). Sensitivity to phages (6). Transformation (53). Mapping of tryptophane locus (57). DNA homology (80). Assay of lysozyme (28). (Medium 1, 34^°C)

Micrococcus lylae Kloos et al. 1974

Ac-482^T =ATCC 27566, CCM 2693, CCRC 12151, CIP 81.70, DSM 20315, NCTC 11037, VKM B-1815

<--Gvozdyak O.R <--Nesterenko O.A <--CCM <--Kloos W.E., JL 178. Human skin (60). Type strain (60). Taxonomy, description (60, 92, 107). Numerical analysis (32). Immunology of catalases (86). Murein: A4 , L-Lys—Asp (60); cell wall aminosugar: galactosamin; menaquinones: MK-8(H₂) (MK-7(H₂), MK-9(H₂)) (107); cytochromes: aa₃, c₅₅₁, b₅₅₇, b₅₆₄, d (31); mycolic and teichoic acids: absent; major fatty acids: iso- and anteiso-C_15:0(107); major polar lipids: diphosphatidylglycerol, phosphatidylglycerol, non-identified ninhydrin-positive phospholipids and glycolipids (107); major aliphatic hydrocarbons: br-Δ-C₂₉ (br-Δ -C₂₈; br-Δ-C₂₇) (60); mol% GC in DNA: 67.1 (60). DNA homology (92). Phylogeny (61, 106, 107). (Medium 1, 34^°C)

“Micrococcus lysodeikticus”, see Micrococcus luteus

Micrococcus nishinomiyaensis, see Dermacoccus nishinomiyaensis

Micrococcus roseus, see Kocuria rosea

Micrococcus sedentarius, see Kytococcus sedentarius

Micrococcus sp.

Ac-513 =ATCC 398, CCM 810, IAM 1097, IFO 3763, NCIB 8165, NCTC 8512, VKM B-1234

<--Gvozdiak O.R <--Nesterenko O.A <--CCM <--Evans J.B. (Micrococcus luteus) <--ATCC 398 <--Hucker G.J., 426. Former neotype of Micrococcus luteus Breed 1952 (16). Taxonomy, description (16, 66). Murein: L-Lys — Gly — L-Glu (93); menaquinones: MK-9(H₂) (119); hydrogenated MK-9(MK-8) (51); mol% GC in DNA: 66,3 (84). Transformation (56). (Medium 1, 28^°C)

Micrococcus varians, see Kocuria varians

Micropolyspora rectivirgula, see Saccharopolyspora rectivirgula Ac-409

Mycobacterium phlei Lehmann et Neumann 1899

Ac-402^T = ATCC 11758, ATCC 19249, DSM 43239, JCM 5865, NCTC 8151, VKM Ac-1291

<--Nesterenko O.A <--NCTC 8151. Type strain (688). Numerical taxonomy (327, 330). Fatty acids (269, 280). Mycolic acids (345). Phospholipids (351). GC-content of DNA (256). 16S rRNA sequence similarity (362). Serology (304). (Medium 2, 28^°C)

Nocardia asteroides (Eppinger 1891) Blanchard 1896

Ac-405^T = AJ 9128, ATCC 19247, CCM 2754, DSM 43757, IMET 7547, IMRU 727, NCIMB 12082 , NCTC 11293, PSA 165, RIA 436

<--Nesterenko O.A <--RIA 436 <--IMRU 727. Type strain (688). Taxonomy (265). Numerical taxonomy (323, 327, 333, 399). Menaquinones (297, 414). Fatty acids (280). Mycolic acids (276). Phospholipids (341, 351). GC-content of DNA (341). DNA-rRNA hybridization (355). Sensitivity to antibiotics (326). (Medium 2, 28^°C)

Nocardia brasiliensis (Linderberg 1909) Pinoy 1913

Ac-407 =ATCC 19295, CCM 165, DSM 43064, IMET 7138, NCTC 10300, IMRU 744, VKM Ac-1075, RIA 440

<--Nesterenko O.A <--NCTC 10300. Numerical taxonomy ( 323, 327, 333, 377). Menaquinones (414). Mycolic acids (276). Phospholipids (341, 351). Sensitivity to antibiotics (326). (Medium 2, 28^°C)

Nocardia calcarea, see Rhodococcus erythropolis Ac-742

Nocardia corynebacterioides, see Rhodococcus sp. Ac-124

“Nocardia erythropolis”, see Rhodococcus erythropolis Ac-741

Nocardia farcinica Trevisan 1889

Ac-408^T =ATCC 3318, DSM 43665, DSM 43245, IMET 7377, JCM 3088, NCIMB 12058, NCTC 11134, NCTC 4524

<--Nesterenko O.A., ATCC 3318 <--PSA 162. Type strain (688). Taxonomy (265). Numerical taxonomy (333, 399). Menaquinones (414). Fatty acids (281). Mycolic acids (345, 346). GC-content of DNA (281). (Medium 2, 28^°C)

Nocardia globerula, see Rhodococcus erythropolis Ac-10

“Nocardia opaca”, see Rhodococcus opacus Ac-365

Nocardioides albus Prauser 1976

Ac-657^T = ATCC 27980, CCM 2712, DSM 43109, IFO 13917, IMET 7807, JCM 3185, KCC A-0185, NCIMB 11454, VKM Ac-805, VKM Ac-682, RIA 2030

<--Nogina T.M.<--Prauser H., IMET 7807. Soil, lavender field, Hungary. Type strain (363, 688). Taxonomy (264). Menaquinones, fatty acids (295, 359, 392). Phospholipids (295, 359). GC-content of DNA, DNA homology (392). 16S rRNA sequence similarity (285, 299). Sensitivity to phages (363). Produces xanthine dehydrogenase (332, 396). (Medium 2, 28^°C)

Nocardioides jensenii (Suzuki et Komagata 1983) Collins et al. 1989

Ac-670^T = DSM 20641, IAM 12581, IFO 14775, IMET 10678, JCM 1364, NCIMB 9770, RIA 1940

<--Nesterenko O.A., NCIMB 9770 <--JCM 1364 (Pimelobacter jensenii). Synonym: Pimelobacter jensenii Suzuki et Komagata 1983 Type (352, 392). Type strain (285). Taxonomy (264, 285). Menaquinones, fatty acids, GC-content of DNA, DNA homology (392). Phospholipids (418). Cell wall polysaccharides, teichoic acids (394). 16S rRNA sequence similarity (285). Ultrastructure of cells (274). Degradation of dinitro-o-cresol herbicides (249, 396). (Medium 2, 28^°C)

Nocardioides luteus Prauser 1985

Ac-671^T= ATCC 43052, IFO 14491, IMET 7830, NCIMB 11455, VKM Ac-1246

<--Nogina T.M. <--Prauser H., IMET 7830. Park soil, Sudan. Type strain (364). Taxonomy (264). Menaquinones, phospholipids, fatty acids (295, 359). GC-content of DNA (364). 16S rRNA sequence similarity (285, 299). Ultrastructure of cells (274). (Medium 2, 28^°C)

Nocardioides simplex (Jensen 1934) O'Donnell et al. 1983

Ac-667^T= AJ 1420, ATCC 6946, CCM 1652, DSM 776, DSM 20130, IAM 1660, IFO 3530, IFO 12069, IMET 10368, JCM 1363, NCIMB 8929, NCIMB 8913, NCTC 4215, VKM Ac-925, VKM Ac-1118, VKM B-667, RIA 1938

<--Nesterenko O.A <--VKM B-667 (Arthrobacter simplex). Synonyms: Pimelobacter simplex (Jensen 1934) Suzuki et Komagata 1983 Type (352, 392), Arthrobacter simplex (Jensen 1934) Lochhead 1957 Type (688). Soil, rice field. Type strain (352, 359). Taxonomy (264, 359). Numerical taxonomy (279, 330, 334, 377) . Peptidoglycan (374). Cell wall composition (304). Menaquinones (286, 295, 359, 392). Mycolic acids (335). Fatty acids (295, 359, 392). Phospholipids (295, 359). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (392). DNA homology (391, 392). 16S rRNA sequence similarity (285, 299, 385), 5S rRNA sequence similarity (360). Serology (304). Phages (397). Ultrastructure of cells (274). Produces: dienes (401), 7-cyanosteroids (403), 5`-nucleotides (411). Degradation of cholesterol (356). (Medium 1, 28^°C)

Oerskovia turbata (Erikson 1954) Prauser et al. 1970 emend.Stackebrandt et al. 2002

Ac-711^T = AJ 9191, ATCC 25835, DSM 20577, 43880, IFO 13506, IMET 7405, JCM 3160, NCIMB 10587, SSIC 891, VKM Ac-1024, RIA 1564

<--Nesterenko O. A <--Prauser H., IMET 7130 <--Lautrop H. (Oerskov J., strain 27). Synonym: Cellulomonas turbata (Erikson 1954) Stackebrandt et al. 1983 [784]. Soil, Denmark (316). Type strain (352, 387). Description (365, 786). Numerical taxonomy (323, 334, 377). Peptidoglycan (376, 383). Monosaccharide composition of cell wall (390). Menaquinones (297, 414). Fatty acids (241, 280, 350). Mycolic acids (325). Phospholipids (341, 350). GC-content of DNA (390). DNA homology (383). 16S rRNA sequence similarity (383, 386). Phylogenetic analysis (263). Cytochromes (376). (Medium 1, 28^°C)

Pimelobacter jensenii, see Nocardioides jensenii Ac-670

Pimelobacter simplex, see Nocardioides simplex Ac-667

Pimelobacter tumescens, see Terrabacter tumesces Ac-669

Promicromonospora citrea Krassilnikov et al. 1961

Ac-713^T = ATCC 15908, DSM 43110, IFO 12397, IMET 7267, JCM 3051, KCC A-0051, NCIMB 12149, VKM Ac-665, RIA 562

<--Nesterenko O.A <--VKM Ac-665 <--RIA 562 <--INMI 18. Soil. Type strain (688). Description (258). Peptidoglycan (250). Cell wall composition (417). Fatty acids (241). GC-content of DNA (250). 16S rRNA sequence similarity (386). Phylogenetic analysis (263). Morphology, ultrastructure of cells (259). (Medium 2, 28^°C)

Rhodococcus bronchialis, see Gordonia bronchialis Ac-737

Rhodococcus coprophilus Rowbotham et Cross 1979

Ac-738^T =ATCC 29080, CBS 313.75, CCM 2723, DSM 43347, IMET 7375, JCM 3200, NCIMB 11211, NCTC 10994, VKM Ac-571

<--Nesterenko O.A <--Rowbotham T.J., CUB 687. Lake mud, Great Britain. Type strain (371, 688). Taxonomy (265). Numerical taxonomy (327, 333, 371, 377, 399). Cell wall composition, mycolic acids (371). Fatty acids (280). GC-content of DNA (353). DNA homology (261). DNA-rRNA hybridization (355). Mycobactins (328). (Medium 2, 28^°C)

Rhodococcus corallinus, see Gordonia rubropertinctus Ac-739

Rhodococcus equi (Magnusson 1923) Goodfellow et Alderson 1979

Ac-740^T = ATCC 6939, ATCC 25729, DSM 20307, DSM 43349, IMET 7467, JCM 1311, NCTC 1621, NCIMB 12828, VKM Ac-953, IEGM AC 2

<--Nesterenko O.A <--Goodfellow M., R71. Synonym: Corynebacterium equi Magnusson 1923 Type (688). Lung abscess of foal. Type strain (324, 688). Numerical taxonomy (333, 377, 399). Peptidoglycan (374). Menaquinones (297). Mycolic acids (288, 345, 346). Fatty acids (280). GC-content of DNA (353, 415). DNA homology (353, 391), DNA-rRNA hybridization (355). Serology (253, 304). Mycobactins (328). (Medium 2, 28^°C)

Ac-267 = ATCC 14887, DSM 43199, IMET 7279, JCM 3223, KCC A-0223, NCIMB 10027, VKM Ac-957, IEGM AC 1

<--Nesterenko O.A., ATCC 14887 (“Rhodococcus aquosus” (Turfitt 1944) Nesterenko 1985 Type) <--Trejo W.H., IMRU 545 (Nocardia restricta (Turfitt 1944) McClung 1974 Type) (688). Taxonomy ( 265). Numerical taxonomy (333, 377). Menaquinones (413). DNA homology (247). Serology (253). (Medium 2, 28^°C)

Rhodococcus erythropolis (Gray et Thornton 1928) Goodfellow et Alderson 1979

Ac-10 = ATCC 19370, CBS 611.67, CCM 279, JCM 7475, KCC A-0119, NCIMB 9159, VKM Ac-859

<--Nesterenko O.A <--CCM 279 (Nocardia globerula (Gray 1928) Waksman et Henrici 1948 Type (688). Soil, treated by skatole (methylindole), Great Britain. Numerical taxonomy (323, 324, 327, 377). Menaquinones (413). Serology (252, 253). (Medium 2, 28^°C)

Ac-15 = AJ 3147, ATCC 11048, CCM 2595, DSM 43060, IMET 7463, JCM 3132, KCC A-0132, NCIMB 8147, NCTC 8030

<--Nesterenko O.A <--Tsukamura M., 40014 (“Jensenia canicruria” Bisset et Moore 1950 Type). Soil. Numerical taxonomy (323, 324, 333, 399). Menaquinones (297, 413). Mycolic acids (276, 335). Fatty acids (280). Phospholipids (351). Sensitivity to antibiotics (326). (Medium 2, 28^°C)

Ac-17 = AJ 9110, DSM 43135, IMET 7471, NCIMB 9409

<--Nesterenko O.A., NCIB 9409 <--Webley D.M., T-16 (“Nocardia opaca” (den Dooren de Jong 1927) Waksman et Henrici 1918). Soil. Numerical taxonomy (323, 324). Menaquinones (413). Mycolic acids (276). GC-content of DNA (266). Serology (252). (Medium 2, 28^°C)

Ac-19 = AJ 1386, ATCC 15961, IAM 1484, IFO 12682

<--Nesterenko O.A <--Komura I., AJ 1386 (“Corynebacterium hydrocarboclastus”). Synonym: “Corynebacterium hydrocarboclastus “ Iizuka et Komagata 1964 Type. Soil. Taxonomy (340). Numerical taxonomy (377). Phospholipids (341). Serology (252, 253). Produces L-glutamic acid (395). (Medium 2, 28^°C)

Ac-29 <-- Nogina T. M., IMV 41<-- Nesterenko O. A., 41. Soil, Ukraine. Destructor of oil hydrocarbons. (758). (Medium 1, 28°C).

Ac-39 <--Nesterenko O.A., IMV 89 <--Kasumova S.A., 89. Soil, Ukraine. Serology (252). Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-49 <--Nesterenko O.A., IMV 134 <--Kasumova S.A., 134. Oil-polluted soil, Ukraine. (Medium 2, 28^°C)

Ac-88 = IEGM AC 9

<--Nesterenko O.A., IMV 560 <--Kasumova S.A., 560. Oil-polluted soil, Ukraine. Serology (252). (Medium 2, 28^°C)

Ac-96 = IEGM AC 10

<--Nesterenko O.A., IMV 618 <--Kasumova S.A., 618. Soil, Ukraine. Serology (252). Utilizes: butanol, octanol, propanol, phenol, phenylacetic acid, ethanol (254). (Medium 2, 28^°C)

Ac-741^T = AJ 9126, ATCC 4277, ATCC 25544, CBS 266.39, CCM 277, DSM 743, DSM 763, DSM 43066, IMET 7462, JCM 3201, NCIMB 9158, NCIMB 11148, VKM Ac-858, VKM Ac-1337, IEGM AC 7

<--Nesterenko O.A <--Komura I., AJ 9126 (“Nocardia erythropolis”). Synonym: “Nocardia erythropolis” (Gray et Thornton 1928) Waksman et Henrici 1948 Type. Soil. Type strain (324, 688). Numerical taxonomy (323, 327, 333, 377, 399). Menaquinones (297, 413). Mycolic acids (276). Fatty acids (280). Phospholipids (341). GC-content of DNA (266, 354). DNA homology (261, 354), DNA-rRNA hybridization (355). Ribosomal proteins (358). Serology (252, 253). Mycobactins (328). Sensitivity to antibiotics (326). Utilizes: butanol, ethanol (254). (Medium 2, 28^°C)

Ac-742 = ATCC 19369, CBS 613.67, CCM 2597, DSM 43188, IMET 7472, JCM 3191, NCIMB 8863

<--Nesterenko O.A., IMV 742 <--Goodfellow M., NCIB 8863 (Nocardia calcarea). Synonym: Nocardia calcarea Metcalf et Brown 1957 Type (688). Soil, Great Britain. Numerical taxonomy (323, 333, 377). Menaquinones (413). Phospholipids (341, 351). 16S rRNA sequence similarity (388). Serology (252, 253). Fixes nitrogen (349). (Medium 2, 28^°C)

Rhodococcus fascians (Tilford 1936) Goodfellow 1984 [785]

Ac-8 <--Nogina T. M., IMV 8 <--Nesterenko O. A., 8. Soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). (Medium 2, 28^°C)

Ac-21 <--Nogina T. M., IMV 21 <--Nesterenko O. A., 21. Soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). (Medium 2, 28^°C)

Ac-68 <--Nogina T. M., IMV 68 <--Nesterenko O.A., 68. Soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-111 <--Nogina T. M., IMV 111 <--Nesterenko O. A., 111. Oil-polluted soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). GC-content of DNA (266). Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-158 <--Nogina T. M., IMV 158 <--Nesterenko O. A., 158. Oil-polluted soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-385^T = ATCC 35014, DSM 43673, NCIMB 11743, VKM Ac-594, IEGM AC 43

<--Nogina T. M., IMV 385 <--Nesterenko O. A., 385. Oil-polluted soil, Ukraine. Type strain for R. luteus (352, 357). Taxonomy (357). Numerical taxonomy (271, 333). Fatty acids, mycolic acids, menaquinones (357). GC-content of DNA (266, 421). DNA homology (421). 16S rRNA sequence similarity (337). Morphology (268), ultrastructure of cells (273). Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-455 <--Nogina T. M., IMV 455 <--Nesterenko O. A., 455. Oil-polluted soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-604 <--Nogina T. M., IMV 604 <--Nesterenko O. A., 604. Soil, Ukraine. Taxonomy (357). Numerical taxonomy (271). Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-605^T = ATCC 12974, DSM 20669, JCM 1316, IFO12155; JCM 1316, VKM Ac-1462

<-- Nogina T. M. <-- Ac-1462. Synonym: Corynebacterium fascians (Tilford 1936) Dowson 1942 Type (688). Type strain (771, 352). Synthesis of 5'- nucleotides (772). (Medium 2, 28°C).

Ac-735 = VKM Ac-1169, VKM B-868

<--Nesterenko T. M. <--VKM B-868 (“Mycobacterium luteum“ Sö hngen 1913). Taxonomy (265, 357). Monosaccharide composition of cells, mycolic acids (267). Fatty acids (262). GC-content of DNA (266). Serology (253). Mycobactins (328). Morphology (268). (Medium 2, 28^°C)

Ac-736 = VKM Ac-960

<--Nesterenko T. M. <--Gordon R.E., 587 (“Mycobacterium luteum” Sö hngen 1913). Taxonomy (357). Serology (253). Mycobactins (328). (Medium 2, 28^°C)

“Rhodococcus flavus”, see Rhodococcus sp. Ac-381

“Rhodococcus lentifragmentus”, see Rhodococcus ruber Ac-745

“Rhodococcus longus”, see Rhodococcus sp. Ac-346, Ac-348, Ac-349, Ac-352,
Ac-353, Ac-355

Rhodococcus maris, see Dietzia maris

Rhodococcus opacus Klatte et al. 1995

Ac-365 = VKM Ac-954

<--Nesterenko O.A., CBS 330.61 (“Rhodococcus opacus “ (den Dooren de Jong 1927) Nesterenko 1985 Type) <--CBS 330.61 (“Nocardia opaca” (den Dooren de Jong 1927) Waksman et Henrici 1948 Type). Taxonomy (265). Numerical taxonomy (323, 324). Mycolic acids (276). GC-content of DNA, DNA homology (266, 354). Serology (253). Sensitivity to antibiotics (326). (Medium 2, 28^°C)

Rhodococcus rhodnii Goodfellow et Alderson 1979

Ac-743^T = ATCC 35071, DSM 43336, JCM 3203, KCC A-0203, NCIMB 11279, VKM Ac-1187, RIA 1613

<--Nesterenko O.A <--Goodfellow M., N445. Bug (Rhodnius prolixus). Type strain (324, 688). Numerical taxonomy (327, 333, 377, 399). Fatty acids (280). GC-content of DNA (266, 421). DNA homology (421). Mycobactins (328). (Medium 2, 28^°C)

Rhodococcus rhodochrous (Zopf 1891) Tsukamura 1974

Ac-281 = ATCC 4273, CBS 197.57, CCM 3245, DSM 43269, ICPB 4421, IFO 3338, IMET 7018, NCIMB 9259, VKM Ac-860, RIA 628

<--Nesterenko O.A <--CCM 3245 (“Mycobacterium agreste” Gray et Thornton 1928). Numerical taxonomy (323, 324). Menaquinones (297). Mycolic acids (276). GC-content of DNA (354). DNA homology (353, 354). Serology (252). Sensitivity to antibiotics (326). Produces penicillin acylase (249). (Medium 2, 28^°C)

Ac-282 = ATCC 999, IMET 7329, JCM 2157, NCIMB 9948, VKM Ac-780, IEGM Ac-65

<--Nesterenko O.A <--Prauser H., IMET 7329 (“Nocardia corallina” (Bergey et al. 1923) Waksman et Henrici 1928). Numerical taxonomy (324, 399). DNA homology (353). Serology (252). Utilizes: glycerol, xylene, naphthalene, propanol, toluene, phenol, ethanol (254). (Medium 2, 28^°C)

Ac-284 = ATCC 15906, VKM Ac-1282, RIA 451

<--Nesterenko O.A <--RIA 451 (“Proactinomyces ruber” Krassilnikov 1941). Taxonomy (265). GC-content of DNA (266). (Medium 2, 28^°C)

Ac-285 = IEGM AC 63

<--Nesterenko O.A., IMV 515 <--Kasumova S.A., 515. Oil-polluted soil, Ukraine. GC-content of DNA (266). Utilizes n-alkanes. Utilizes: butanol, glycerol, xylene, propanol, toluene, phenol, ethanol (254). (Medium 2, 28^°C)

Ac-315 = ATCC 19149, DSM 43198, IMET 7278, NCIMB 9701

<--Nesterenko O.A., IMET 7278 <--Prauser H., IMET 7278 (“Nocardia salmonicolor” (den Dooren de Jong 1927) Waksman et Henrici 1948). Soil. Numerical taxonomy (323, 327, 377). GC-content of DNA (353, 354). DNA homology (353). Sensitivity to antibiotics (326). Oxidation of alkyl benzene (407). (Medium 2, 28^°C)

Ac-744^T = ATCC 13808, DSM 43241, IMET 7374, JCM 3202, KCC A-0202, NCIMB 11147, NCTC 10210, VKM Ac-1227, VKM Ac-1338, IEGM AC 62

<--Nesterenko O.A <--Tsukamura M., ATCC 13808. Soil. Type strain (324, 688). Numerical taxonomy (323, 327, 333, 377, 399). Menaquinones (297). Mycolic acids (276). Fatty acids (280). Phospholipids (351). GC-content of DNA (266, 353). DNA homology (261, 353). DNA-rRNA hybridization (355). Serology (252, 253). Mycobactins (328). Sensitivity to antibiotics (326). (Medium 2, 28^°C)

Rhodococcus ruber (Kruse 1896) Goodfellow et Alderson 1979

Ac-288 <--Nesterenko O.A <--Krallmann-Wenzel U., SN 5104 (“Nocardia pellegrino”). Taxonomy (265). Numerical taxonomy (324, 327). GC-content of DNA, DNA homology (353). Serology (252). (Medium 2, 28^°C)

Ac-289 <--Nesterenko O.A <--Krallmann-Wenzel U., SN 5105 (“Nocardia pellegrino”). Taxonomy (265). Numerical taxonomy (324). GC-content of DNA, DNA homology (353). Serology (252). (Medium 2, 28^°C)

Ac-290 <--Nesterenko O.A <--Krallmann-Wenzel U., SN 5108 (“Nocardia pellegrino”). Taxonomy (265). Numerical taxonomy (324). Mycolic acids (346). GC-content of DNA, DNA homology (353). Serology (252). (Medium 2, 28^°C)

Ac-291 <--Nesterenko O.A <--Ridell M., N12 (“Mycobacterium pellegrino”). Taxonomy (265). Serology (252, 367). (Medium 2, 28^°C)

Ac-292 <--Nesterenko O.A <--Ridell M., N13 (“Mycobacterium pellegrino”). Taxonomy (265). Serology (252, 367). (Medium 2, 28^°C)

Ac-293 <--Nesterenko O.A <--Ridell M., N15 (“Mycobacterium pellegrino”). Taxonomy (265). Serology (367). (Medium 2, 28^°C)

Ac-297 <--Nesterenko O.A., IMV 20G <--Smirnova G.F., 20G. Water, the Dnieper river, Ukraine. (Medium 2, 28^°C)

Ac-303 <--Nesterenko O.A., IMV 227 <--Kasumova S.A., 227. Oil-polluted soil, Ukraine. Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-745^T = ATCC 27863, CBS 256.58, DSM 43338, IMET 7477, JCM 3205, KCC A-0205, VKM Ac-1021, IEGM AC 70

<--Nesterenko O.A <--Tsukamura M., M-1 (“Nocardia rubra” (Krassilnikov 1941) Waksman et Henrici 1948). Synonyms: ”Gordona lentifragmenta“(Kruse 1896) Tsukamura et al. 1975, “Rhodococcus lentifragmentus” (Kruse 1896) Tsukamura 1978. Type strain (324, 688). Taxonomy (265). Numerical taxonomy (327, 333, 399). GC-content of DNA, DNA homology (261, 266, 353). DNA-rRNA hybridization (355). Serology (252, 253). Mycobactins (328). Utilizes ethanol (254). (Medium 2, 28^°C)

Ac-747 <--Nesterenko O.A <--NCTC 576 (“Mycobacterium rhodochrous”). Taxonomy (265). Fatty acids (269). GC-content of DNA (256, 266). Serology (252, 367). (Medium 2, 28^°C)

Rhodococcus rubropertinctus, see Gordonia rubropertinctus

Rhodococcus sp.

Ac-124 = ATCC 14898, DSM 20151, IFO 14404, JCM 3376, JCM 3391, NCIMB 9433, NCTC 10391, VKM Ac-870, IEGM AC 106

<--Nesterenko O.A., ATCC 14898 (Rhodococcus rubropertinctus; Nocardia corynebacterioides Serrano et al. 1972 Type) <--Jones D., C70 (“Corynebacterium rubrum” Crowle 1962). Air contaminant of culture medium (303). Taxonomy (265). Numerical taxonomy (334). Peptidoglycan (374). Cell wall composition (378). Menaquinones (286). Mycolic acids (288). GC-content of DNA, DNA homology (266). (Medium 2, 28^°C)

Ac-268 <--Nesterenko O.A., IMV 35/1 (“Rhodococcus aquosus” (Turfitt 1944) Nesterenko 1985) <--Gavrilenko M.N., 35/1. Soil, Ukraine. (Medium 2, 28^°C)

Ac-271 <--Nesterenko O.A., IMV 122/2 (“Rhodococcus aquosus” (Turfitt 1944) Nesterenko 1985) <--Gavrilenko M.N., 122/2. Sewage from spirits factory, Ukraine. GC-content of DNA, DNA homology (266). (Medium 2, 28^°C)

Ac-346 <--Nesterenko O.A., IMV 33 (“Rhodococcus longus” Nesterenko 1985)
<--Kasumova S.A., 33. Soil, Ukraine. Taxonomy (265). Utilizes n-alkanes. (Medium 2, 28^°C)

Ac-348 <--Nesterenko O.A., IMV 63 (“Rhodococcus longus” Nesterenko 1985) <--Kasumova S.A., 63. Soil, Ukraine. Taxonomy (265). (Medium 2, 28^°C)

Ac-349 = IEGM AC 28

<--Nesterenko O.A., IMV 83 (“Rhodococcus longus” Nesterenko 1985) <--Kasumova S.A., 83. Soil, Ukraine. Taxonomy (265). Utilizes: butanol, xylene, naphthalene, octanol, pentanol, propanol, phenylacetic acid, phenol, ethanol (254). (Medium 2, 28^°C)

Ac-352 = IEGM AC 27

<--Nesterenko O.A., IMV 250 (“Rhodococcus longus” Nesterenko 1985 Type) <--Kasumova S.A., 250. Oil-polluted soil, Ukraine. Taxonomy (265). Serology (253). Utilizes: butanol, hexanol, glycerol, xylene, naphthalene, octanol, propanol, phenol, ethanol (254). (Medium 2, 28^°C)

Ac-353 = IEGM AC 30

<--Nesterenko O.A., IMV 305 (“Rhodococcus longus” Nesterenko 1985) <--Kasumova S.A., 305. Oil-polluted soil, Ukraine. Utilizes: xylene, glycerol, naphthalene, propanol, toluene, phenol, ethanol (254). (Medium 2, 28^°C)

Ac-355 = IEGM AC 32

<--Nesterenko O.A., IMV 344 (“Rhodococcus longus” Nesterenko 1985) <--Kasumova S.A., 344. Soil, Ukraine. Utilizes: acrylamide, acrylonitrile, butanol, hexanol, glycerol, xylene, naphthalene, octanol, propane, propanol, phenylacetic acid, phenol, ethanol (254). (Medium 2, 28^°C)

Ac-381 = VKM Ac-950

<--Nesterenko O.A., IMV 36 (“Rhodococcus flavus“ Nesterenko 1985 Type) <--Kasumova S.A., 36. Soil, Ukraine. Taxonomy (265). (Medium 2, 28^°C)

Rhodococcus terrae, see Gordonia terrae

Saccharopolyspora rectivirgula (Krassilnikov et Agre 1964) Korn-Wendisch et al. 1989

Ac-409^T = ATCC 33515, DSM 43747, IFO 12464, JCM 3057, KCC A-0057, NCIMB 12296, VKM Ac-810, INMI 683

<--Nesterenko O.A <--VKM Ac-810 (Faenia rectivirgula). Synonyms: “Thermopolyspora rectivirgula” Krassilnikov et Agre 1964 Type, Micropolyspora rectivirgula (Krassilnikov et Agre 1964) Prauser et Momirova 1970 Type (352, 688), Faenia rectivirgula (Krassilnikov et Agre 1964) Kurup et Agre 1983 Type (343, 352). Soil, the Pamirs, Tajikistan. Type strain (342). Cell wall composition, menaquinones, fatty acids, mycolic acids, phospholipids (314, 342). GC-content of DNA, restrictional analysis of DNA, plasmids, cellular proteins (342). 16S rRNA sequence similarity (315). Serology (331). (Medium 2, 28^°C)

Streptomyces afghaniensis Shimo et al. 1959

Ac-2059 <--Valagurova H.V., 153. Soil, Russia. (Medium 23, 28^°C)

Ac-2060 <--Valagurova H.V., 1670. Soil, Armenia. (Medium 23, 28^°C)

"Streptomyces albocaneus", see Streptomyces sp.: Ac-2016

"Streptomyces alboflaveolus", see Streptomyces sp.: Ac-2073

"Streptomyces albogriseus", see Streptomyces sp.: Ac-2158

Streptomyces albovinaceus (Kudrina 1957) Pridham et al. 1958

Ac-2094 <--Valagurova H.V., 5064. Soil, Russia. (Medium 24, 28^°C)

Streptomyces albus (Rossi Doria 1891) Waksman et Henrici 1943

Ac-2017 <--Valagurova H.V., 86. Soil, Ukraine. (Medium 23, 28^°C)

Ac-2018 <--Valagurova H.V., 2557. Soil, Azerbaijan. Produces lectins (172). (Medium 23, 28^°C)

Ac-2019 <--Valagurova H.V., 2691. Soil, Armenia. (Medium 23, 28^°C)

Ac-2020 <--Valagurova H.V., 3213. Soil, Georgia, the Caucasus. (Medium 23, 28^°C)

Ac-2021 <--Valagurova H.V, 4589. Soil, Russia. (Medium 23, 28^°C)

Streptomyces ambofaciens Pinnert-Sindico 1954

Ac-2111 <--Valagurova H.V., 3943. Soil, Russia. (Medium 24, 28^°C)

Streptomyces antibioticus (Waksman et Woodruff 1941) Waksman et Henrici 1948

Ac-2051 <--Valagurova H.V., 2146. Soil, Azerbaijan. (Medium 24, 28^°C)

Streptomyces atroolivaceus (Preobrazhenskaya et al., 1957) Pridham et al., 1958

Ac-2052 <--Valagurova H.V <--Rozhanskaya A.M., 60d. Bitumen coating of pipes. (Medium 24, 28^°C)

Streptomyces avermitilis (ex Burg et. al. 1979) Kim and Goodfellow 2002

Ac-2172 <- - Valagurova H. V. <- Shcherbak T. G., 288. Ultra-violet variant Ac-2161. Produces avermectins [773]. (Medium 39; 28^°C)

Ac-2177 <- - Valagurova H. V. <- -Bilyavska L. O., 1088. Variant Ac-2172 (nitrosoguanidin). Produces avermectins [773]. (Medium 39; 28^°C)

Ac-2178 <- - Valagurova H. V. <- -Bilyavska L.O., 1110. Variant Ac-2172 (nitrosoguanidin). Produces avermectins [773]. (Medium 39; 28^°C)

Ac-2179 <- - Valagurova H. V. <- -Bilyavska L. O., 1130. Variant Ac-2172 (nitrosoguanidin). Produces avermectins [773]. (Medium 39; 28^°C)

Ac-2180 <- - Valagurova H. V. <- -Bilyavska L. O., 1171. Variant Ac-2172 (nitrosoguanidin). Produces avermectins [773]. (Medium 39; 28^°C)

Streptomyces bikiniensis Johnstone et Waksman 1947

Ac-2066 <--Valagurova H.V., 2062. Soil, Azerbaijan. (Medium 23, 28^°C)

"Streptomyces caesius", see Streptomyces sp.: Ac-2089 - Ac-2091, Ac-2069

Streptomyces californicus (Waksman et Curtis 1916) Waksman et Henrici 1948

Ac-2074 <--Valagurova H.V., 956. Soil, Russia. (Medium 24, 28^°C)

Streptomyces carpaticus Maximova and Telekhova 1983

Ac-2109 <--Valagurova H.V., 3240. Soil, Georgia (the Caucasus). (Medium 24, 28^°C)

Ac-2134 <--Valagurova H.V., 3130. Soil, Georgia (the Caucasus). (Medium 24, 28^°C)

"Streptomyces chromogenes", see Streptomyces sp.: Ac-2022, Ac-2024

"Streptomyces chromopurpureus", see Streptomyces sp.: Ac-2099

Streptomyces chrysomallus Lindenbein 1952

Ac-2106 <--Valagurova H.V., 5121. Soil, Russia. (Medium 26, 28^°C)

"Streptomyces coeliatus", see Streptomyces sp: Ac-2087, Ac-2088

Streptomyces coeruleoflavus Preobrazhenskaya et Maximova 1983

Ac-2127 <--Valagurova H.V., 2846. Soil, Gorgia (the Caucasus). (Medium 24, 28^°C)

Ac-2128 <--Valagurova H.V., 714. Soil, Ukraine. (Medium 23, 28^°C)

Streptomyces coeruleofuscus (Preobrazhenskaya 1957) Pridham et al., 1958

Ac-2137 <--Valagurova H.V., 2542. Soil, Azerbaijan. (Medium 24, 28^°C)

"Streptomyces coralus", see Streptomyces sp.: Ac-2077

"Streptomyces cyanogenus", see Streptomyces sp.: Ac-2053, Ac-2061 - Ac-2065

"Streptomyces cyanoglomerus", see Streptomyces sp.: Ac-2068

"Streptomyces cyanolatus", see Streptomyces sp.: Ac-2092, Ac-2093

Streptomyces diastatochromogenes (Krainsky 1914) Waksman et Henrici 1948

Ac-2164 <-- Valagurova H.V., 698. Soil, Israel. (Medium 39, 28^°C)

Ac-2165 <-- Valagurova H.V., 786. Soil, Israel. (Medium 39, 28^°C)

"Streptomyces erythrochromogenes", see Streptomyces sp. Ac-2067

Streptomyces filamentosus Okami et Umezawa 1953

Ac-2104 <--Valagurova H.V., 243. Soil, Russia. Produces vitamin B₁₂ (168), lectins (172). (Medium 23, 28^°C)

Streptomyces fimbriatus (Millard et Burr 1926) Waksman 1953

Ac-2176 <- - Valagurova H. V., 711. Soil, Israel. ( Medium 39, 28^°C)

Streptomyces flaveolus (Waksman 1923) Waksman et Henrici 1948

Ac-2110 <--Valagurova H.V., 91. Soil, Russia. (Medium 24, 28^°C)

Streptomyces flavovirens (Waksman 1923) Waksman et Henrici 1948

Ac-2143 <--Valagurova H.V., 12. Soil, Ukraine. Produces lectins (171). (Medium 26, 28^°C)

"Streptomyces flavus", see. Streptomyces sp.: Ac-2036, Ac-2037, Ac-2039

Streptomyces fradiae (Waksman et Curtis 1916) Waksman et Henrici 1948

Ac-2124 <--Valagurova H.V., 5186. Soil, Russia. (Medium 26, 28^°C)

Streptomyces galbus Frommer 1959

Ac-2054 <--Valagurova H.V., 6069. Soil, Ukraine. (Medium 23, 28^°C)

Streptomyces globisporus (Krassilnikov 1941) Waksman 1953

Ac-2048 <--Valagurova H.V., 284. Soil, Moldova. (Medium 23, 28^°C)

Ac-2049 <--Valagurova H.V., 385. Soil, Russia. (Medium 23, 28^°C)

Ac-2050 <--Valagurova H.V., 8. Soil, Russia. Produces lectins (172). (Medium 23, 28^°C)

Ac-2097 <--Valagurova H.V., 1552. Soil, Russia. Produces lectins (172). (Medium 23, 28^°C)

Ac-2098 <--Valagurova H.V., 1912. Soil, Armenia. (Medium 23, 28^°C)

Streptomyces globosus (Krassilnikov 1941) Waksman 1953

Ac-2120 <--Valagurova H.V., 1437. Soil, Georgia (the Caucasus). (Medium 23, 28^°C)

"Streptomyces griseoalbus", see Streptomyces sp.: Ac-2083

"Streptomyces griseocastaneous", see Streptomyces sp.: Ac-2100 - Ac-2103

"Streptomyces griseorectus", see Streptomyces sp.: Ac-2084, Ac-2085

Streptomyces griseosporeus Niida et Ogasawara 1960

Ac-2030 <- - Valagurova H.V. <- - Dulgerov A.N., 28. Soil, . Produces glucoseisomerase (Medium 41, 28^°C)

Streptomyces griseus (Krainsky 1914) Waksman et Henrici 1948

Ac-2040 <--Valagurova H.V., 2070. Soil, Azerbaijan. (Medium 23, 28^°C)

Ac-2041 <--Valagurova H.V., 1301. Soil, Georgia (the Caucasus). (Medium 23, 28^°C)

Ac-2042 <--Valagurova H.V., 6083. Soil, Ukraine. (Medium 23, 28^°C)

Ac-2043 <--Valagurova H.V, 1015. Soil, Russia. (Medium 23, 28^°C)

Ac-2044 <--Valagurova H.V <--Tkacheva G.A., 6112. Soil, Ukraine. (Medium 23, 28^°C)

Streptomyces halstedii (Waksman et Curtis 1916) Waksman et Henrici 1948

Ac-2121 <--Valagurova H.V., 1129. Soil, Russia. (Medium 23, 28^°C)

Ac-2131 <--Valagurova H.V., 887. Soil, Russia. (Medium 24, 28^°C)

Streptomyces helvaticus (Krassilnikov et al., 1965) Pridham 1970

Ac-2140 <--Valagurova H.V <--Kobets O.N., 6/42. Grass silage. (Medium 26, 28^°C)

Ac-2141 <--Valagurova H.V <--Kobets O.N., 8/42. Grass silage. (Medium 26, 28^°C)

"Streptomyces ignobilis", see Streptomyces sp.: Ac-2086

Streptomyces intermedius (Kruger 1904) Waksman 1953

Ac-2115 <--Valagurova H.V., 30. Soil, Ukraine. (Medium 23, 28^°C)

"Streptomyces lactogriseus", see Streptomyces sp.: Ac-2023

Streptomyces lavendulae (Waksman et Curtis 1916) Waksman et Henrici 1948

Ac-2031 <--Valagurova H.V., 342. Soil, Russia. (Medium 23, 28^°C)

"Streptomyces lavendosporus", see. Streptomyces sp.: Ac-2114

"Streptomyces levoris", see Streptomyces sp.: Ac-2139

Streptomyces lienomycini Gause et Maximova 1983

Ac-2175 <- - Valagurova H. V., 1382. Soil, Ukraine. Produces keratinase and collagenase [774, 775, 776]. (Medium 39, 28^°C)

Streptomyces lincolnensis Mason et al., 1963

Ac-2105 <--Valagurova H.V., 2723. Soil, Armenia. (Medium 24, 28^°C)

Ac-2123 <--Valagurova H.V., 88. Soil, Ukraine. (Medium 24, 28^°C)

Ac-2173 <- - Valagurova H. V., 530. Soil, Russia. ( Medium 39, 28^°C)

Streptomyces longisporoflavus Waksman 1953

Ac-2055 <--Valagurova H.V., 652. Soil, Russia. (Medium 23, 28^°C)

Ac-2135 <--Valagurova H.V., 4641. Soil, Russia. (Medium 24, 28^°C)

Streptomyces massasporeus Shinobu et Kawato 1959

Ac-2132 <--Valagurova H.V., 3959. Soil, Russia. (Medium 24, 28^°C)

Ac-2133 <--Valagurova H.V., 3930. Soil, Russia. (Medium 23, 28^°C)

"Streptomyces nephtigulosus", see Streptomyces sp.: Ac-2002, Ac-2096

"Streptomyces nitrifaciens", see Streptomyces sp.: Ac-2142

Streptomyces odorifer (Rullmann 1895) Waksman 1953

Ac-2075 <--Valagurova H.V., 1079. Soil, Russia. (Medium 23, 28^°C)

Ac-2076 <--Valagurova H.V., 957. Soil, Russia. (Medium 23, 28^°C)

"Streptomyces oligocarbophilus", see Streptomyces sp.: Ac-2125

Streptomyces olivaceoviridis (Preobrazhenskaya et Ryabova 1957) Pridham et al., 1958

Ac-2117 <--Valagurova H.V., 559. Soil, Russia. Produces vitamin B₁₂ (168). (Medium 26, 28^°C)

Streptomyces olivaceus (Waksman 1923) Waksman et Henrici 1948

Ac-2032 <--Valagurova H.V.1717. Soil, Georgia (the Caucasus). (Medium 23, 28^°C)

Ac-2033 <--Valagurova H.V., 3859. Soil, Russia. (Medium 23, 28^°C)

Ac-2034 <--Valagurova H.V., 4366. Soil, Russia. Produces lectins (172). (Medium 23, 28^°C)

Ac-2122 <--Valagurova H.V <--Tkacheva G.A., 6061. Soil, Russia. (Medium 23, 28^°C)

Streptomyces olivoviridis (Kuchaeva et al. 1960) Pridham 1970

Ac-2035 <--Valagurova H.V <--Tkacheva G.A., 6067. Soil, Ukraine. (Medium 25, 28^°C)

"Streptomyces ornatus", see Streptomyces sp.: Ac-2126, Ac-2095.

Streptomyces phaeochromogenes (Conn 1917) Waksman 1957

Ac-2147 <-- Valagurova H. V., 36. Soil, Ukraine. (Medium 39, 28^°C)

Ac-2148 <-- Valagurova H. V., 37. Soil, Ukraine. (Medium 39, 28^°C)

Ac-2151 <-- Valagurova H. V., 939. Soil, Ukraine. (Medium 39, 28^°C)

Streptomyces pluricolorescens Okami et Umezawa 1961

Ac-2070 <--Valagurova H.V., 388. Soil, Russia. (Medium 23, 28^°C)

Ac-2071 <--Valagurova H.V., 12. Soil, Russia. (Medium 24, 28^°C)

Ac-2072 <--Valagurova H.V., 382. Soil, Russia. (Medium 26, 28^°C)

Streptomyces pseudogriseolus Okami et Umezawa 1955

Ac-2058 <--Valagurova H.V., 495. Soil, Russia. Produces lectins (172). (Medium 24, 28^°C)

Ac-2162 <-- Valagurova H. V., 690. Soil, Israel. (Medium 39, 28^°C)

Ac-2163 <-- Valagurova H. V., 717. Soil, Israel. (Medium 39, 28^°C)

Streptomyces recifensis (de Lima et al., 1955) de Morais et al., 1957

Ac-2113 <--Valagurova H.V., 1523. Soil, Georgia (the Caucasus). (Medium 23, 28^°C)

Streptomyces resistomycificus Lindenbein 1952

Ac-2107 <--Valagurova H.V., 3434. Soil, Georgia (the Caucasus). (Medium 24, 28^°C)

Ac-2108 <--Valagurova H.V., 3745. Soil, Russia. (Medium 24, 28^°C)

"Streptomyces robeofuscus", see Streptomyces sp.: Ac-2130

"Streptomyces robeus", see Streptomyces sp.: Ac-2003

Streptomyces sindenensis Nakazawa et Fujii 1957

Ac-2138 <--Valagurova H.V., 2810. Soil, Armenia. (Medium 24, 28^°C)

Streptomyces sp.

Ac-2002 <--Valagurova H.V <--Kozyritskaya V.E., 2426 (“Actinomyces nephtigulosus”) (173). Alluvial accumulation, Azerbaijan. Produces carotenoids and lipids (169). Taxonomy (173). (Medium 26, 28^°C)

Ac-2003 = VKPM S-606

<--Valagurova H.V. (“Streptomyces robeus”) <--Myatlikova H.A., 8. Soil, Ukraine. Produces glucoseisomerase (170).(Medium 26, 28^°C)

Ac-2016 <--Valagurova H.V <--Kozyritskaya V.E., 12. Soil, Mongolia. Produces lectins (172). (Medium 24, 28^°C)

Ac-2022 <--Valagurova H.V. (“Actinomyces chromogenes”), 1492. Soil, Georgia (the Caucasus). Produces nicotinic acid (167). (Medium 23, 28^°C)

Ac-2023 <--Valagurova H.V. (“Actinomyces chromogenes”), 4375. Soil, Russia.

(Medium 23, 28^°C)

Ac-2024 <--Valagurova H.V. (“Actinomyces chromogenes”) <--Dulgerov A.N., 27. Soil, Mongolia. (Medium 23, 28^°C)

Ac-2036 <--Valagurova H.V. (“Streptomyces flavus”), 2193. Soil, Azerbaijan. (Medium 26, 28^°C)

Ac-2037 <--Valagurova H.V. (“Streptomyces flavus”), 2386. Soil, Azerbaijan. (Medium 26, 28^°C)

Ac-2038 <--Valagurova H.V. (“Streptomyces flavus”), 484. Soil, Russia. (Medium 26, 28^°C)

Ac-2039 <--Valagurova H.V. (“Streptomyces flavus”), 3206. Soil, Georgia (the Caucasus). (Medium 26, 28^°C)

Ac-2045 <--Valagurova H.V. (“Actinomyces viridis”), 3771. Soil, Russia. (Medium 26, 28^°C)

Ac-2046 <--Valagurova H.V. (“Actinomyces viridis”), 3773. Soil, Russia. (Medium 26, 28^°C)

Ac-2047 <--Valagurova H.V. (“Streptomyces glaucus”) <--Tkacheva G.A., 6081. Soil, Ukraine. Produces lectins (172). (Medium 24, 28^°C)

Ac-2053 <--Valagurova H.V. (“Streptomyces cyanogenus”) <--Rozhanskaya A.Ì., 52 b/2. Bitumen coating of pipes. (Medium 24, 28^°C)

Ac-2061 <--Valagurova H.V. (“Streptomyces cyanogenus”), 162. Soil, Russia. (Medium 24, 28^°C)

Ac-2062 <--Valagurova H.V. (“Streptomyces cyanogenus”) <--Dulgerov A.N., 4/7. Soil, Ukraine. (Medium 24, 28^°C)

Ac-2063 <--Valagurova H.V. (“Streptomyces cyanogenus”), 1839. Soil, Armenia. (Medium 24, 28^°C)

Ac-2064 <--Valagurova H.V. (“Streptomyces cyanogenus”), 2396. Soil, Azerbaijan. (Medium 24, 28^°C)

Ac-2065 <--Valagurova H.V. (“Streptomyces cyanogenus”), 3438. Soil, Georgia, the Caucasus. (Medium 24, 28^°C)

Ac-2067 <--Valagurova H.V. (“Streptomyces erythrochromogenes”), 2394. Soil, Azerbaijan. (Medium 24, 28^°C)

Ac-2068 <--Valagurova H.V. (“Actinomyces cyanoglomerus”), 2889. Soil, Armenia. (Medium 23, 28^°C)

Ac-2069 <-- Valagurova H. V., 84 ("Streptomyces caesius") <-- Kareva M. A., 84. Soil, Mongolia. (Medium 23, 28^°C)

Ac-2073 <--Valagurova H.V. (“Streptomyces alboflaveolus”), 501. Soil, Russia. (Medium 26, 28^°C)

Ac-2077 <--Valagurova H.V. (“Streptomyces coralus”), 1849. Soil, Armenia. (Medium 25, 28^°C)

Ac-2079 <--Valagurova H.V. (“Actinomyces fulvostreptomycini”) <--Kareva M.A., 83. Soil, Mongolia. (Medium 23, 28^°C)

Ac-2080 <--Valagurova H.V. (“Actinomyces sporoclivosus”) <--Kozyritskaya V.E., 70. Soil, Mongolia. (Medium 26, 28^°C)

Ac-2083 <--Valagurova H.V. (“Streptomyces griseoalbus”) <--Kozyritskaya V.E., 16. Soil, Mongolia. (Medium 26, 28^°C)

Ac-2084 <--Valagurova H.V. (“Actinomyces griseorectus”) <--Dulgerov A.N., 193. Soil, Mongolia. (Medium 26, 28^°C)

Ac-2085 <--Valagurova H.V. (“Actinomyces griseorectus”), 4251. Soil, Russia. (Medium 24, 28^°C)

Ac-2086 <--Valagurova H.V. (“Actinomyces ignobilis”), 3006. Soil, Georgia (the Caucasus). (Medium 25, 28^°C)

Ac-2087 <--Valagurova H.V. (“Actinomyces coeliatus”), 1942. Soil, Armenia. (Medium 23, 28^°C)

Ac-2088 <--Valagurova H.V. (“Streptomyces coeliatus”), 2628. Soil, Azerbaijan. (Medium 23, 28^°C)

Ac-2089 <--Valagurova H.V. (“Streptomyces caesius”), 3451. Soil, Georgia (the Caucasus). (Medium 24, 28^°C)

Ac-2090 <--Valagurova H.V. (“Streptomyces caesius”), 3481. Soil, Georgia (the Caucasus). (Medium 23, 28^°C)

Ac-2091 <--Valagurova H.V. (“Streptomyces caesius”), 3957. Soil, Russia. (Medium 23, 28^°C)

Ac-2092 <--Valagurova H.V. (“Actinomyces cyanolatus”), 689. Soil, Russia. (Medium 23, 28^°C)

Ac-2093 <--Valagurova H.V. (“Actinomyces cyanolatus”), 4228. Soil, Russia. (Medium 23, 28^°C)

Ac-2095 <--Valagurova H.V. (“Streptomyces ornatus”), 3398. Soil, Georgia (the Caucasus). (Medium 23, 28^°C)

Ac-2096 <- - Valagurova H.V.

Ac-2099 <--Valagurova H.V. (“Actinomyces chromopurpureus”), 660. Soil, Russia. (Medium 24, 28^°C)

Ac-2100 <--Valagurova H.V. (“Actinomyces griseocastaneus”), 1188. Soil, Russia. Produces lectins (172). (Medium 23, 28^°C)

Ac-2101 <--Valagurova H.V. (“Actinomyces griseocastaneus”) 4745. Soil, Russia. (Medium 23, 28^°C)

Ac-2102 <--Valagurova H.V. (“Actinomyces griseocastaneus”), 5187. Soil, Russia. (Medium 23, 28^°C)

Ac-2103 <--Valagurova H.V. (“Actinomyces griseocastaneus”), 1185. Soil, Russia. Produces nicotinic acid (167). (Medium 23, 28^°C)

Ac-2112 <--Valagurova H.V. (“Streptomyces viridans”), 761. Soil, Russia. Produces pantothenic acid (167). (Medium 26, 28^°C)

Ac-2114 <--Valagurova H.V., 71 ("Streptomyces lavendosporus") <-- Zanina V.V., 71.

Ac-2116 <--Valagurova H.V. (“Streptomyces viridogenes”), 96. Soil, Russia. (Medium 23, 28^°C)

Ac-2118 <--Valagurova H.V. (“Streptomyces glaucus”) <--Tkacheva G.A., 6085. Soil, Ukraine. Produces lectins (172). (Medium 24, 28^°C)

Ac-2119 <--Valagurova H.V. (“Streptomyces glaucus”) <--Tkacheva G.A.., 6087. Soil, Ukraine. Produces lectins (172). (Medium 24, 28^°C)

Ac-2125 <--Valagurova H.V. (“Streptomyces oligocarbophilus”) <--Dulgerov A.N., 131. Soil, Mongolia. Produces lectins (172). (Medium 26, 28^°C)

Ac-2126 <-- Valagurova H. V., 7504 ("Streptomyces ornatus") <-- Rezhu M. Zh., 7504. The surface of damaged apple, Ukraine. The antagonist of scab agent. (Medium 24, 28^°C)

Ac-2130 <--Valagurova H.V. (“Streptomyces robeofuscus”), 446. Soil, Azerbaijan. (Medium 24, 28^°C)

Ac-2139 <--Valagurova H.V. (“Streptomyces levoris”), 2221. Soil, Azerbaijan. (Medium 24, 28^°C)

Ac-2142 <--Valagurova H.V. (“Streptomyces nitrifaciens”) <--Kirillova L.M., 65. Ground water, Uzbekistan. (Medium 23, 28^°C)

Ac-2144 <--Valagurova H.V. (“Streptomyces viridogenes”), 342. Soil, Ukraine. Produces lectins (171). (Medium 26, 28^°C)

Ac-2145 <--Valagurova H.V. (“Streptomyces viridogenes”), 545. Soil, Ukraine. Produces lectins (171). (Medium 26, 28^°C)

Ac-2158<-- Valagurova H. V., 1156 ("Streptomyces albogriseus"). Soil, Ukraine. (Medium 39, 28^°C)

Ac-2174 <- - Valagurova H. V., 1349 ("Streptomyces viridogenes"). Soil, Ukraine. Produces keratinase and collagenase [774, 775, 777]. (Medium 40, 28^°C)

"Streptomyces sporoclivosus", see Streptomyces sp.: Ac-2080

Streptomyces toxytricini (Preobrazhenskaya et Sveshnikova 1957) Pridham et al., 1958

Ac-2078 <--Valagurova H.V., 2348. Soil, Azerbaijan. (Medium 26, 28^°C)

Streptomyces violaceoruber (Waksman et Curtis 1916) Pridham 1970

Ac-2026 <--Valagurova H.V., 1897. Soil, Armenia. Produces nicotinic acid (167). (Medium 24, 28^°C)

Ac-2027 <--Valagurova H.V., 3537. Soil, Georgia (the Caucasus). (Medium 23, 28^°C)

Ac-2028 <--Valagurova H.V., 3571. Soil, Georgia (the Caucasus). (Medium 24, 28^°C)

Ac-2029 <--Valagurova H.V., 4293. Soil, Russia. (Medium 24, 28^°C)

Ac-2136 <--Valagurova H.V., 3171. Soil, Georgia (the Caucasus). (Medium 23, 28^°C)

"Streptomyces viridans", see Streptomyces sp.: Ac-2112

"Streptomyces viridis", see Streptomyces sp.: Ac-2045, Ac-2046

Streptomyces viridobrunneus (Krasil'nikov 1970) Terekhova 1983

Ac-2159 <- - Valagurova H.V., 1205. Soil, Ukrain. (Medium 26, 28^°C)

"Streptomyces viridogenes", see Streptomyces sp.: Ac-2116, Ac-2144, Ac-2145, Ac- 2174

Terrabacter tumescens (Jensen 1934) Collins et al. 1989

Ac-669^T= ATCC 6947, CCM 1655, DSM 20308, IAM 12345, IFO 12960, IMET 10431, JCM 1365, NCIMB 8914, NCTC 4216, VKM Ac-1120, VKM B-669

<--Nesterenko O.A., ATCC 6947 <--VKM B-669 (Arthrobacter tumescens). Synonyms: Arthrobacter tumescens (Jensen 1934) Conn et Dimmick 1947 Type (688), Pimelobacter tumescens (Jensen 1934) Suzuki et Komagata 1983 Type (352, 392). Garden soil. Type strain (285). Taxonomy (264, 285). Numerical taxonomy (279, 330, 334, 377). Peptidoglycan (374). Cell wall composition (304). Menaquinones (286, 295, 359, 392). Mycolic acids (335). Fatty acids (295, 359, 392). Phospholipids (295, 359). Cell wall polysaccharides, teichoic acids (394). GC-content of DNA (392, 415). DNA homology (392). 16S rRNA sequence similarity (285, 299). Phylogenetic analysis (263). Ultrastructure of cells (274). Diacylation of benzyl- and phenoxymethyl penicillin tetrazoles (412). (Medium 1, 28^°C)

“Thermopolyspora rectivirgula”, see Saccharopolyspora rectivirgula Ac-409

Tsukamurella inchonensis Yassin et al. 1995

Ac-608 = ATCC 25938; DSM 43344, JCM 3226; NCIMB 13124, NCTC 10741 VKM Ac-1228 <-- Nogina T. M. <--VKM Ac-1228. Synonym: Rhodococcus aurantiacus (Tsukamura et Mizuno 1971) Tsukamura et Yano 1985 Type, "Gordona aurantiaca" Tsukamura et Mizuno 1971. Sputum of the patient with lung illness. Taxonomy. (778, 779). (Medium 1, 28^°C).