IBPPM 625 (Type strain)
History:
IBPPM 625 ← JCM 30827 ← C.-C. Young CC-HIH038. (= BCRC 80909 = CECT 9207)
Source:
Cultivated soil, Taiwan
Useful properties:
Potential biofertilizer
DNA sequences:
16S ribosomal RNA gene, partial sequence (GenBank accession no. KR296799); nitrogenase reductase (nifH) gene, partial cds (GenBank accession no. KT634300)
References:
Int. J. Syst. Evol. Microbiol. 66: 1453-1458, 2016
Note:
Access limited (in accordance with the JCM MTA)
IBPPM 626 (Type strain)
History:
IBPPM 626 ← JCM 21445 ← IAM 14974 ← DSM 13128 ← G. Kirchhof et al. GSF30 (= CCUG 47444 = DSM 13128 = IAM 14974 = NBRC 102522)
Source:
Miscanthus sacchariflorus, leaves. Germany
DNA sequences:
16S ribosomal RNA gene sequence (GenBank accession no. AJ238358)
References:
Int. J. Syst. Evol. Microbiol. 51:157–168, 2001
Note:
Access limited (in accordance with the JCM MTA)
IBPPM 627 (Type strain)
History:
IBPPM 627 ← JCM 21487 ← IAM 15024 ← W.-T. Im CPW301 (= CIP 108432 = DSM 17796 = IAM 15024 = KCTC 12096)
Source:
Soil sediment. Stream near Chungju industry complex, Korea
Useful properties:
Degradation of 4-chlorophenol
DNA sequences:
16S ribosomal RNA gene sequence (GenBank accession no. AB094401)
References:
Int. J. Syst. Evol. Microbiol. 54:851–855, 2004
Note:
Access limited (in accordance with the JCM MTA)
History:
IBPPM 628 ← VKM B-3220 ← T.L. Babich DCB 2-1, INMI
Source:
Groundwater. Seversk, Tomsk Region, Russia
DNA sequences:
16S ribosomal RNA gene, partial sequence (GenBank accession no. MG051295)
References:
Front Microbiol. 9:1985, 2018
IBPPM 629 (Type strain)
History:
IBPPM 629 ← DSM 19657 ← IMMIB AFH-6 ← A. B. Arun, Dept. Soil and Environmental Sci., Natl. Chung Hsing Univ., Taichung, Taiwan; IMMIB AFH-6. (= CCUG 53966)
Source:
oil-contaminated soil near the oil refinery located in Kaohsiung county,Taiwan
Useful properties:
Potential biofertilizer
DNA sequences:
16S ribosomal RNA gene, partial sequence (GenBank accession no. AM419042)
References:
Int. J. Syst. Evol. Microbiol. 58: 959-963, 2008
Note:
Access limited (in accordance with the DSMZ MTA)
History:
IBPPM 63 ← Azospirillum sp. SR18 ← L.I. Pozdnyakova and L.S. Fedorova 77n, IBPPM RAS
Source:
Bromus squarrosus Leyss, roots. Saratov Region, Russia
Useful properties:
Potential biofertilizer
IBPPM 630 (Type strain)
History:
IBPPM 630 ← DSM 6445 ← ATCC 35892 ← J. Döbereiner Z67 ← J. I. Baldani (= ATCC 35892 = DSM 6445 = IAM 14977 = LMG 6513 = NCIMB 12540)
Source:
Oryza sativa, roots. Brazil
DNA sequences:
16S ribosomal RNA gene sequence (GenBank accession no. Y10146); whole-genome data (GenBank accession no. CP011930)
References:
Int. J. Syst. Bacteriol. 46:802-810, 1996
Note:
Access limited (in accordance with the DSMZ MTA)
IBPPM 633 (Type strain)
History:
IBPPM 633 ← Irina K. Kravchenko B2, INMI (= VKM B-3233 = КСТС 62613 )
Source:
An oligotrophic Sphagnum peatland. Tver Oblast (Region), Russia
Useful properties:
Potential biofertilizer
DNA sequences:
16S ribosomal RNA gene, partial sequence (GenBank accession no. DQ787330); whole-genome data (GenBank accession no. PDKW01000040)
References:
Int. J. Syst. Evol. Microbiol. 69:2787–2793, 2019
Note:
Access limited
History:
IBPPM 64 ← Azospirillum sp. SR19 ← L.I. Pozdnyakova and L.S. Fedorova 81n, IBPPM RAS
Source:
Carex caespitosa Leyss, roots. SaratovRegion, Russia
Useful properties:
Potential biofertilizer
Staff members
  • Professor Olga Turkovskaya, D. Sc. (Biol.), Head of Collection
  • Ekaterina Dubrovskaya, Ph.D. (Biol.), Curator
  • Anna Muratova, D. Sc. (Biol.), Bacteriologist
  • Sergey Golubev, Ph.D. (Biol.), Bacteriologist
  • Anastasia Bondarenkova, Ph.D. (Biol.), Bacteriologist