An actinomycete from paleo-glacial cores of the central AntarcticaABYSOV, S. S; BIRYUZOVA, V. I; KOSTRIKINA, N. A et al.Mikrobiologiâ (Moskva, 1932). 1990, Num 6, pp 1094-1101, issn 0026-3656, 8 p.Article

Cytologie des souches de Bacillus diastaticusMURYGINA, V. P; KOSTRIKINA, N. A; BIRYUZOVA, V. I et al.Mikrobiologija (Moskva). 1985, Vol 54, Num 1, pp 69-72Article

Cytological peculiarities of some extremely halophilic soil archaeobacteriaKOSTRIKINA, N. A; ZVYAGINTSEVA, I. S; DUDA, V. I et al.Archives of microbiology. 1991, Vol 156, Num 5, pp 344-349, issn 0302-8933Article

Detection of halophilic archaea in an upper devonian oil field in TatarstanZVYAGINTSEVA, I. S; KOSTRIKINA, N. A; BELYAEV, S. S et al.Microbiology (New York, NY). 1998, Vol 67, Num 6, pp 688-691, issn 0026-2617Article

Isolation and identification of Pseudomonas nautica, a heterotrophic satellite of Microcoleus chthonoplastes cyanobacteriaKEB; KEVBRIN, V. V; KOSTRIKINA, N. A et al.Microbiology (New York, NY). 1994, Vol 63, Num 6, pp 607-612, issn 0026-2617Article

Ultrastructural organisation of the extreme haloalkalophilic archaebacteria Natronobacterium pharaonis and Natronococcus occultusKOSTRIKINA, N. A; ZVYAGINTSEVA, I. S; DUDA, V. I et al.Mikrobiologiâ (Moskva, 1932). 1990, Num 6, pp 1019-1023, issn 0026-3656, 5 p.Article

Modifications structurales et ultrastructurales des cellules de Mycobacterium rubrum sous l'action de la pénicillinePOGLAZOVA, M. N; BIRYUZOVA, V. I; KOSTRIKINA, N. A et al.Mikrobiologija (Moskva). 1987, Vol 56, Num 5, pp 824-830Article

Propriétés cytologiques de l'archaeobactérie halophile extrême: Halobacterium distributusKOSTRIKINA, N. A; ZVYAGINTSEVA, I. S; DUDA, V. I et al.Mikrobiologija (Moskva). 1990, Vol 59, Num 1, pp 101-105Article

Caloribacterium cisternae gen. nov., sp. nov., an anaerobic thermophilic bacterium from an underground gas storage reservoirSLOBODKINA, G. B; KOLGANOVA, T. V; KOSTRIKINA, N. A et al.International journal of systematic and evolutionary microbiology (Print). 2012, Vol 62, pp 1543-1547, issn 1466-5026, 5 p., 7Article

Amphibacillus fermentum sp. nov. and Amphibacillus tropicus sp. nov., new alkaliphilic, facultatively anaerobic, saccharolytic bacilli from Lake MagadiZHILINA, T. N; GARNOVA, E. S; TOUROVA, T. P et al.Microbiology (New York, NY). 2001, Vol 70, Num 6, pp 711-722, issn 0026-2617Article

Biodiversity of thermophilic sulfur-reducing bacteria : New substrates and new habitatsMIROSHNICHENKO, M. L; KOSTRIKINA, N. A; HIPPE, H et al.Microbiology (New York, NY). 1998, Vol 67, Num 5, pp 563-568, issn 0026-2617Article

Carboxydothermus hydrogenoformans gen. nov., sp. nov., a CO-utilizing thermophilic anaerobic bacterium from hydrothermal environments of Kunashir IslandSVETLICHNY, V. A; SOKOLOVA, T. G; GERHARDT, M et al.Systematic and applied microbiology. 1991, Vol 14, Num 3, pp 254-260, issn 0723-2020Article

Desulfurella acetivorans gen. nov. and sp. nov. ― a new thermophilic sulfur-reducing eubacteriumBONCH-OSMOLOVSKAYA, E. A; SOKOLOVA, T. G; KOSTRIKINA, N. A et al.Archives of microbiology. 1990, Vol 153, Num 2, pp 151-155, issn 0302-8933Article

Thermococcus stetteri sp. nov., a new extremely thermophilic marine sulfur-metabolizing archaebacteriumMIROSHNICHENKO, M. L; BONCH-OSMOLOVSKAYA, E. A; NEUNER, A et al.Systematic and applied microbiology. 1989, Vol 12, Num 3, pp 257-262, issn 0723-2020Article

Isolement de Clostridium thermocellum à partir des sources chaudes de BuryatKHRAPTSOVA, G. I; KOSTRIKINA, N. A; BIRYUZOVA, V. I et al.Mikrobiologija (Moskva). 1986, Vol 55, Num 3, pp 496-501Article

Localisation de l'anhydrase carbonique dans les cellules de cyanobactériesFIRUS, O. K; KOSTRIKINA, N. A; BIRYUZOVA, V. I et al.Fiziologiâ rastenij. 1985, Vol 32, Num 4, pp 777-785, issn 0015-3303Article

Deferrisoma camini gen. nov., sp. nov., a moderately thermophilic, dissimilatory iron(III)-reducing bacterium from a deep-sea hydrothermal vent that forms a distinct phylogenetic branch in the DeltaproteobacteriaSLOBODKINA, G. B; REYSENBACH, A.-L; PANTELEEVA, A. N et al.International journal of systematic and evolutionary microbiology (Print). 2012, Vol 62, pp 2463-2468, issn 1466-5026, 6 p., 10Article

Deferribacter abyssi sp. nov., an anaerobic thermophile from deep-sea hydrothermal vents of the Mid-Atlantic RidgeMIROSHNICHENKO, M. L; SLOBODKIN, A. I; KOSTRIKINA, N. A et al.International journal of systematic and evolutionary microbiology (Print). 2003, Vol 53, pp 1637-1641, issn 1466-5026, 5 p., 5Article

Tepidibacter thalassicus gen. nov., sp. nov., a novel moderately thermophilic, anaerobic, fermentative bacterium from a deep-sea hydrothermal ventSLOBODKIN, A. I; TOUROVA, T. P; KOSTRIKINA, N. A et al.International journal of systematic and evolutionary microbiology (Print). 2003, Vol 53, pp 1131-1134, issn 1466-5026, 4 p., p.4Article

Nautilia lithotrophica gen. nov., sp. nov., a thermophilic sulfur-reducing ε-proteobacterium isolated from a deep-sea hydrothermal ventMIROSHNICHENKO, M. L; KOSTRIKINA, N. A; L'HARIDON, S et al.International journal of systematic and evolutionary microbiology (Print). 2002, Vol 52, pp 1299-1304, issn 1466-5026, 6 p., 4Article

Carboxydocella thermautotrophica gen. nov., sp. nov., a novel anaerobic, CO-utilizing thermophile from a Kamchatkan hot springSOKOLOVA, T. G; KOSTRIKINA, N. A; CHERNYH, N. A et al.International journal of systematic and evolutionary microbiology (Print). 2002, Vol 52, pp 1961-1967, issn 1466-5026, 7 p., 6Article

Thermanaerovibrio velox sp. nov., a new anaerobic, thermophilic, organotrophic bacterium that reduces elemental sulfur, and emended description of the genus ThermanaerovibrioZAVARZINA, D. G; ZHILINA, T. N; TOUROVA, T. P et al.International journal of systematic and evolutionary microbiology (Print). 2000, Vol 50, Num 3, pp 1287-1295, issn 1466-5026, 3Conference Paper

Desulfonatronum lacustre gen. nov., sp. nov. : A new alkaliphilic sulfate-reducing bacterium utilizing ethanolPIKUTA, E. V; ZHILINA, T. N; ZAVARZIN, G. A et al.Microbiology (New York, NY). 1998, Vol 67, Num 1, pp 105-113, issn 0026-2617Article

Comparative electron microscopic 2s1tudy of a Bacillus thuringiensis cells grown in chemostatBLOKHINA, T. P; KOSTRIKINA, N. A; SAKHAROVA, Z. V et al.Mikrobiologiâ (Moskva, 1932). 1992, Vol 61, Num 4, pp 672-677, issn 0026-3656Article

Thermoproteus uzoniensis sp. nov., a new extremely thermophilic archaebacterium from Kamchatka continental hot springsBONCH-OSMOLOVSKAYA, E. A; MIROSHNICHENKO, M. L; KOSTRIKINA, N. A et al.Archives of microbiology. 1990, Vol 154, Num 6, pp 556-559, issn 0302-8933, 4 p.Article