Heliobacterium sulfidophilum sp. nov. andHeliobacterium undosum sp. nov.: Sulfideoxidizing heliobacteria from thermal sulfidic springs

I. A. Bryantseva; V. M. Gorlenko; T. P. Tourova; B. B. Kuznetsov; A. M. Lysenko; S. A. Bykova; V. F. Gal’chenko; L. L. Mityushina; G. A. Osipov

doi:10.1007/bf02756742

journal article May 01, 2000

Heliobacterium sulfidophilum sp. nov. andHeliobacterium undosum sp. nov.: Sulfideoxidizing heliobacteria from thermal sulfidic springs

I. A. Bryantseva V. M. Gorlenko T. P. Tourova B. B. Kuznetsov A. M. Lysenko S. A. Bykova V. F. Gal’chenko L. L. Mityushina G. A. Osipov

Microbiology Vol. 69 No. 3 pp. 325-334 · Microbiology Society

View at Publisher Save 10.1007/bf02756742

Topics

No keywords indexed for this article. Browse by subject →

References

20

[1]

Madigan, M.T. and Ormerod, J.G., Taxonomy, Physiology, and Ecology of Heliobacteria,Anoxygenic Photosynthetic Bacteria, Blankenship, R.E., Madigan, M.T., and Bauer, C.E., Eds., Dordrecht: Kluwer, 1995, pp. 17–30.

[2]

Woese, C.R., Debrunner-Vossbrinck, B.A., Oyaizu, H., Stackebrandt, E., and Ludwig, W., Gram-Positive Bacteria: Possible Photosynthetic Ancestry,Science, 1985, vol. 229, pp. 762–765. 10.1126/science.11539659

[3]

Starynin, D.A. and Gorlenko, V.M., Sulfide-oxidizing] Spore-forming Heliobacteria Isolated from a Hot Sulfide Spring,Mikwbiologiya, 1993, vol. 62, no. 3, pp. 556–563.

[4]

Starynin, D.A., Lysenko, A.M., and Gorlenko, V.M., Taxonomic Position of Heliobacteria Studied by DNA-] DNA Hybridization,Abstracts of the VIII Int. Symp. on Phototrophic Pwkaryotes (September 10–15, 1994,Urbino, Italy), 1994, p. 97.

[5]

Kimble, L.K., Mandelco, L., Woese, C.R., and Madigan, M.T.,Heliobacterium modesticaldum, sp. nov., a Thermophilic Heliobacterium of Hot Springs and Volcanic Soils,Arch. Microbiol, 1995, vol. 163, pp. 259–267. 10.1007/bf00393378

[6]

Bryantseva, LA., Gorlenko, V.M., Kompantseva, E.I., Achenbach, L.A., and Madigan, M.T.,Heliorestis daurensis, gen. nov., sp. nov., an Alkaliphilic Rod-to-Coiledshaped Phototrophic Heliobacterium from a Siberian SodaLake, Arch. Microbiol, 1999, vol. 172, pp. 167–174. 10.1007/s002030050756

[7]

Bryantseva, I.A., Gorlenko, V.M., Kompantseva, E.I., Tourova, T.P., Kuznetsov, B.B., and Osipov, G.A., Alkaliphilic HeliobacteriumHeliorestis baculata sp. nov. and Emended Description of the GenusHeliorestis, Arch. Microbiol. (in press).

[8]

Pfennig, N. and Lippert, K.D.,Uber das Vitamin B12-Bidurfnis phototropher Schwefelbakterien,Arch. Mikrobiol, 1966, vol. 55, pp. 245–256. 10.1007/bf00410246

[9]

Reznikov, A.A., Mulikovskaya, E.P., and Sokolov, I.Yu.,Metody analiza prirodnykh vod (Methods for the Analysis of Natural Waters), Moscow: Nedra, 1970, p. 118.

[10]

Triiper, H.G. and Schlegel, H.G., Sulphur Metabolism inThiorhodaceae: 1. Quantitative Measurements of Growing Cells ofChromatium okenii, Antonie van Leeuwenhoek, 1964, vol. 30, pp. 225–238. 10.1007/bf02046728

[11]

Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4

U. K. LAEMMLI

Nature 1970 10.1038/227680a0

[12]

Measures of the Amount of Ecologic Association Between Species

Lee R. Dice

Ecology 1945 10.2307/1932409

[13]

Marmur, J.A., Procedure for the Isolation of Deoxyribonucleic Acid from Microorganisms,J. Mol. Biol., 1961, vol. 3, pp. 208–218. 10.1016/s0022-2836(61)80047-8

[14]

Owen, R.J., Hill, L.R., and Lapage, S.P., Determination of DNA Base Composition from Melting Profiles in Dilute Buffers,Biopolymers, 1961, vol. 7, pp. 503–516. 10.1002/bip.1969.360070408

[15]

De Lay, J., Cattoir, H., and Reynaerts, A., The Quantitative Measurement of DNA-DNA Hybridization from Renaturation Rates,Eur. J. Biochem., 1970, vol. 12, pp. 133–142. 10.1111/j.1432-1033.1970.tb00830.x

[16]

Zhilina, T.N., Tourova, T.P., Kuznetsov, B.B., Kostrikina, N.A., and Lysenko, A.M.,Orenia sivashensis sp. nov., a New Moderately Halophilic Anaerobic Bacterium from Lake Sivash Lagoons,Mikwbiologiya, 1999, vol. 68, no. 4, pp. 519–527.

[17]

Van de Peer, Y. and De Wachter, R., TREECON for Windows: A Software Package for the Construction and Drawing of Evolutionary Trees for the Microsoft Windows Environment,Comput. Appl. Biosci., 1994, vol. 10, pp. 569–570.

[18]

Taikaichi, S., Inoue, K., Akaike, M., Kobayashi, M., Oh-Oka, H., and Madigan, M.T., The Major Carotenoid in All Species of Heliobacteria is the C30 Carotenoid 4,4’-Diaponeurosporene, Not Neurosporene,Arch. Microbiol, 1997, vol. 168, pp. 277–281. 10.1007/s002030050499

[19]

Beer-Romero, P., Favinger, J.L., and Gest, H., Distinctive Properties of Bacilliform Photosynthetic Heliobacteria,FEMS Microbiol. Lett., 1988, vol. 49, pp. 451–454. 10.1111/j.1574-6968.1988.tb02774.x

[20]

Aase, B., Jantzen, E., Bryn, K., and Ormerod, J., Lipids of Heliobacteria Are Characterised by a High Proportion of Monoenoic Fatty Acids with Variable Double Bond Positions,Photosynthesis Res., 1994, vol. 41, pp. 67–74. 10.1007/bf02184146

Metrics

8

Citations

20

References

Details

Published: May 01, 2000
Vol/Issue: 69(3)
Pages: 325-334
License: View

Authors

Cite This Article

I. A. Bryantseva, V. M. Gorlenko, T. P. Tourova, et al. (2000). Heliobacterium sulfidophilum sp. nov. andHeliobacterium undosum sp. nov.: Sulfideoxidizing heliobacteria from thermal sulfidic springs. Microbiology, 69(3), 325-334. https://doi.org/10.1007/bf02756742

Heliobacterium sulfidophilum sp. nov. andHeliobacterium undosum sp. nov.: Sulfideoxidizing heliobacteria from thermal sulfidic springs

You May Also Like