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Thermotoga maritima sp. nov. represents a new genus of unique extremely thermophilic eubacteria growing up to 90°C (1986)

Huber, Robert ; Langworthy, Thomas A. ; König, Helmut ; [et al.]

Springer

Archives of microbiology 144 (1986), S. 324-333

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ISSN: 1432-072X

Keywords: Evolution ; Eubacteria ; Thermophile ; Anaerobe ; Thermotoga maritima

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A novel type of bacterium has been isolated from various geothermally heated locales on the sea floor. The organisms are strictly anaerobic, rod-shaped, fermentative, extremely thermophilic and grow between 55 and 90°C with an optimum of around 80°C. Cells show a unique sheath-like structure and monotrichous flagellation. By 16S rRNA sequencing they clearly belong to the eubacteria, although no close relationship to any known group could be detected. The majority of their lipids appear to be unique in structure among the eubacteria. Isolate MSB8 is described as Thermotoga maritima, representing the new genus Thermotoga.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00409880

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Methanopyrus kandleri, gen. and sp. nov. represents a novel group of hyperthermophilic methanogens, growing at 110°C (1991)

Kurr, Margit ; Huber, Robert ; König, Helmut ; [et al.]

Springer

Archives of microbiology 156 (1991), S. 239-247

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ISSN: 1432-072X

Keywords: Methanopyrus ; Methanogens ; Archaea ; Hyperthermophilic ; Marine ; Vents

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A novel group of hyperthermophilic rod-shaped motile methanogens was isolated from a hydrothermally heated deep sea sediment (Guaymas Basin, Gulf of California) and from a shallow marine hydrothermal system (Kolbeinsey ridge, Iceland). The grew between 84 and 110°C (opt: 98°C) and from 0.2% to 4% NaCl (opt. 2%) and pH 5.5 to 7 (opt: 6.5). The isolates were obligate chemolithoautotrophes using H2/CO2 as energy and carbon sources. In the presence of sulfur, H2S was formed and cells tended to lyse. The cell wall consisted of a new type of pseudomurein containing ornithin in addition to lysine and no N-acetylglucosamine. The pseudomurein layer was covered by a detergent-sensitive protein surface layer. The core lipid consisted exclusively of phytanyl diether. The GC content of the DNA was 60 mol%. By 16S rRNA comparisons the new organisms were not related to any of the three methanogenic lineages. Based on the physiological and molecular properties of the new isolates, we describe here a new genus, which we name Methanopyrus (the “methane fire”). The type species is Methanopyrus kandleri (type strain: AV19; DSM 6324).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00262992

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Brain morphology and turbidity preference in Notropis and related genera (Cyprinidae, Teleostei) (1992)

Huber, Robert ; Rylander, Michael K.

Springer

Environmental biology of fishes 33 (1992), S. 153-165

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ISSN: 1573-5133

Keywords: Neuroanatomy ; Ecology ; Vision ; Olfaction ; Gustation ; Plasticity ; Adaptation ; Evolution

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Synopsis The size of seven neural structures was compared in 51 species of Notropis, Pteronotropis, Cyprinella, Luxilus, Lythrurus, and Hybopsis, and related to the turbidity of the species& habitat. This last parameter was assessed for each species by personal communication with 42 ichthyologists. To control for size differences among species, all analyses were performed on the residuals from a regression of each character on standard length. Principal components analysis (PCA) of the residuals produced four significant PC-axes that together explained 65% of the total variation represented in the original variables. The size of brain structures concerned with vision, olfaction, and gustation was correlated with habitat turbidity. Two-way Analyses of Covariance (ANCOVAs) revealed significant differences between species in the size of all structures. Sexual dimorphism was found in the size of the olfactory bulb and the cerebellum, and significant two-way interactions (species vs. sex) were detected for the telencephalon, optic lobes, cerebellum, vagal lobe, and the eye. Cluster analysis indicated that neither similar turbidity preference nor shared phylogeny is alone sufficient to explain the observed differences in brain morphology.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00002561

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