Living morphology and molecular phylogeny of oligohymenophorean ciliates associated with freshwater turbellarians.

Three freshwater turbellarian species (Dugesia gonocephala, Girardia tigrina, and Polycelis felina), belonging to the order Tricladida, were examined for the presence of ciliates. Living morphology and phylogenetic position of the isolated ciliates were studied using light microscopy and molecular phylogenetic methods. Three ciliate species, all from the highly diverse class Oligohymenophorea, were detected: Haptophrya planariarum from the subclass Astomatia, Urceolaria mitra from the subclass Peritrichia, and Tetrahymena sp. from the subclass Hymenostomatia. Each of these ciliates is specialized for different parts of the turbellarian bodies: H. planariarum lives in the pharynx and rami of the intestine, U. mitra colonizes the body surface, and Tetrahymena sp. attacks open wounds and feeds on the mesenchyme. Astomes and peritrichs isolated from turbellarians are placed deeper in 18S rRNA gene phylogenies than their relatives isolated from annelids and mollusks. On the other hand, Tetrahymena sp. isolated from turbellarians is classified comparatively deeply within the family Tetrahymenidae, suggesting that the phylogeny of tetrahymenids does not correlate with that of their obligate/facultative host groups. Nevertheless, the reconstruction of ancestral traits corroborated the hypothesis that histophagy was already a life history trait of the progenitor of the subclass Hymenostomatia to which Tetrahymena belongs.

Passive detection of biological aerosols in the atmosphere with a Fourier Transform Instrument (FTIR)--the results of the measurements in the laboratory and in the field.

Fourier Transform Infrared Radiation (FTIR) spectroscopy is one of the most powerful methods for the detection of gaseous constituents, aerosols, and dust in planetary atmospheres. Infrared spectroscopy plays an important role in searching for biomarkers, organics and biological substances in the Universe. The possibility of detection and identifications with FTIR spectrometer of bio-aerosol spores (Bacillus atrophaeus var. globigii=BG) in the atmosphere is discussed in this paper. We describe the results of initial spectral measurements performed in the laboratory and in the field. The purpose of these experiments was to detect and to identify bio-aerosol spores in two conditions: 1) In a closed chamber where the thermal contrast between the background and aerosols was large, and 2) In open air where the thermal contrast between the background and aerosols was small. The extinction spectrum of BG spores was deduced by comparing our measurements with models, and other measurements known from the literature. Our theoretical and experimental studies indicate that, during passive remote sensing measurements, it is difficult-but possible to detect and to identify bio-aerosol clouds by their spectral signatures. The simple spectral analysis described in the paper can be useful for the detection of various kinds of trace aerosols-not only in the Earth's atmosphere, but also during planetary missions in the environments of other astronomical objects such as planets, comets etc. We expect that the interpretation of data from spectrometric sounding of Venus and Mars during the current missions Mars and Venus Express, and later during the Rosetta mission will benefit from our experimental work and numerical modelling.

Oxidation of deuterated compounds by high specific activity methane monooxygenase from Methylosinus trichosporium. Mechanistic implications.

Hydrocarbon oxidations catalyzed by methane monooxygenase purified to high specific activity from the type II methanotroph Methylosinus trichosporium OB3b were compared to the same reactions catalyzed by methane monooxygenase from the type I methanotroph Methylococcus capsulatus Bath and liver microsomal cytochrome P-450. The two methane monooxygenases produced nearly identical product distributions, in accord with physical studies of the enzymes which have shown them to be very similar. The products obtained from the oxidation of a series of deuterated substrates by the M. trichosporium methane monooxygenase were very similar to those reported for the same reaction catalyzed by liver microsomal cytochrome P-450, suggesting that the enzymes use similar mechanisms. However, differences in the product distributions and other aspects of the reactions indicated the mechanisms are not identical. Methane monooxygenase epoxidized propene in D2O and d6-propene in H2O without exchange of substrate protons or deuterons with solvent, in contrast to cytochrome P-450 (Groves, J. T., Avaria-Neisser, G. E., Fish, K. M., Imachi, M., and Kuczkowski, R. L. (1986) J. Am. Chem. Soc. 108, 3837-3838), suggesting that the mechanism of epoxidation of olefins by methane monooxygenase differs at least in part from that of cytochrome P-450. Hydroxylation of alkanes by methane monooxygenase revealed close similarities to hydroxylations by cytochrome P-450. Allylic hydroxylation of 3,3,6,6-d4-cyclohexene occurred with approximately 20% allylic rearrangement in the case of methane monooxygenase, whereas 33% was reported for this reaction catalyzed by cytochrome P-450 (Groves, J. T., and Subramanian, D. V. (1984) J. Am. Chem. Soc. 106, 2177-2181). Similarly, hydroxylation of exo,exo,exo,exo-2,3,5,6-d4-norbornane by methane monooxygenase occurred with epimerization, but to a lesser extent than reported for cytochrome P-450 (Groves, J. T., McClusky, G. A., White, R. E., and Coon, M. J. (1978) Biochem. Biophys. Res. Commun. 81, 154-160). A large intramolecular isotope effect, kH,exo/kD,exo greater than or equal to 5.5, was calculated for this reaction. However, the intermolecular kinetic isotope effect on Vm for methane oxidation was small, suggesting that steps other than C-H bond breakage were rate limiting in the overall enzymatic reaction. Similar isotope effects have been observed for cytochrome P-450. These observations indicate a stepwise mechanism of hydroxylation for methane monooxygenase analogous to that proposed for cytochrome P-450.(ABSTRACT TRUNCATED AT 400 WORDS)