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101.
We studied the relative importance of spatial and environmental factors as determinants of algal, bryophyte, and macroinvertebrate metacommunities in two boreal drainage basins differing in spatial extent. We used eigenfunction spatial analysis to model the spatial relationships among sites and distance‐based redundancy analysis to partition the variability in biotic communities between the spatial filters generated through spatial eigenfunction analysis and the environmental factors measured in the field. In the smaller study area, each metacommunity was structured mostly by environmental factors. This was evidenced by the fact that either the pure environmental effect was significant or environmental factors were strongly spatially structured. In the larger study area, only pure environmental effects were significant. These findings suggest that the environmental control prevails in boreal headwater streams. However, our findings also suggest that the specific details of the community‐environment and community–space relationships are dependent on the focal organism group and drainage basin. 相似文献
102.
Potato virus A (PVA), a potyvirus with a (+)ssRNA genome translated to a large polyprotein, was engineered and used as a gene vector for expression of heterologous proteins in plants. Foreign genes including jellyfish GFP (Aequorea victoria) encoding the green fluorescent protein (GFP, 27 kDa) and the genes of human origin (Homo sapiens) encoding a soluble resistance-related calcium-binding protein (sorcin, 22 kDa) and the catechol-O-methyltransferase (S-COMT; 25 kDa) were cloned between the cistrons for the viral replicase and coat protein (CP). The inserts caused no adverse effects on viral infectivity and virulence, and the inserted sequences remained intact in progeny viruses in the systemically infected leaves. The heterologous proteins were released from the viral polyprotein following cleavage by the main viral proteinase, NIa, at engineered proteolytic processing sites flanking the insert. Active GFP, as indicated by green fluorescence, and S-COMT with high levels of enzymatic activity were produced. In contrast, no sorcin was detected despite the expected equimolar amounts of the foreign and viral proteins being expressed as a polyprotein. These data reveal inherent differences between heterologous proteins in their suitability for production in plants. 相似文献
103.
104.
Tsuneo Ferguson Jitesh A. Soares Tanja Lienard Gerhard Gottschalk Joseph A. Krzycki 《The Journal of biological chemistry》2009,284(4):2285-2295
Archaeal methane formation from methylamines is initiated by distinct
methyltransferases with specificity for monomethylamine, dimethylamine, or
trimethylamine. Each methylamine methyltransferase methylates a cognate
corrinoid protein, which is subsequently demethylated by a second
methyltransferase to form methyl-coenzyme M, the direct methane precursor.
Methylation of the corrinoid protein requires reduction of the central cobalt
to the highly reducing and nucleophilic Co(I) state. RamA, a 60-kDa monomeric
iron-sulfur protein, was isolated from Methanosarcina barkeri and is
required for in vitro ATP-dependent reductive activation of
methylamine:CoM methyl transfer from all three methylamines. In the absence of
the methyltransferases, highly purified RamA was shown to mediate the
ATP-dependent reductive activation of Co(II) corrinoid to the Co(I) state for
the monomethylamine corrinoid protein, MtmC. The ramA gene is located
near a cluster of genes required for monomethylamine methyltransferase
activity, including MtbA, the methylamine-specific CoM methylase and the
pyl operon required for co-translational insertion of pyrrolysine
into the active site of methylamine methyltransferases. RamA possesses a
C-terminal ferredoxin-like domain capable of binding two tetranuclear
iron-sulfur proteins. Mutliple ramA homologs were identified in
genomes of methanogenic Archaea, often encoded near methyltrophic
methyltransferase genes. RamA homologs are also encoded in a diverse selection
of bacterial genomes, often located near genes for corrinoid-dependent
methyltransferases. These results suggest that RamA mediates reductive
activation of corrinoid proteins and that it is the first functional archetype
of COG3894, a family of redox proteins of unknown function.Most methanogenic Archaea are capable of producing methane only from carbon
dioxide. The Methanosarcinaceae are a notable exception as representatives are
capable of methylotrophic methanogenesis from methylated amines, methylated
thiols, or methanol. Methanogenesis from these substrates requires methylation
of 2-mercaptoethanesulfonic acid (coenzyme M or CoM) that is subsequently used
by methylreductase to generate methane and a mixed disulfide whose reduction
leads to energy conservation
(1–4).Methylation of CoM with trimethylamine
(TMA),4 dimethylamine
(DMA), or monomethylamine (MMA) is initiated by three distinct
methyltransferases that methylate cognate corrinoid-binding proteins
(3). MtmB, the MMA
methyltransferase, specifically methylates cognate corrinoid protein, MtmC,
with MMA (see Fig. 1)
(5,
6). The DMA methyltransferase,
MtbB, and its cognate corrinoid protein, MtbC, interact specifically to
demethylate DMA (7,
8). TMA is demethylated by the
TMA methyltransferase (MttB) in conjunction with the TMA corrinoid protein
(MttC) (8,
9). Each of the methylated
corrinoid proteins is a substrate for a methylcobamide:CoM methyltransferase,
MtbA, which produces methyl-CoM
(10–12).Open in a separate windowFIGURE 1.MMA:CoM methyl transfer. A schematic of the reactions catalyzed by
MtmB, MtmC, and MtbA is shown that emphasizes the key role of MtmC in the
catalytic cycle of both methyltransferases. Oxidation to Co(II)-MtmC of the
supernucleophilic Co(I)-MtmC catalytic intermediate inactivates methyl
transfer from MMA to the thiolate of coenzyme M (HSCoM). In
vitro reduction of the Co(II)-MtmC with either methyl viologen reduced to
the neutral species or with RamA in an ATP-dependent reaction can regenerate
the Co(I) species. In either case in vitro Ti(III)-citrate is the
ultimate source of reducing power.CoM methylation with methanol requires the methyltransferase MtaB and the
corrinoid protein MtaC, which is then demethylated by another
methylcobamide:CoM methyltransferase, MtaA
(13–15).
The methylation of CoM with methylated thiols such as dimethyl sulfide in
Methanosarcina barkeri is catalyzed by a corrinoid protein that is
methylated by dimethyl sulfide and demethylated by CoM, but in this case an
associated CoM methylase carries out both methylation reactions
(16).In bacteria, analogous methyltransferase systems relying on small corrinoid
proteins are used to achieve methylation of tetrahydrofolate. In
Methylobacterium spp., CmuA, a single methyltransferase with a
corrinoid binding domain, along with a separate pterin methylase, effect the
methylation of tetrahydrofolate with chloromethane
(17,
18). In Acetobacterium
dehalogenans and Moorella thermoacetica various three-component
systems exist for specific demethylation of different phenylmethyl ethers,
such as vanillate (19) and
veratrol (20), again for the
methylation of tetrahydrofolate. Sequencing of the genes encoding the
corrinoid proteins central to the archaeal and bacterial methylotrophic
pathways revealed they are close homologs. Furthermore, genes predicted to
encode such corrinoid proteins and pterin methyltransferases are widespread in
bacterial genomes, often without demonstrated metabolic function. All of these
corrinoid proteins are similar to the well characterized cobalamin binding
domain of methionine synthase
(21,
22).In contrast, the TMA, DMA, MMA, and methanol methyltransferases are not
homologous proteins. The methylamine methyltransferases do share the common
distinction of having in-frame amber codons
(6,
8) within their encoding genes
that corresponds to the genetically encoded amino acid pyrrolysine
(23–25).
Pyrrolysine has been proposed to act in presenting a methylammonium adduct to
the central cobalt ion of the corrinoid protein for methyl transfer
(3,
23,
26). However, nucleophilic
attack on a methyl donor requires the central cobalt ion of a corrinoid
cofactor is in the nucleophilic Co(I) state rather than the inactive Co(II)
state (27). Subsequent
demethylation of the methyl-Co(III) corrinoid cofactor regenerates the
nucleophilic Co(I) cofactor. The Co(I)/Co(II) in the cobalamin binding domain
of methionine synthase has an Em value of -525 mV at pH 7.5
(28). It is likely to be
similarly low in the homologous methyltrophic corrinoid proteins. These low
redox potentials make the corrinoid cofactor subject to adventitious oxidation
to the inactive Co(II) state (Fig.
1).During isolation, these corrinoid proteins are usually recovered in a
mixture of Co(II) or hydroxy-Co(III) states. For in vitro studies,
chemical reduction can maintain the corrinoid protein in the active Co(I)
form. The methanol:CoM or the phenylmethyl ether:tetrahydrofolate
methyltransferase systems can be activated in vitro by the addition
of Ti(III) alone as an artificial reductant
(14,
19). In contrast, activation
of the methylamine corrinoid proteins further requires the addition of methyl
viologen as a redox mediator. Ti(III) reduces methyl viologen to the extremely
low potential neutral species. In vitro activation with these agents
does not require ATP (5,
7,
9).Cellular mechanisms also exist to achieve the reductive activation of
corrinoid cofactors in methyltransferase systems. Activation of human
methionine synthase involves reduction of the co(II)balamin by methionine
synthase reductase (29),
whereas the Escherichia coli enzyme requires flavodoxin
(30). The endergonic reduction
is coupled with the exergonic methylation of the corrinoid with
S-adenosylmethionine
(27). An activation system
exists in cellular extracts of A. dehalogenans that can activate the
veratrol:tetrahydrofolate three-component system and catalyze the direct
reduction of the veratrol-specific corrinoid protein to the Co(I) state;
however, the activating protein has not been purified
(31).For the methanogen methylamine and methanol methyltransferase systems, an
activation process is readily detectable in cell extracts that is ATP- and
hydrogen-dependent (32,
33). Daas et al.
(34,
35) examined the activation of
the methanol methyltransferase system in M. barkeri and purified in
low yield a methyltransferase activation protein (MAP) which in the presence
of a preparation of hydrogenase and uncharacterized proteins was required for
ATP-dependent reductive activation of methanol:CoM methyl transfer. MAP was
found to be a heterodimeric protein without a UV-visible detectable prosthetic
group. Unfortunately, no protein sequence has been reported for MAP, leaving
the identity of the gene in question. The same MAP protein was also suggested
to activate methylamine:CoM methyl transfer, but this suggestion was based on
results with crude protein fractions containing many cellular proteins other
than MAP (36).Here we report of the identification and purification to near-homogeneity
of RamA (reductive activation of
methyltransfer, amines), a protein mediating activation
of methylamine:CoM methyl transfer in a highly purified system
(Fig. 1). Quite unlike MAP,
which was reported to lack prosthetic groups, RamA is an iron-sulfur protein
that can catalyze reduction of a corrinoid protein such as MtmC to the Co(I)
state in an ATP-dependent reaction (Fig.
1). Peptide mapping of RamA allowed identification of the gene
encoding RamA and its homologs in the genomes of Methanosarcina spp.
RamA belongs to COG3894, a group of uncharacterized metal-binding proteins
found in a number of genomes. RamA, thus, provides a functional example for a
family of proteins widespread among bacteria and Archaea whose physiological
role had been largely unknown. 相似文献
105.
Angela Y. Chen Ashish S. Jani Lifeng Zheng Peter J. Burke James P. Brody 《Biotechnology progress》2009,25(4):929-937
Single‐molecule enzymology allows scientists to examine the distributions of kinetic rates among members of a population. We describe a simple method for the analysis of single‐molecule enzymatic kinetics and provide comparisons to ensemble‐averaged kinetics. To isolate our model enzyme, α‐chymotrypsin, into single molecules, we use an array of cylindrical poly(dimethylsiloxane) wells 2 μm in diameter and 1.35 μm in height. Inside the wells, a protease assay with a profluorescent substrate detects α‐chymotrypsin activity. We hold the concentration of α‐chymotrypsin at 0.39 nM in a given well with an enzyme‐to‐substrate ratio of 1:6,666 molecules. Fluorescence emitted by the substrate is proportional to enzyme activity and detectable by a charge‐coupled device. This method allows for the simultaneous real‐time characterization of hundreds of individual enzymes. We analyze single‐molecule kinetics by recording and observing their intensity trajectories over time. By testing our method with our current instruments, we confirm that our methodology is useful for the analysis of single enzymes for extracting static inhomogeneity. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009 相似文献
106.
Aims The nested subset pattern has been widely studied in the last 20 years, and recent syntheses have challenged the prevalence of this pattern in nature. We examined the degree of nestedness, its temporal variability and its environmental correlates in stream insects of a boreal drainage system. We also examined differences between nested and idiosyncratic species in site occupancy, niche position and niche breadth. Location Koutajoki drainage basin in northern Finland. Methods We used (i) nestedness analyses with three null models for testing the significance of nestedness; (ii) Spearman rank correlation to examine the correlates of nestedness; (iii) outlying mean index analysis to analyse the niche characteristics of species; (iv) and t‐test to examine differences in niche breadth, niche position and site occupancy of idiosyncratic and other nested species. Results Stream insect assemblages were significantly nested in each of the three study years. The maximally packed matrices were significantly nested according to the nestedness calculator based on null models I (species frequencies and site richness equiprobable) and II (species frequencies fixed and site richness equiprobable), but non‐significant based on a conservative null model III (species frequencies and site richness fixed to those of the observed matrix). The most important correlate of nestedness was stream size, whereas isolation, productivity (total phosphorus) and habitat heterogeneity exhibited non‐significant relationship with nestedness. Idiosyncratic species occurred, on average, at more sites than nested species, mirroring the restricted distributions of several nested species that were inclined towards species‐rich sites. Idiosyncratic and nested species also differed in niche position and niche breadth, with idiosyncratic species having, on average, less marginal niche positions and wider niches than nested species. Main conclusions Stream size correlated with nestedness, possibly because small streams were inhabited only by species able to persist under, or colonize shortly after, disturbances, while most species could occur at larger sites where disturbances are less severe. From the conservation perspective, our findings suggest that stream size really matters, given that sites with high species richness and many rare species are more likely to occur in larger streams. However, also the requirements of idiosyncratic species should be accommodated in conservation planning. 相似文献
107.
Jani Saarela Jari Metso Wolfgang J. Schneider Matti Jauhiainen 《Biochimica et Biophysica Acta (BBA)/Molecular and Cell Biology of Lipids》2009,1791(8):781-789
Circulatory phospholipid transfer protein (PLTP) has two major functions: 1) transfer of phospholipids towards HDL particles; and 2) modulation of HDL size and composition via the HDL conversion process. In the laying hen (Gallus gallus), the massive oocyte-targeted lipid flow is achieved through the concerted actions of lipases, lipid transfer proteins, and relatives of the LDL receptor family. The aim of the study was to gain insights into the structure and functions of chicken PLTP. The results demonstrate that PLTP is highly conserved from chicken to mammals, as (i) chicken PLTP is associated with plasma HDL; (ii) it clearly possesses phospholipid transfer activity; (iii) it is inactivated at + 58 °C; and (iv) it mediates conversion of avian and human HDL into small preβ-mobile HDL and large fused α-mobile HDL particles. Our data show that HDL from different chicken models is similar in chemical and physical properties to that of man based on PLTP activity, cholesterol efflux, and HDL conversion assays. In contrast to mammals, PLTP-facilitated HDL remodeling did not enhance cholesterol efflux efficiency of chicken HDL particles. 相似文献
108.
Jani Heino Luis Mauricio Bini Satu Maaria Karjalainen Heikki Mykrä Janne Soininen Ludgero Cardoso Galli Vieira José Alexandre Felizola Diniz‐Filho 《Oikos》2010,119(1):129-137
A topic under intensive study in community ecology and biogeography is the degree to which microscopic, as well as macroscopic organisms, show spatially-structured variation in community characteristics. In general, unicellular microscopic organisms are regarded as ubiquitously distributed and, therefore, without a clear biogeographic signal. This view was summarized 75 years ago by Baas-Becking, who stated "everything is everywhere, but, the environment selects". Within the context of metacommunity theory, this hypothesis is congruent with the species sorting model. By using a broad-scale dataset on stream diatom communities and environmental predictor variables across most of Finland, our main aim was to test this hypothesis. Patterns of spatial autocorrelation were evaluated by Moran's I based correlograms, whereas partial regression analysis and partial redundancy analysis were used to quantify the relative importance of environmental and spatial factors on total species richness and on community composition, respectively. Significant patterns of spatial autocorrelation were found for all environmental variables, which also varied widely. Our main results were clear-cut. In general, pure spatial effects clearly overcame those of environmental effects, with the former explaining much more variation in species richness and community composition. Most likely, missing environmental variables cannot explain the higher predictive power of spatial variables, because we measured key factors that have previously been found to be the most important variables (e.g. pH, conductivity, colour, phosphorus, nitrogen) shaping the structure of diatom communities. Therefore, our results provided only limited support for the Baas-Becking hypothesis and the species sorting perspective of metacommunity theory. 相似文献
109.
Petra Straková Jani Anttila Peter Spetz Veikko Kitunen Tarja Tapanila Raija Laiho 《Plant and Soil》2010,335(1-2):501-520
Changes in the structure of plant communities may have much more impact on ecosystem carbon (C) cycling than any phenotypic responses to environmental changes. We studied these impacts via the response of plant litter quality, at the level of species and community, to persistent water-level (WL) drawdown in peatlands. We studied three sites with different nutrient regimes, and water-level manipulations at two time scales. The parameters used to characterize litter quality included extractable substances, cellulose, holocellulose, composition of hemicellulose (neutral sugars, uronic acids), Klason lignin, CuO oxidation phenolic products, and concentrations of C and several nutrients. The litters formed four chemically distinct groups: non-graminoid foliar litters, graminoids, mosses and woody litters. Direct effects of WL drawdown on litter quality at the species level were overruled by indirect effects via changes in litter type composition. The pristine conditions were characterized by Sphagnum moss and graminoid litters. Short-term (years) responses of the litter inputs to WL drawdown were small. In long-term (decades), total litter inputs increased, due to increased tree litter inputs. Simultaneously, the litter type composition and its chemical quality at the community level greatly changed. The changes that we documented will strongly affect soil properties and C cycle of peatlands. 相似文献
110.
Jitesh R. Shah Philip D. Mosier Srinivas Peddi Bryan L. Roth Richard B. Westkaemper 《Bioorganic & medicinal chemistry letters》2010,20(3):935-938
Synthesis, radioligand binding and molecular modeling studies of several 9-aminomethyl-9,10-dihydroanthracene (AMDA) analogs were carried out to determine the extent of the steric tolerance associated with expansion of the tricyclic ring system and amine substitution at 5-HT2A and H1 receptors. A mixture of (7,12-dihydrotetraphene-12-yl)methanamine and (6,11-dihydrotetracene-11-yl)methanamine in a 75–25% ratio was found to have an apparent Ki of 10 nM at the 5-HT2A receptor. A substantial binding affinity for (7,12-dihydrotetraphene-3-methoxy-12-yl)methanamine at the 5-HT2A receptor (Ki = 21 nM) was also observed. Interestingly, this compound was found to have 100-fold selectivity for 5-HT2A over the H1 receptor (Ki = 2500 nM). N-Phenylalkyl-AMDA derivatives, in which the length of the alkyl chain varied from methylene to n-butylene, were found to have only weak affinity for both 5-HT2A and H1 receptors (Ki = 223 to 964 nM). Our results show that large rigid annulated AMDA analogs can be sterically accommodated within the proposed 5-HT2A binding site. 相似文献