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61.
The potential for dramatic increases in bioproductivity in algal photobioreactors relative to current biomass approaches,
e.g., for converting sunlight into biofuels, by an unorthodox integration of photonics and biotechnologies is described. The
key to greater biomass yields—projected as high as 100 g dry weight m−2 h−1—is a pronounced heightening of algal flux tolerance, achieved by tailoring the photonic temporal, spectral and intensity
characteristics with pulsed light-emitting diodes. Such tailored photonic input is applied in concert with thin-channel ultradense
culture photobioreactors with flow patterns that produce rapid light/dark algae exposure cycles. The artificial-light scheme
is globally feasible only with electricity generated from renewables. Recent advances in ultra-efficient concentrator photovoltaics,
as well as high-performance light-emitting diodes, create a practical reality for converting sunlight into pulsed red light
and delivering it to indoor photobioreactors, with characteristic pulse times and intensities optimally suited to the rate-limiting
dark reactions of photosynthesis. Cellular engineering built upon recent progress in modifying algal chlorophyll antenna size,
in combination with metabolic engineering, could further enhance bioproductivity. The proposed strategy requires no major
advances for implementation and adopts existing technologies.
Revision submitted to Applied Microbiology and Biotechnology on 25 June 2007. 相似文献
62.
Intracellular Ca2+ oscillations, a potential pacemaking mechanism in early embryonic heart cells 下载免费PDF全文
Sasse P Zhang J Cleemann L Morad M Hescheler J Fleischmann BK 《The Journal of general physiology》2007,130(2):133-144
Early (E9.5-E11.5) embryonic heart cells beat spontaneously, even though the adult pacemaking mechanisms are not yet fully established. Here we show that in isolated murine early embryonic cardiomyocytes periodic oscillations of cytosolic Ca(2+) occur and that these induce contractions. The Ca(2+) oscillations originate from the sarcoplasmic reticulum and are dependent on the IP(3) and the ryanodine receptor. The Ca(2+) oscillations activate the Na(+)-Ca(2+) exchanger, giving rise to subthreshold depolarizations of the membrane potential and/or action potentials. Although early embryonic heart cells are voltage-independent Ca(2+) oscillators, the generation of action potentials provides synchronization of the electrical and mechanical signals. Thus, Ca(2+) oscillations pace early embryonic heart cells and the ensuing activation of the Na(+)-Ca(2+) exchanger evokes small membrane depolarizations or action potentials. 相似文献
63.
Berger K Stögbauer F Stoll M Wellmann J Huge A Cheng S Kessler C John U Assmann G Ringelstein EB Funke H 《Human genetics》2007,121(2):169-178
64.
Molecular architecture of strictosidine glucosidase: the gateway to the biosynthesis of the monoterpenoid indole alkaloid family 总被引:1,自引:0,他引:1
Strictosidine beta-D-glucosidase (SG) follows strictosidine synthase (STR1) in the production of the reactive intermediate required for the formation of the large family of monoterpenoid indole alkaloids in plants. This family is composed of approximately 2000 structurally diverse compounds. SG plays an important role in the plant cell by activating the glucoside strictosidine and allowing it to enter the multiple indole alkaloid pathways. Here, we report detailed three-dimensional information describing both native SG and the complex of its inactive mutant Glu207Gln with the substrate strictosidine, thus providing a structural characterization of substrate binding and identifying the amino acids that occupy the active site surface of the enzyme. Structural analysis and site-directed mutagenesis experiments demonstrate the essential role of Glu-207, Glu-416, His-161, and Trp-388 in catalysis. Comparison of the catalytic pocket of SG with that of other plant glucosidases demonstrates the structural importance of Trp-388. Compared with all other glucosidases of plant, bacterial, and archaeal origin, SG's residue Trp-388 is present in a unique structural conformation that is specific to the SG enzyme. In addition to STR1 and vinorine synthase, SG represents the third structural example of enzymes participating in the biosynthetic pathway of the Rauvolfia alkaloid ajmaline. The data presented here will contribute to deciphering the structure and reaction mechanism of other higher plant glucosidases. 相似文献
65.
Site-specific recombinases (SSRs) enable novel tag-and-target as well as tag-and-exchange strategies for tailoring mammalian genomes. If used in combination with homologous recombination, which per se is inefficient but can serve to introduce SSR sites, the tagged locus lends itself to repeated modification at largely increased efficiency and specificity. The more conventional SSR-based genetic modifications enable straightforward integration of a transgene with efficiencies depending on both the target locus and the vector composition. Only the more recent tag-and-exchange strategies in conjunction with advanced selection principles enable the clean replacement of a genomically anchored cassette by a donor cassette with the related architecture. Meanwhile this recombinase-mediated cassette exchange (RMCE) concept could be verified for two classes of SSRs, belonging to either the Tyr or the Ser family. Certain members of these open different fields of application that will be discussed with reference to the molecular properties of the respective enzymes. A major aim of our review is to characterize the RMCE-relevant components and describe their optimal utilization in the fields of gene therapy and molecular genomics. Early contributions to the field of experimental animal models will be mentioned considering in vivo modifications enabled by microinjection into oocytes. 相似文献
66.
Deterministic or rule-based succession is expected under homogeneous biotic and abiotic starting conditions. Effects of extreme climatic events such as drought, however, may alter these assembly rules by adding stochastic elements. We monitored the succession of species composition of 30 twin grassland communities with identical biotic and abiotic starting conditions in an initially sown diversity gradient between 1 and 16 species over 13 years. The stochasticity of succession, measured as the synchrony in the development of the species compositions of the twin plots, was strongly altered by the extreme warm and dry summer of 2003. Moreover, it was independent from past and present plant diversity and neighbourhood species compositions. Extreme climatic events can induce stochastic effects in community development and therefore impair predictability even under homogeneous abiotic conditions. Stochastic events may result in lasting shifts of community composition, as well as adverse and unforeseeable effects on the stability of ecological services. 相似文献
67.
68.
Dukart J Schroeter ML Mueller K;Alzheimer's Disease Neuroimaging Initiative 《PloS one》2011,6(7):e22193
In recent research, many univariate and multivariate approaches have been proposed to improve automatic classification of various dementia syndromes using imaging data. Some of these methods do not provide the possibility to integrate possible confounding variables like age into the statistical evaluation. A similar problem sometimes exists in clinical studies, as it is not always possible to match different clinical groups to each other in all confounding variables, like for example, early-onset (age<65 years) and late-onset (age≥65) patients with Alzheimer's disease (AD). Here, we propose a simple method to control for possible effects of confounding variables such as age prior to statistical evaluation of magnetic resonance imaging (MRI) data using support vector machine classification (SVM) or voxel-based morphometry (VBM). We compare SVM results for the classification of 80 AD patients and 79 healthy control subjects based on MRI data with and without prior age correction. Additionally, we compare VBM results for the comparison of three different groups of AD patients differing in age with the same group of control subjects obtained without including age as covariate, with age as covariate or with prior age correction using the proposed method. SVM classification using the proposed method resulted in higher between-group classification accuracy compared to uncorrected data. Further, applying the proposed age correction substantially improved univariate detection of disease-related grey matter atrophy using VBM in AD patients differing in age from control subjects. The results suggest that the approach proposed in this work is generally suited to control for confounding variables such as age in SVM or VBM analyses. Accordingly, the approach might improve and extend the application of these methods in clinical neurosciences. 相似文献
69.
70.
JoséL. Jorcano Michael Rieger Juergen K. Franz Dorothea L. Schiller Roland Moll Werner W. Franke 《Journal of molecular biology》1984,179(2):257-281
Cytoskeletal filaments of the α-keratin type (cytokeratins) are a characteristic of epithelial cells. In diverse mammals (man, cow and rodents) these cytokeratins consist of a family of approximately 20 polypeptides, which may be divided into the more acidic (I) and the more basic (II) subfamilies. These two subfamilies show only limited amino acid sequence homology. In contrast, nucleic acid hybridization experiments and peptide maps have been interpreted to show that polypeptides of the same subfamily share extended sequence homology.We compare two polypeptides of the acidic cytokeratin subfamily, VIb (Mr 54,000) and VII (Mr 50,000), which are co-expressed in large amounts in bovine epidermal keratinocytes. These two epidermal keratins can be distinguished by specific antibodies and show different patterns of expression among several bovine tissues and cultured cells. In addition, they differ in the stability of their complexes with basic keratin polypeptides and in their tryptic peptide maps. The amino acid sequences deduced from the nucleotide sequences of complementary DNA clones containing the 3′ ends of the messenger RNAs for these keratins are compared with each other and with available amino acid sequences of human, murine and amphibian epidermal keratins. Bovine keratins VIb and VII share considerable sequence homology in the α-helical portion (68% residues identical) but lack significant homology in the extrahelical portion. Bovine keratin VIb shows, in its α-helical region, a pronounced sequence homology (88% identity) to the murine epidermal keratin of Mr 59,000. In addition, the non-helical carboxy-terminal regions of both proteins are glycinerich and contain a canonic sequence GGGSGYGG, which may be repeated several times. Moreover, their mRNAs present a highly conserved stretch of 236 nucleotides containing, in the murine sequence, the end of the coding and all of the non-coding region (81% identical nucleotides). Bovine keratin VII is considerably different from the murine Mr 59,000 keratin but is almost identical to the human cytokeratin number 14 of Mr 50,000, both in the α-helical and in the non-α-helical regions of the proteins, and the mRNAs of the human and the bovine keratins also display a high homology in their 3′ non-coding ends.The results show that in the same species keratins of the same subfamily can differ considerably, whereas equivalent keratin polypeptides of different species are readily identified by characteristic sequence homologies in the α-helical and the non-helical regions as well as in the 3′ non-coding portions of their mRNAs. Among the members of the acidic subfamily I of cytokeratin polypeptides that are co-expressed in bovine epidermis, at least two types can be distinguished by their carboxy-terminal sequences. One type is characterized by its abundance of glycine residues, a consensus GGGSGYGG heptapeptide sequence, which may be repeated several times, and an extended stretch of high RNA sequence homology in the 3′ non-coding part. The other type shows a predominance of serine and valine residues, a subterminal GGGSGYGG sequence (which has been maintained in Xenopus, cow and man) and also a high level of homology in the 3′ non-coding part of the mRNA. The data indicate that individual keratin type specificity overrides species diversity, both at the protein and the mRNA level. We discuss the evolutionary conservation and the tissue distribution of these two types of acidic keratin polypeptides as well as their possible biological functions. 相似文献