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81.
82.
Michael E Clark Zoe Veneti Kostas Bourtzis Timothy L Karr 《Mechanisms of development》2002,111(1-2):3-15
Wolbachia is a cytoplasmically inherited alpha-proteobacterium found in a wide range of host arthropod and nematode taxa. Wolbachia infection in Drosophila is closely associated with the expression of a unique form of post-fertilization lethality termed cytoplasmic incompatibility (CI). This form of incompatibility is only expressed by infected males suggesting that Wolbachia exerts its effect during spermatogenesis. The growth and distribution of Wolbachia throughout sperm development in individual spermatocysts and elongating sperm bundles is described. Wolbachia growth within a developing cyst seems to begin during the pre-meiotic spermatocyte growth phase with the majority of bacteria accumulating during cyst elongation. Wolbachia are predominantly localized in the proximal end of the immature cyst, opposite the spermatid nuclei, and throughout development there appears little movement of Wolbachia between spermatids via the connecting cytoplasmic bridges. The overall number of new cysts infected as well as the number of spermatids/cysts infected seems to decrease with age and corresponds to the previously documented drop in CI with age. In contrast, in one CI expressing line of Drosophila melanogaster, fewer cysts are infected and a much greater degree of variation in numbers is observed between spermatids. Furthermore, the initiation and extent of the fastest period of Wolbachia growth in the D. melanogaster strain lags behind that of Drosophila simulans. The possible implications on the as yet unexplained mechanism of CI are discussed. 相似文献
83.
84.
At room temperature, the chlorophyll (Chl) a fluorescence induction (FI) kinetics of plants, algae and cyanobacteria go through two maxima, P at ∼ 0.2-1 and M at ∼ 100-500 s, with a minimum S at ∼ 2-10 s in between. Thus, the whole FI kinetic pattern comprises a fast OPS transient (with O denoting origin) and a slower SMT transient (with T denoting terminal state). Here, we examined the phenomenology and the etiology of the SMT transient of the phycobilisome (PBS)-containing cyanobacterium Synechococcus sp PCC 7942 by modifying PBS → Photosystem (PS) II excitation transfer indirectly, either by blocking or by maximizing the PBS → PS I excitation transfer. Blocking the PBS → PS I excitation transfer route with N-ethyl-maleimide [NEM; A. N. Glazer, Y. Gindt, C. F. Chan, and K.Sauer, Photosynth. Research 40 (1994) 167-173] increases both the PBS excitation share of PS II and Chl a fluorescence. Maximizing it, on the other hand, by suspending cyanobactrial cells in hyper-osmotic media [G. C. Papageorgiou, A. Alygizaki-Zorba, Biochim. Biophys. Acta 1335 (1997) 1-4] diminishes both the PBS excitation share of PS II and Chl a fluorescence. Here, we show for the first time that, in either case, the slow SMT transient of FI disappears and is replaced by continuous P → T fluorescence decay, reminiscent of the typical P → T fluorescence decay of higher plants and algae. A similar P → T decay was also displayed by DCMU-treated Synechococcus cells at 2 °C. To interpret this phenomenology, we assume that after dark adaptation cyanobacteria exist in a low fluorescence state (state 2) and transit to a high fluorescence state (state 1) when, upon light acclimation, PS I is forced to run faster than PS II. In these organisms, a state 2 → 1 fluorescence increase plus electron transport-dependent dequenching processes dominate the SM rise and maximal fluorescence output is at M which lies above the P maximum of the fast FI transient. In contrast, dark-adapted plants and algae exist in state 1 and upon illumination they display an extended P → T decay that sometimes is interrupted by a shallow SMT transient, with M below P. This decay is dominated by a state 1 → 2 fluorescence lowering, as well as by electron transport-dependent quenching processes. When the regulation of the PBS → PS I electronic excitation transfer is eliminated (as for example in hyper-osmotic suspensions, after NEM treatment and at low temperature), the FI pattern of Synechococcus becomes plant-like. 相似文献
85.
Corey Brelsfoard George Tsiamis Marco Falchetto Ludvik M. Gomulski Erich Telleria Uzma Alam Vangelis Doudoumis Francesca Scolari Joshua B. Benoit Martin Swain Peter Takac Anna R. Malacrida Kostas Bourtzis Serap Aksoy 《PLoS neglected tropical diseases》2014,8(4)
Tsetse flies (Glossina spp.) are the cyclical vectors of Trypanosoma spp., which are unicellular parasites responsible for multiple diseases, including nagana in livestock and sleeping sickness in humans in Africa. Glossina species, including Glossina morsitans morsitans (Gmm), for which the Whole Genome Sequence (WGS) is now available, have established symbiotic associations with three endosymbionts: Wigglesworthia glossinidia, Sodalis glossinidius and Wolbachia pipientis (Wolbachia). The presence of Wolbachia in both natural and laboratory populations of Glossina species, including the presence of horizontal gene transfer (HGT) events in a laboratory colony of Gmm, has already been shown. We herein report on the draft genome sequence of the cytoplasmic Wolbachia endosymbiont (cytWol) associated with Gmm. By in silico and molecular and cytogenetic analysis, we discovered and validated the presence of multiple insertions of Wolbachia (chrWol) in the host Gmm genome. We identified at least two large insertions of chrWol, 527,507 and 484,123 bp in size, from Gmm WGS data. Southern hybridizations confirmed the presence of Wolbachia insertions in Gmm genome, and FISH revealed multiple insertions located on the two sex chromosomes (X and Y), as well as on the supernumerary B-chromosomes. We compare the chrWol insertions to the cytWol draft genome in an attempt to clarify the evolutionary history of the HGT events. We discuss our findings in light of the evolution of Wolbachia infections in the tsetse fly and their potential impacts on the control of tsetse populations and trypanosomiasis. 相似文献
86.
Kostas Kampourakis Eirini Palaiokrassa Maria Papadopoulou Vasiliki Pavlidi Myrto Argyropoulou 《Evolution》2012,5(2):279-291
Research has shown that children usually provide teleological explanations for the features of organisms and artifacts, from
a very early age (3–4 years old). However, there is no consensus on whether teleological explanations are given in the same
manner for non-living natural objects as well. The present study aimed to document the teleological explanations of 5- to
8-year-old children for particular features (color and shape) of organisms, artifacts and non-living natural objects. In addition,
it was examined if there was any correlation between these explanations and children’s explanations for the usefulness of
those features. Our results indicate a developmental shift in children’s teleological explanations, from a non-selective teleology
in pre-school to a selective one in the second grade. In the latter case, children provided teleological explanations mostly
for the shape of the feet of organisms and for the shape of artifacts, whereas pre-school children provided teleological explanations
for non-living natural objects as well, both for the color and for the shape in all cases. Our results are not conclusive
and further research is required, including a larger spectrum of students, since teleology is one of the most important conceptual
obstacles in understanding evolution that persists even into adulthood. We conclude by proposing a particular research program
for this purpose. 相似文献
87.
Roger S. McIntyre Martin Alda Ross J. Baldessarini Michael Bauer Michael Berk Christoph U. Correll Andrea Fagiolini Kostas Fountoulakis Mark A. Frye Heinz Grunze Lars V. Kessing David J. Miklowitz Gordon Parker Robert M. Post Alan C. Swann Trisha Suppes Eduard Vieta Allan Young Mario Maj 《World psychiatry》2022,21(3):364
Bipolar disorder is heterogeneous in phenomenology, illness trajectory, and response to treatment. Despite evidence for the efficacy of multimodality interventions, the majority of persons affected by this disorder do not achieve and sustain full syndromal recovery. It is eagerly anticipated that combining datasets across various information sources (e.g., hierarchical “multi‐omic” measures, electronic health records), analyzed using advanced computational methods (e.g., machine learning), will inform future diagnosis and treatment selection. In the interim, identifying clinically meaningful subgroups of persons with the disorder having differential response to specific treatments at point‐of‐care is an empirical priority. This paper endeavours to synthesize salient domains in the clinical characterization of the adult patient with bipolar disorder, with the overarching aim to improve health outcomes by informing patient management and treatment considerations. Extant data indicate that characterizing select domains in bipolar disorder provides actionable information and guides shared decision making. For example, it is robustly established that the presence of mixed features – especially during depressive episodes – and of physical and psychiatric comorbidities informs illness trajectory, response to treatment, and suicide risk. In addition, early environmental exposures (e.g., sexual and physical abuse, emotional neglect) are highly associated with more complicated illness presentations, inviting the need for developmentally‐oriented and integrated treatment approaches. There have been significant advances in validating subtypes of bipolar disorder (e.g., bipolar I vs. II disorder), particularly in regard to pharmacological interventions. As with other severe mental disorders, social functioning, interpersonal/family relationships and internalized stigma are domains highly relevant to relapse risk, health outcomes, and quality of life. The elevated standardized mortality ratio for completed suicide and suicidal behaviour in bipolar disorder invites the need for characterization of this domain in all patients. The framework of this paper is to describe all the above salient domains, providing a synthesis of extant literature and recommendations for decision support tools and clinical metrics that can be implemented at point‐of‐care. 相似文献
88.
Ioannis Petrakis Vasiliki Mavroeidi Kostas Stylianou George Efthymiou Kostas Perakis Eleftheria Vardaki Spyridon Stratigis Kostas Giannakakis Kostas Kourouniotis George Amoiridis Andreas Plaitakis Maria Joao Saraiva Ken Ichi Yamamura Eugene Daphnis 《Transgenic research》2013,22(1):101-116
Transthyretin related amyloidosis is a nosological entity that leads to disability, diminished quality of life, all stages of chronic kidney disease and eventually death. Podocytes are polarized, highly differentiated epithelial cells important for proper nephron function. In the present study we investigated whether deposited TTRVal30Met (TTRV30M) molecules could be localized within podocytes in situ under the effect of different housing conditions (i.e. specific pathogen free [SPF] vs. non-SPF). Murine renal glomeruli from human TTRV30M (hTTRV30M) transgenic mice were examined via direct and indirect immunofluorescence techniques for the presence of hTTRV30M, murine serum amyloid P, activated caspase-3 and NPHS1. Association strength and amount of colocalization for NPHS1?ChTTRV30M, NPHS1-activated caspase-3, hTTRV30M-murine serum amyloid P were estimated. Localization of hTTRV30M in podocytes was demonstrated by immuno-electron microscopy. Renal hTTRV30M gene and NPHS1 gene expression levels were estimated. Non-SPF transgenic mice showed increased glomerular hTTRV30M deposition compared to their SPF counterparts. Furthermore increased podocytic localization of hTTRV30M was noticed in non-SPF mice. Glomerular caspase-3 activation was increased only in the non SPF housing conditions. Podocytic caspase-3 activation was increased in SPF and in non-SPF transgenic mice when compared to non transgenic controls. Environmental conditions influence glomerular deposition and podocytic localization of hTTRV30M. In this context increased caspase-3 activation occurred. 相似文献
89.
90.
The human LINE-1 endonuclease (L1-EN) contributes in defining the genomic integration sites of the abundant human L1 and Alu retrotransposons. LINEs have been considered as possible vehicles for gene delivery and understanding the mechanism of L1-EN could help engineering them as genetic tools. We tested the in vitro activity of point mutants in three L1-EN residues--Asp145, Arg155, Ile204--that are key for DNA cleavage, and determined their crystal structures. The L1-EN structure remains overall unaffected by the mutations, which change the enzyme activity but leave DNA cleavage sequence specificity mostly unaffected. To better understand the mechanism of L1-EN, we performed molecular dynamics simulations using as model the structures of wild type EN-L1, of two betaB6-betaB5 loop exchange mutants we have described previously to be important for DNA recognition, of the R155A mutant from this study, and of the homologous TRAS1 endonuclease: all confirm a rigid scaffold. The simulations crucially indicate that the betaB6-betaB5 loop shows an anticorrelated motion with the surface loops betaA6-betaA5 and betaB3-alphaB1. The latter loop harbors N118, a residue that alters DNA cleavage specificity in homologous endonucleases, and implies that the plasticity and correlated motion of these loops has a functional importance in DNA recognition and binding. To further explore how these loops are possibly involved in DNA binding, we docked computationally two DNA substrates to our structure, one involving a flipped-out nucleotide downstream the scissile phosphodiester; and one not. The models for both scenarios are feasible and agree with the hypotheses derived from the dynamic simulations. The reduced cleavage activity we have observed for the I204Y mutant above however, favors the flipped out nucleotide model. 相似文献