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91.
Anjue Mane Ara Mohammad Kawsar Ahmed Sandrine D'Haene Henny van Roon Cristian Ilioaia Rienk van Grondelle Md. Wahadoszamen 《Biophysical journal》2021,120(9):1680-1691
Reported herein is a Stark fluorescence spectroscopy study performed on photosystem II core antenna complexes CP43 and CP47 in their native and aggregated states. The systematic mathematical modeling of the Stark fluorescence spectra with the aid of conventional Liptay formalism revealed that induction of aggregation in both the core antenna complexes via detergent removal results in a single quenched species characterized by a remarkably broad and inhomogenously broadened emission lineshape peaking around 700 nm. The quenched species possesses a fairly large magnitude of charge-transfer character. From the analogy with the results from aggregated peripheral antenna complexes, the quenched species is thought to originate from the enhanced chlorophyll-chlorophyll interaction due to aggregation. However, in contrast, aggregation of both core antenna complexes did not produce a far-red emission band at ~730 nm, which was identified in most of the aggregated peripheral antenna complexes. The 730-nm emission band of the aggregated peripheral antenna complexes was attributed to the enhanced chlorophyll-carotenoid (lutein1) interaction in the terminal emitter locus. Therefore, it is very likely that the no occurrence of the far-red band in the aggregated core antenna complexes is directly related to the absence of lutein1 in their structures. The absence of the far-red band also suggests the possibility that aggregation-induced conformational change of the core antenna complexes does not yield a chlorophyll-carotenoid interaction associated energy dissipation channel. 相似文献
92.
Acestor N Zíková A Dalley RA Anupama A Panigrahi AK Stuart KD 《Molecular & cellular proteomics : MCP》2011,10(9):M110.006908
The mitochondrial respiratory chain is comprised of four different protein complexes (I–IV), which are responsible for electron transport and generation of proton gradient in the mitochondrial intermembrane space. This proton gradient is then used by FoF1-ATP synthase (complex V) to produce ATP by oxidative phosphorylation. In this study, the respiratory complexes I, II, and III were affinity purified from Trypanosoma brucei procyclic form cells and their composition was determined by mass spectrometry. The results along with those that we previously reported for complexes IV and V showed that the respiratome of Trypanosoma is divergent because many of its proteins are unique to this group of organisms. The studies also identified two mitochondrial subunit proteins of respiratory complex IV that are encoded by edited RNAs. Proteomics data from analyses of complexes purified using numerous tagged component proteins in each of the five complexes were used to generate the first predicted protein-protein interaction network of the Trypanosoma brucei respiratory chain. These results provide the first comprehensive insight into the unique composition of the respiratory complexes in Trypanosoma brucei, an early diverged eukaryotic pathogen.Mitochondria are dynamic organelles essential for cellular life, death, and differentiation of virtually every eukaryotic cell. They house systems for energy production through oxidative phosphorylation, synthesis of key metabolites, and iron-sulfur cluster assembly. The oxidative phoshorylation system of eukaryotic mitochondria comprises five major complexes located in the mitochondrial (mt)1 inner membrane, and often abbreviated as mt complexes I–V. The redox energy of the substrates NADH and succinate is first converted into an electrochemical proton potential across the inner mt membrane by respiratory complexes I (NADH:ubiquinone reductase), II (SDH, succinate:ubiquinone reductase), III (bc1, ubiquinone:cytochrome c reductase), and IV (cytochrome c oxidase). The electrochemical proton potential is then used by complex V (FoF1-ATP synthase) to synthesize ATP from ADP and inorganic phosphate, a mechanism that has essentially remained unchanged from bacteria to human (1). However, parasitic organisms have exploited unique energy metabolic pathways by adapting to their natural host habitats (2). Indeed, the respiratory systems of parasites typically show greater diversity in electron transfer pathways than those of their host, and Trypanosoma brucei is no exception to this rule (3).T. brucei, the causative agent of human African trypanosomiasis (HAT), or sleeping sickness, is a blood-borne pathogenic parasite transmitted by tsetse flies. It has a complex life cycle that alternates between the bloodstream forms (BF) in the mammalian host and several stages in the insect vector starting with the procyclic form (PF) in the midgut. During T. brucei differentiation between the distinct life-cycle stages, the mitochondrion undergoes morphological and functional changes, and the parasite switches its energy metabolism from amino acid to glucose oxidation (4). BF cells, which live in sugar-rich environment, use energy metabolism predominantly through the glycolytic pathway (5). They contain no cytochrome-mediated respiratory chain and they possess a unique electron transport chain in the mitochondria, the glycerol-3-phosphate dehydrogenase and the salicyl hydroxamic acid (SHAM)-sensitive alternative oxidase, which is known as the trypanosome alternative oxidase (TAO) (6). Despite the absence of complete cytochrome-containing complexes III and IV in BF trypanosomes, a mt membrane potential is maintained and involves the hydrolytic activity of the FoF1-ATP synthase complex (7). Conversely, PF cells are dependent on the cytochrome-containing respiratory chain and ATP generated by conventional function of the FoF1-ATP synthase complex for their energy production (8, 9). The branched electron-transport chain contains four complexes that donate electrons to the ubiquinone pool, two NADH:ubiquinone oxidoreductases (complex I and a rotenone-insensitive enzyme), complex II, and glycerol-3-phosphate dehydrogenase. Reduced ubiquinol can be reoxidized by the transfer of electron to either the TAO, which does not translocate protons, or to the cytochrome-containing complexes III and IV that produce a proton motive force by translocation of protons and thus create essential membrane potential (10).Although the T. brucei genome has been sequenced (11), little information is available on the subunit composition of mt complexes I–V based on similarity searches. However, some respiratory complexes have been partially characterized in other trypanosomatids such as Crithidia fasciculata, T. cruzi, and Leishmania tarentolae (12–15). In recent studies, we have determined the protein composition of complexes IV and V, and part of complex I purified from mitochondria of T. brucei PF cells (8, 16, 17, 25). These analyses revealed the uniqueness of respiratory complexes in trypanosomes, where large numbers of component proteins have no homologs outside of the Kinetoplastida.In this study, we focus on the comprehensive characterization of all respiratory complexes in T. brucei, collectively termed the respiratome. We report the composition of complexes II and III from PF cells, and extend the characterization of complex I by identifying additional protein constituents. This included the identification of two subunits of the respiratory complex IV, both encoded by mt edited RNAs. We also present a predicted protein-protein interaction network of the respiratome, which was generated using proteomics data collected from numerous tagged proteins in each of the complexes I–V. Our results provide a comprehensive insight into the unique composition of the respiratory complexes in one of the life-cycle stages of T. brucei. 相似文献
93.
94.
Chemical communication between individual Drosophila is extremely important for social behaviors required for survival and reproduction, such as con-specific recognition, courtship, aggression and avoidance of odor from "stressed" flies. Characterization of the receptors and neural circuits that detect pheromone cues and an understanding of how these circuits are modulated by the social interactions are fundamental questions about the neurobiology of social behaviors. Recent years have seen important advances in the identification of chemoreceptors and sensory neurons that are involved in sensing pheromones. Here we present a brief review of the current understanding of the peripheral chemosensory systems that are involved in social behaviors. 相似文献
95.
96.
John Johnson Robert Okyere Anupama Joseph Karin Musier-Forsyth Besik Kankia 《Nucleic acids research》2013,41(1):220-228
Quadruplexes are involved in the regulation of gene expression and are part of telomeres at the ends of chromosomes. In addition, they are useful in therapeutic and biotechnological applications, including nucleic acid diagnostics. In the presence of K+ ions, two 15-mer sequences d(GGTTGGTGTGGTTGG) (thrombin binding aptamer) and d(GGGTGGGTGGGTGGG) (G3T) fold into antiparallel and parallel quadruplexes, respectively. In the present study, we measured the fluorescence intensity of one or more 2-aminopurine or 6-methylisoxanthopterin base analogs incorporated at loop-positions of quadruplex forming sequences to develop a detection method for DNA sequences in solution. Before quadruplex formation, the fluorescence is efficiently quenched in all cases. Remarkably, G3T quadruplex formation results in emission of fluorescence equal to that of a free base in all three positions. In the case of thrombin binding aptamer, the emission intensity depends on the location of the fluorescent nucleotides. Circular dichroism studies demonstrate that the modifications do not change the overall secondary structure, whereas thermal unfolding experiments revealed that fluorescent analogs significantly destabilize the quadruplexes. Overall, these studies suggest that quadruplexes containing fluorescent nucleotide analogs are useful tools in the development of novel DNA detection methodologies. 相似文献
97.
98.
Hanyoup Kim Mais J. Jebrail Anupama Sinha Zachary W. Bent Owen D. Solberg Kelly P. Williams Stanley A. Langevin Ronald F. Renzi James L. Van De Vreugde Robert J. Meagher Joseph S. Schoeniger Todd W. Lane Steven S. Branda Michael S. Bartsch Kamlesh D. Patel 《PloS one》2013,8(7)
Next-generation sequencing (NGS) is emerging as a powerful tool for elucidating genetic information for a wide range of applications. Unfortunately, the surging popularity of NGS has not yet been accompanied by an improvement in automated techniques for preparing formatted sequencing libraries. To address this challenge, we have developed a prototype microfluidic system for preparing sequencer-ready DNA libraries for analysis by Illumina sequencing. Our system combines droplet-based digital microfluidic (DMF) sample handling with peripheral modules to create a fully-integrated, sample-in library-out platform. In this report, we use our automated system to prepare NGS libraries from samples of human and bacterial genomic DNA. E. coli libraries prepared on-device from 5 ng of total DNA yielded excellent sequence coverage over the entire bacterial genome, with >99% alignment to the reference genome, even genome coverage, and good quality scores. Furthermore, we produced a de novo assembly on a previously unsequenced multi-drug resistant Klebsiella pneumoniae strain BAA-2146 (KpnNDM). The new method described here is fast, robust, scalable, and automated. Our device for library preparation will assist in the integration of NGS technology into a wide variety of laboratories, including small research laboratories and clinical laboratories. 相似文献
99.
Heidi E. Godoy A. Nazmul H. Khan R. Robert Vethanayagam Melissa J. Grimm Kelly L. Singel Nonna Kolomeyevskaya Kevin J. Sexton Anupama Parameswaran Scott I. Abrams Kunle Odunsi Brahm H. Segal 《PloS one》2013,8(7)
The phagocyte NADPH oxidase generates superoxide anion and downstream reactive oxidant intermediates in response to infectious threat, and is a critical mediator of antimicrobial host defense and inflammatory responses. Myeloid-derived suppressor cells (MDSCs) are a heterogeneous population of immature myeloid cells that are recruited by cancer cells, accumulate locally and systemically in advanced cancer, and can abrogate anti-tumor immunity. Prior studies have implicated the phagocyte NADPH oxidase as being an important component promoting MDSC accumulation and immunosuppression in cancer. We therefore used engineered NADPH oxidase-deficient (p47phox−/−) mice to delineate the role of this enzyme complex in MDSC accumulation and function in a syngeneic mouse model of epithelial ovarian cancer. We found that the presence of NADPH oxidase did not affect tumor progression. The accumulation of MDSCs locally and systemically was similar in tumor-bearing wild-type (WT) and p47phox−/− mice. Although MDSCs from tumor-bearing WT mice had functional NADPH oxidase, the suppressive effect of MDSCs on ex vivo stimulated T cell proliferation was NADPH oxidase-independent. In contrast to other tumor-bearing mouse models, our results show that MDSC accumulation and immunosuppression in syngeneic epithelial ovarian cancer is NADPH oxidase-independent. We speculate that factors inherent to the tumor, tumor microenvironment, or both determine the specific requirement for NADPH oxidase in MDSC accumulation and function. 相似文献
100.
Yuanyuan Liu Min Ke Ming Yan Shuren Guo Mane Emily Mothobi Qiang Chen Fang Zheng 《Molecular biology reports》2011,38(2):1301-1307
GJA8 plays an important role in lens growth and transparency. Therefore, we hypothesized that two single nucleotide polymorphisms
(SNPs) in GJA8 might be associated with age-related cataract. We investigated the SNPs rs1495960 and rs9437983 using polymerase chain reaction-restriction
fragment length polymorphism (PCR-RFLP) and DNA sequencing, in 96 age-related cataract patients, and 208 gender- and age-matched
healthy controls. No significant differences between cases and controls were seen in genotype or allele distributions of rs1495960
(P > 0.05). The allele distribution of rs9437983 was different between cases and controls, but no difference was detected in
its genotype distribution. Cataract patients had a significantly lower G–G haplotype frequency (4.9% vs. 15.5%, P = 0.0001), and a significantly higher G–A haplotype frequency (45.6% vs. 36.4%, P = 0.030) than controls. Limiting to nuclear cataract cases significantly increased the differences between cases and controls
for G–G and G–A haplotypes. These results support that the GJA8 gene may be a novel susceptibility gene for age-related cataracts. 相似文献