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31.
Introducing an algal carbon‐concentrating mechanism into higher plants: location and incorporation of key components 下载免费PDF全文
Nicky Atkinson Doreen Feike Luke C. M. Mackinder Moritz T. Meyer Howard Griffiths Martin C. Jonikas Alison M. Smith Alistair J. McCormick 《Plant biotechnology journal》2016,14(5):1302-1315
Many eukaryotic green algae possess biophysical carbon‐concentrating mechanisms (CCMs) that enhance photosynthetic efficiency and thus permit high growth rates at low CO2 concentrations. They are thus an attractive option for improving productivity in higher plants. In this study, the intracellular locations of ten CCM components in the unicellular green alga Chlamydomonas reinhardtii were confirmed. When expressed in tobacco, all of these components except chloroplastic carbonic anhydrases CAH3 and CAH6 had the same intracellular locations as in Chlamydomonas. CAH6 could be directed to the chloroplast by fusion to an Arabidopsis chloroplast transit peptide. Similarly, the putative inorganic carbon (Ci) transporter LCI1 was directed to the chloroplast from its native location on the plasma membrane. CCP1 and CCP2 proteins, putative Ci transporters previously reported to be in the chloroplast envelope, localized to mitochondria in both Chlamydomonas and tobacco, suggesting that the algal CCM model requires expansion to include a role for mitochondria. For the Ci transporters LCIA and HLA3, membrane location and Ci transport capacity were confirmed by heterologous expression and H14CO3‐ uptake assays in Xenopus oocytes. Both were expressed in Arabidopsis resulting in growth comparable with that of wild‐type plants. We conclude that CCM components from Chlamydomonas can be expressed both transiently (in tobacco) and stably (in Arabidopsis) and retargeted to appropriate locations in higher plant cells. As expression of individual Ci transporters did not enhance Arabidopsis growth, stacking of further CCM components will probably be required to achieve a significant increase in photosynthetic efficiency in this species. 相似文献
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Soumitra Paul Chowdhury Doreen Babin Martin Sandmann Samuel Jacquiod Loreen Sommermann Søren Johannes Sørensen Andreas Fliessbach Paul Mäder Joerg Geistlinger Kornelia Smalla Michael Rothballer Rita Grosch 《Environmental microbiology》2019,21(7):2426-2439
Long-term agricultural fertilization strategies gradually change soil properties including the associated microbial communities. Cultivated crops recruit beneficial microbes from the surrounding soil environment via root exudates. In this study, we aimed to investigate the effects of long-term fertilization strategies across field sites on the rhizosphere prokaryotic (Bacteria and Archaea) community composition and plant performance. We conducted growth chamber experiments with lettuce (Lactuca sativa L.) cultivated in soils from two long-term field experiments, each of which compared organic versus mineral fertilization strategies. 16S rRNA gene amplicon sequencing revealed the assemblage of a rhizosphere core microbiota shared in all lettuce plants across soils, going beyond differences in community composition depending on field site and fertilization strategies. The enhanced expression of several plant genes with roles in oxidative and biotic stress signalling pathways in lettuce grown in soils with organic indicates an induced physiological status in plants. Lettuce plants grown in soils with different fertilization histories were visibly free of stress symptoms and achieved comparable biomass. This suggests a positive aboveground plant response to belowground plant–microbe interactions in the rhizosphere. Besides effects of fertilization strategy and field site, our results demonstrate the crucial role of the plant in driving rhizosphere microbiota assemblage. 相似文献
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Schöneberg T Hermsdorf T Engemaier E Engel K Liebscher I Thor D Zierau K Römpler H Schulz A 《Purinergic signalling》2007,3(4):255-268
Metabotropic pyrimidine and purine nucleotide receptors (P2Y receptors) belong to the superfamily of G protein-coupled receptors
(GPCR). They are distinguishable from adenosine receptors (P1) as they bind adenine and/or uracil nucleotide triphosphates
or diphosphates depending on the subtype. Over the past decade, P2Y receptors have been cloned from a variety of tissues and
species, and as many as eight functional subtypes have been characterized. Most recently, several members of the P2Y12-like receptor group, which includes the clopidogrel-sensitive ADP receptor P2Y12, have been deorphanized. The P2Y12-like receptor group comprises several structurally related GPCR which, however, display heterogeneous agonist specificity
including nucleotides, their derivatives, and lipids. Besides the established function of P2Y12 in platelet activation, expression in macrophages, neuronal and glial cells as well as recent results from functional studies
implicate that several members of this group may have specific functions in neurotransmission, inflammation, chemotaxis, and
response to tissue injury. This review focuses specifically on the structure-function relation and shortly summarizes some
aspects of the physiological relevance of P2Y12-like receptor members. 相似文献
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Igor Prudovsky Damien Carter Doreen Kacer Monica Palmeri Tee Soul Chloe Kumpel Kathleen Pyburn Karyn Barrett Victoria DeMambro Ilya Alexandrov Irina Brandina Robert Kramer Joseph Rappold 《Journal of cellular physiology》2019,234(11):19121-19129
Damage-associated molecular patterns, including mitochondrial DNA (mtDNA) are released during hemorrhage resulting in the development of endotheliopathy. Tranexamic acid (TXA), an antifibrinolytic drug used in hemorrhaging patients, enhances their survival despite the lack of a comprehensive understanding of its cellular mechanisms of action. The present study is aimed to elucidate these mechanisms, with a focus on mitochondria. We found that TXA inhibits the release of endogenous mtDNA from granulocytes and endothelial cells. Furthermore, TXA attenuates the loss of the endothelial monolayer integrity induced by exogenous mtDNA. Using the Seahorse XF technology, it was demonstrated that TXA strongly stimulates mitochondrial respiration. Studies using Mitotracker dye, cells derived from mito-QC mice, and the ActivSignal IPAD assay, indicate that TXA stimulates biogenesis of mitochondria and inhibits mitophagy. These findings open the potential for improvement of the strategies of TXA applications in trauma patients and the development of more efficient TXA derivatives. 相似文献
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Paal J Henselewski H Muth J Meksem K Menéndez CM Salamini F Ballvora A Gebhardt C 《The Plant journal : for cell and molecular biology》2004,38(2):285-297
The endoparasitic root cyst nematode Globodera rostochiensis causes considerable damage in potato cultivation. In the past, major genes for nematode resistance have been introgressed from related potato species into cultivars. Elucidating the molecular basis of resistance will contribute to the understanding of nematode-plant interactions and assist in breeding nematode-resistant cultivars. The Gro1 resistance locus to G. rostochiensis on potato chromosome VII co-localized with a resistance-gene-like (RGL) DNA marker. This marker was used to isolate from genomic libraries 15 members of a closely related candidate gene family. Analysis of inheritance, linkage mapping, and sequencing reduced the number of candidate genes to three. Complementation analysis by stable potato transformation showed that the gene Gro1-4 conferred resistance to G. rostochiensis pathotype Ro1. Gro1-4 encodes a protein of 1136 amino acids that contains Toll-interleukin 1 receptor (TIR), nucleotide-binding (NB), leucine-rich repeat (LRR) homology domains and a C-terminal domain with unknown function. The deduced Gro1-4 protein differed by 29 amino acid changes from susceptible members of the Gro1 gene family. Sequence characterization of 13 members of the Gro1 gene family revealed putative regulatory elements and a variable microsatellite in the promoter region, insertion of a retrotransposon-like element in the first intron, and a stop codon in the NB coding region of some genes. Sequence analysis of RT-PCR products showed that Gro1-4 is expressed, among other members of the family including putative pseudogenes, in non-infected roots of nematode-resistant plants. RT-PCR also demonstrated that members of the Gro1 gene family are expressed in most potato tissues. 相似文献
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Osmosensor ProP of Escherichia coli responds to the concentration,chemistry, and molecular size of osmolytes in the proteoliposome lumen 总被引:2,自引:0,他引:2
Transporter ProP of Escherichia coli mediates the cellular accumulation of organic zwitterions in response to increased extracellular osmolality. We compared and characterized the osmoregulation of ProP activity in cells and proteoliposomes to define the osmotic shift-induced cellular change(s) to which ProP responds. ProP-(His)(6) activity in cells and proteoliposomes was correlated with medium osmolality, not osmotic shift, turgor pressure, or membrane strain. Both K(M) and V(max) for proline uptake via ProP-(His)(6) increased with increasing medium osmolality, as would be expected if osmolality controls the proportions of transporter with inactive and active conformations. The osmolality yielding half-maximal ProP-(His)(6) activity was higher in proteoliposomes than in cells. The osmolality response of ProP is also attenuated in bacteria lacking soluble protein ProQ. Indeed, the catalytic constant (k(cat)) for ProP-(His)(6) in proteoliposomes approximated that of ProP in intact bacteria lacking ProQ. Thus, the proteoliposome system may replicate a primary osmosensory response that can be further amplified by ProQ. ProP-(His)(6) is designated as an osmosensor because its activity is dependent on the osmolality, but not the composition, of the assay medium to which the cell surface is exposed. In contrast, ProP-(His)(6) activity was dependent on both the osmolality and the composition of the lumen in osmolyte-loaded proteoliposomes. For proteoliposomes containing inorganic salts, glucose, or poly(ethylene glycol) 503, transporter activity correlated with total lumenal cation concentration. In contrast, for proteoliposomes loaded with larger poly(ethylene glycol)s, the osmolality, the lumenal cation concentration, and the lumenal ionic strength at half-maximal transporter activity decreased systematically with poly(ethylene glycol) radius of gyration (range 0.8-1.8 nm). These data suggest that ProP-(His)(6) responds to osmotically induced changes in both cytoplasmic K(+) levels and the concentration of cytoplasmic macromolecules. 相似文献