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The rice gene POLYAMINE UPTAKE TRANSPORTER1 (PUT1) was originally identified based on its homology to the polyamine uptake transporters LmPOT1 and TcPAT12 in Leishmania major and Trypanosoma cruzi, respectively. Here we show that five additional transporters from rice and Arabidopsis that cluster in the same clade as PUT1 all function as high affinity spermidine uptake transporters. Yeast expression assays of these genes confirmed that uptake of spermidine was minimally affected by 166 fold or greater concentrations of amino acids. Characterized polyamine transporters from both Arabidopsis thaliana and Oryza sativa along with the two polyamine transporters from L. major and T. cruzi were aligned and used to generate a hidden Markov model. This model was used to identify significant matches to proteins in other angiosperms, bryophytes, chlorophyta, discicristates, excavates, stramenopiles and amoebozoa. No significant matches were identified in fungal or metazoan genomes. Phylogenic analysis showed that some sequences from the haptophyte, Emiliania huxleyi, as well as sequences from oomycetes and diatoms clustered closer to sequences from plant genomes than from a homologous sequence in the red algal genome Galdieria sulphuraria, consistent with the hypothesis that these polyamine transporters were acquired by horizontal transfer from green algae. Leishmania and Trypansosoma formed a separate cluster with genes from other Discicristates and two Entamoeba species. We surmise that the genes in Entamoeba species were acquired by phagotrophy of Discicristates. In summary, phylogenetic and functional analysis has identified two clades of genes that are predictive of polyamine transport activity. 相似文献
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Orobanche hederae Duby and its host Hedera helix L. were collected in the North Italian Trentino-Südtirol region and analyzed for their content of polyacetylenes. Both, the host plant (Hedera) and the parasite (Orobanche) contained the polyacetylene falcarinol and two of its dehydroderivatives. The contents of polyacetylenes in Hedera decrease from roots via stems to leaves and contents in Orobanche are only about one-tenth of the contents in the Hedera roots it parasites on. Moreover, relative contents of the more polar polyacetylenes are higher in Orobanche than in Hedera, implying a bias toward the sequestration of more polar compounds. 相似文献
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C André Lévesque Henk Brouwer Liliana Cano John P Hamilton Carson Holt Edgar Huitema Sylvain Raffaele Gregg P Robideau Marco Thines Joe Win Marcelo M Zerillo Gordon W Beakes Jeffrey L Boore Dana Busam Bernard Dumas Steve Ferriera Susan I Fuerstenberg Claire MM Gachon Elodie Gaulin Francine Govers Laura Grenville-Briggs Neil Horner Jessica Hostetler Rays HY Jiang Justin Johnson Theerapong Krajaejun Haining Lin Harold JG Meijer Barry Moore Paul Morris Vipaporn Phuntmart Daniela Puiu Jyoti Shetty Jason E Stajich Sucheta Tripathy Stephan Wawra Pieter van West Brett R Whitty Pedro M Coutinho Bernard Henrissat Frank Martin Paul D Thomas Brett M Tyler Ronald P De Vries Sophien Kamoun Mark Yandell Ned Tisserat C Robin Buell 《Genome biology》2010,11(7):1-22
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Polyamines are nitrogenous compounds found in all eukaryotic and prokaryotic cells and absolutely essential for cell viability.
In plants, they regulate several growth and developmental processes and the levels of polyamines are also correlated with
the plant responses to various biotic and abiotic stresses. In plant cells, polyamines are synthesized in plastids and cytosol.
This biosynthetic compartmentation indicates that the specific transporters are essential to transport polyamines between
the cellular compartments. In the present study, a phylogenetic analysis was used to identify candidate polyamine transporters
in rice. A full-length cDNA rice clone AK068055 was heterologously expressed in the Saccharomyces cerevisiae spermidine uptake mutant, agp2∆. Radiological uptake and competitive inhibition studies with putrescine indicated that rice gene encodes a protein that
functioned as a spermidine-preferential transporter. In competition experiments with several amino acids at 25-fold higher
levels than spermidine, only methionine, asparagine, and glutamine were effective in reducing uptake of spermidine to 60%
of control rates. Based on those observations, this rice gene was named polyamine uptake transporter 1 (OsPUT1). Tissue-specific expression of OsPUT1 by semiquantitative RT-PCR showed that the gene was expressed in all tissues except seeds and roots. Transient expression
assays in onion epidermal cells and rice protoplasts failed to localize to a cellular compartment. The characterization of
the first plant polyamine transporter sets the stage for a systems approach that can be used to build a model to fully define
how the biosynthesis, degradation, and transport of polyamines in plants mediate developmental and biotic responses. 相似文献
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Angsana Keeratijarut Tassanee Lohnoo Thidarat Rujirawat Wanta Yingyong Thareerat Kalambaheti Shannon Miller Vipaporn Phuntumart Theerapong Krajaejun 《PloS one》2015,10(8)
The oomycete organism, Pythium insidiosum, is the etiologic agent of the life-threatening infectious disease called “pythiosis”. Diagnosis and treatment of pythiosis is difficult and challenging. Novel methods for early diagnosis and effective treatment are urgently needed. Recently, we reported a 74-kDa immunodominant protein of P. insidiosum, which could be a diagnostic target, vaccine candidate, and virulence factor. The protein was identified as a putative exo-1,3-ß-glucanase (Exo1). This study reports on genetic, immunological, and biochemical characteristics of Exo1. The full-length exo1 coding sequence (2,229 bases) was cloned. Phylogenetic analysis showed that exo1 is grouped with glucanase-encoding genes of other oomycetes, and is far different from glucanase-encoding genes of fungi. exo1 was up-regulated upon exposure to body temperature, and its gene product is predicted to contain BglC and X8 domains, which are involved in carbohydrate transport, binding, and metabolism. Based on its sequence, Exo1 belongs to the Glycoside Hydrolase family 5 (GH5). Exo1, expressed in E. coli, exhibited ß-glucanase and cellulase activities. Exo1 is a major intracellular immunoreactive protein that can trigger host immune responses during infection. Since GH5 enzyme-encoding genes are not present in human genomes, Exo1 could be a useful target for drug and vaccine development against this pathogen. 相似文献
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Automated and manual annotation of the ATP binding cassette (ABC) superfamily in the Phytophthora ramorum and P. sojae genomes has identified 135 and 136 members, respectively, indicating that this family is comparable in size to the Arabidopsis thaliana and rice genomes, and significantly larger than that of two fungal pathogens, Fusarium graminearum and Magnaporthe grisea. The high level of synteny between these oomycete genomes extends to the ABC superfamily, where 108 orthologues were identified
by phylogenetic analysis. The largest subfamilies include those most often associated with multidrug resistance. The P. ramorum genome contains 22 multidrug resistance-associated protein (MRP) genes and 49 pleiotropic drug resistance (PDR) genes, while
P. sojae contains 20 MRP and 49 PDR genes. Tandem duplication events in the last common ancestor appear to account for much of the
expansion of these subfamilies. Recent duplication events in the PDR and ABCG families in both the P. ramorum and the P. sojae genomes indicate that selective expansion of ABC transporters may still be occurring. In other kingdoms, subfamilies define
both domain arrangements and proteins having a common phylogenetic origin, but this is not the case for several subfamilies
in oomycetes. At least one ABCG type transporter is derived from a PDR transporter, while transporters in the ABCB-half family
cluster with transporters from bacterial, plant, and metazoan genomes. Additional examples of transporters that appear to
be derived from horizontal transfer events from bacterial genomes include components of transporters associated with iron
uptake and DNA repair.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
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Silymarin is a standardized extract from Silybum marianum seeds, known for its many skin benefits such as antioxidant, anti-inflammatory, and immunomodulatory properties. In this study, the potential of several microemulsion formulations for dermal delivery of silymarin was evaluated. The pseudo-ternary phase diagrams were constructed for the various microemulsion formulations which were prepared using glyceryl monooleate, oleic acid, ethyl oleate, or isopropyl myristate as the oily phase; a mixture of Tween 20®, Labrasol®, or Span 20® with HCO-40® (1:1 ratio) as surfactants; and Transcutol® as a cosurfactant. Oil-in-water microemulsions were selected to incorporate 2% w/w silymarin. After six heating–cooling cycles, physical appearances of all microemulsions were unchanged and no drug precipitation occurred. Chemical stability studies showed that microemulsion containing Labrasol® and isopropyl myristate stored at 40°C for 6 months showed the highest silybin remaining among others. The silybin remainings depended on the type of surfactant and were sequenced in the order of: Labrasol® > Tween 20® > Span 20®. In vitro release studies showed prolonged release for microemulsions when compared to silymarin solution. All release profiles showed the best fits with Higuchi kinetics. Non-occlusive in vitro skin permeation studies showed absence of transdermal delivery of silybin. The percentages of silybin in skin extracts were not significantly different among the different formulations (p > 0.05). Nevertheless, some silybin was detected in the receiver fluid when performing occlusive experiments. Microemulsions containing Labrasol® also were found to enhance silymarin solubility. Other drug delivery systems with occlusive effect could be further developed for dermal delivery of silymarin.Key words: dermal delivery, microemulsion, silybin, silymarin 相似文献
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Andreas Albert Vipaporn Sareedenchai Werner Heller Harald K. Seidlitz Christian Zidorn 《Oecologia》2009,160(1):1-8
Plants in alpine habitats are exposed to many environmental stresses, in particular temperature and radiation extremes. Recent
field experiments on Arnica montana L. cv. ARBO indicated pronounced altitudinal variation in plant phenolics. Ortho-diphenolics increased with altitude compared to other phenolic compounds, resulting in an increase in antioxidative capacity
of the tissues involved. Factors causing these variations were investigated by climate chamber (CC) experiments focusing on
temperature and ultraviolet (UV)-B radiation. Plants of A. montana L. cv. ARBO were grown in CCs under realistic climatic and radiation regimes. Key factors temperature and UV-B radiation
were altered between different groups of plants. Subsequently, flowering heads were analyzed by HPLC for their contents of
flavonoids and caffeic acid derivatives. Surprisingly, increased UV-B radiation did not trigger any change in phenolic metabolites
in Arnica. In contrast, a pronounced increase in the ratio of B-ring ortho-diphenolic (quercetin) compared to B-ring monophenolic (kaempferol) flavonols resulted from a decrease in temperature by
5°C in the applied climate regime. In conclusion, enhanced UV-B radiation is probably not the key factor triggering shifts
in the phenolic composition in Arnica grown at higher altitudes but rather temperature, which decreases with altitude. 相似文献