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Trade in freshwater ornamental fish in South Africa is currently regulated by a ‘blacklist’ to prevent potentially invasive taxa from establishing in the country. Because its effective implementation requires accurate identification, the aim of the present study was to test whether DNA barcoding is a useful tool to identify freshwater fishes in the South African pet trade. A total of 351 aquarium fish specimens, representing 185 traded taxa, were sequenced for the mitochondrial COI barcoding marker in 2011 and 2012. Lake Malawi cichlids were treated as a single group due to a lack of resolution in their COI marker, resulting in a data set of 137 successfully sequenced taxa. The Barcode Of Life Database (BOLD) and GenBank were used for taxonomic assignment comparisons. The genetic identification matched the scientific name inferred from the trade name for 60 taxa (43.8%) using BOLD, and for 67 taxa (48.9%) using GenBank. A genetic ID could not be assigned in 47 (34.3%) cases using BOLD and in 37 cases (27%) using GenBank. Whereas DNA barcoding can be a useful tool to help identify imported freshwater fishes, it requires further development of publicly available databases to become a reliable means of identification. 相似文献
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Garnett JP Nguyen TT Moffatt JD Pelham ER Kalsi KK Baker EH Baines DL 《Journal of immunology (Baltimore, Md. : 1950)》2012,189(1):373-380
The glucose concentration of the airway surface liquid (ASL) is much lower than that in blood and is tightly regulated by the airway epithelium. ASL glucose is elevated in patients with viral colds, cystic fibrosis, chronic obstructive pulmonary disease, and asthma. Elevated ASL glucose is also associated with increased incidence of respiratory infection. However, the mechanism by which ASL glucose increases under inflammatory conditions is unknown. The aim of this study was to investigate the effect of proinflammatory mediators (PIMs) on the mechanisms governing airway glucose homeostasis in polarized monolayers of human airway (H441) and primary human bronchial epithelial (HBE) cells. Monolayers were treated with TNF-α, IFN-γ, and LPS during 72 h. PIM treatment led to increase in ASL glucose concentration and significantly reduced H441 and HBE transepithelial resistance. This decline in transepithelial resistance was associated with an increase in paracellular permeability of glucose. Similar enhanced rates of paracellular glucose flux were also observed across excised trachea from LPS-treated mice. Interestingly, PIMs enhanced glucose uptake across the apical, but not the basolateral, membrane of H441 and HBE monolayers. This increase was predominantly via phloretin-sensitive glucose transporter (GLUT)-mediated uptake, which coincided with an increase in GLUT-2 and GLUT-10 abundance. In conclusion, exposure of airway epithelial monolayers to PIMs results in increased paracellular glucose flux, as well as apical GLUT-mediated glucose uptake. However, uptake was insufficient to limit glucose accumulation in ASL. To our knowledge, these data provide for the first time a mechanism to support clinical findings that ASL glucose concentration is increased in patients with airway inflammation. 相似文献
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Sorting of proteins into multivesicular bodies: ubiquitin-dependent and -independent targeting 总被引:20,自引:0,他引:20
Yeast endosomes, like those in animal cells, invaginate their membranes to form internal vesicles. The resulting multivesicular bodies fuse with the vacuole, the lysosome equivalent, delivering the internal vesicles for degradation. We have partially purified internal vesicles and analysed their content. Besides the known component carboxypeptidase S (Cps1p), we identified a polyphosphatase (Phm5p), a presumptive haem oxygenase (Ylr205p/Hmx1p) and a protein of unknown function (Yjl151p/Sna3p). All are membrane proteins, and appear to be cargo molecules rather than part of the vesicle-forming machinery. We show that both Phm5p and Cps1p are ubiquitylated, and that in a doa4 mutant, which has reduced levels of free ubiquitin, Cps1p, Phm5p and Hmx1p are mis-sorted to the vacuolar membrane. Mutation of Lys 6 in the cytoplasmic tail of Phm5p disrupts its sorting, but sorting is restored, even in doa4 cells, by the biosynthetic addition of a single ubiquitin chain. In contrast, Sna3p enters internal vesicles in a ubiquitin-independent manner. Thus, ubiquitin acts as a signal for the partitioning of some, but not all, membrane proteins into invaginating endosomal vesicles. 相似文献
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Getting stuck in the Golgi 总被引:2,自引:0,他引:2
Pelham H 《Traffic (Copenhagen, Denmark)》2000,1(2):191-192
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Finn J Pelham D Walker MW Gluchowski C 《Bioorganic & medicinal chemistry letters》2002,12(13):1771-1774
A series of sulfonamide neuropeptide Y Y5 antagonists was optimized by preparation of sets of analogues using high-throughput synthesis and purification techniques. Testing of these compounds for their ability to bind to the human NPY Y5 receptor revealed separate SAR trends for sulfonamide amides versus sulfonamide ureas versus sulfonamide amines. By understanding these SAR trends, potent compounds were identified in all three series. 相似文献
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Bsd2 binds the ubiquitin ligase Rsp5 and mediates the ubiquitination of transmembrane proteins 总被引:4,自引:0,他引:4 下载免费PDF全文
Membrane proteins destined for the vacuolar or lysosomal lumen are typically ubiquitinated, the ubiquitin serving as a targeting signal for the multivesicular body pathway. The RING-domain ubiquitin ligase Tul1 is an integral membrane protein that modifies the yeast vacuolar enzyme carboxypeptidase S (Cps1), the polyphosphatase Ppn1/Phm5 and other proteins containing exposed hydrophilic residues within their transmembrane domains (TMDs). Here we show that Bsd2 provides an alternative ubiquitination mechanism for Cps1, Phm5 and other proteins. Bsd2 is a three-TMD protein with a PPXY motif that binds the HECT domain ubiquitin ligase Rsp5. It can thus act as a specific adaptor linking Rsp5 to its substrates. Like Tul1, the Bsd2 system recognises polar TMDs. Bsd2 also controls the vacuolar targeting of a manganese transporter and a mutant plasma membrane ATPase, and together with the ER retrieval receptor Rer1, it protects cells from stress. We suggest that Bsd2 has a wide role in the quality control of membrane proteins. Bsd2 is the yeast homologue of human NEDD4 binding protein N4WBP5, which may therefore have similar functions. 相似文献