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991.
Phosphorylation coexists with O‐GlcNAcylation in a plant virus protein and influences viral infection 下载免费PDF全文
Sandra Martínez‐Turiño José De Jesús Pérez Marta Hervás Rosana Navajas Sergio Ciordia Namrata D. Udeshi Jeffrey Shabanowitz Donald F. Hunt Juan Antonio García 《Molecular Plant Pathology》2018,19(6):1427-1443
Phosphorylation and O‐GlcNAcylation are two widespread post‐translational modifications (PTMs), often affecting the same eukaryotic target protein. Plum pox virus (PPV) is a member of the genus Potyvirus which infects a wide range of plant species. O‐GlcNAcylation of the capsid protein (CP) of PPV has been studied extensively, and some evidence of CP phosphorylation has also been reported. Here, we use proteomics analyses to demonstrate that PPV CP is phosphorylated in vivo at the N‐terminus and the beginning of the core region. In contrast with the ‘yin–yang’ mechanism that applies to some mammalian proteins, PPV CP phosphorylation affects residues different from those that are O‐GlcNAcylated (serines Ser‐25, Ser‐81, Ser‐101 and Ser‐118). Our findings show that PPV CP can be concurrently phosphorylated and O‐GlcNAcylated at nearby residues. However, an analysis using a differential proteomics strategy based on iTRAQ (isobaric tags for relative and absolute quantitation) showed a significant enhancement of phosphorylation at Ser‐25 in virions recovered from O‐GlcNAcylation‐deficient plants, suggesting that crosstalk between O‐GlcNAcylation and phosphorylation in PPV CP takes place. Although the preclusion of phosphorylation at the four identified phosphotarget sites only had a limited impact on viral infection, the mimicking of phosphorylation prevents PPV infection in Prunus persica and weakens infection in Nicotiana benthamiana and other herbaceous hosts, prompting the emergence of potentially compensatory second mutations. We postulate that the joint action of phosphorylation and O‐GlcNAcylation in the N‐proximal segment of CP allows a fine‐tuning of protein stability, providing the amount of CP required in each step of viral infection. 相似文献
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Guillem Estruch Ana Tomás-Vidal Asmaa M. El Nokrashy Raquel Monge-Ortiz Sergio Godoy-Olmos Miguel Jover Cerdá 《Archives of animal nutrition》2018,72(4):321-339
The search for new sustainable aquafeeds for the species with greater economic importance, such as the gilthead sea bream in Europe, is one of the main challenges in the aquaculture sector. The present work tested fishmeal replacement by a mixture of plant meals at different levels, as well as the use of marine by-products with attractant properties and high-quality protein in high plant protein diets. In order to do that, effects on growth and biometric parameters, digestibility, amino acid retention, excreted ammonia and proteases and amylase activity were assessed, using six different diets: FM100 (100% of protein provided by fishmeal), FM50 (50% of replacement), FM25 (75% of replacement) and FM0 (100% of replacement), but also FM25+ (75% of replacement and 15% of squid and krill meal inclusion), and FM0+ (100% of replacement and 15% of squid and krill meal inclusion). In group FM0, a clear impact of dietary changes was observed on growth, survival and ammonia excretion. Amino acid retention in group FM0+ was also significantly affected, which can be explained by the limited content of certain amino acids in this diet. On the other hand, no significant differences were observed in most biometric parameters or in enzyme activity. In conclusion, complete fishmeal replacement can be achieved by using a mixture of plant-based sources, but supplementation with complementary marine ingredients can prevent detrimental effects on growth, survival, nutritional parameters and protein metabolism. 相似文献
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Salvia madrigalii is described and illustrated as a new species to science. It is known for the municipality of Morelia, in the north central region of Michoacán, Mexico. It is one of the few Mexican species with 2 flowers per verticillaster and white corollas. We included line drawings, photographs of the plant and a distribution map. In addition, its relationships with the related species are discussed. 相似文献
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Julio C. Cristaldi María C. Gómez Pablo J. González Felix M. Ferroni Sergio D. Dalosto Alberto C. Rizzi María G. Rivas Carlos D. Brondino 《Biochimica et Biophysica Acta (BBA)/General Subjects》2018,1862(3):752-760
The Cys-His bridge as electron transfer conduit in the enzymatic catalysis of nitrite to nitric oxide by nitrite reductase from Sinorhizobium meliloti 2011 (SmNir) was evaluated by site-directed mutagenesis, steady state kinetic studies, UV–vis and EPR spectroscopic measurements as well as computational calculations. The kinetic, structural and spectroscopic properties of the His171Asp (H171D) and Cys172Asp (C172D) SmNir variants were compared with the wild type enzyme. Molecular properties of H171D and C172D indicate that these point mutations have not visible effects on the quaternary structure of SmNir. Both variants are catalytically incompetent using the physiological electron donor pseudoazurin, though C172D presents catalytic activity with the artificial electron donor methyl viologen (kcat = 3.9(4) s? 1) lower than that of wt SmNir (kcat = 240(50) s? 1). QM/MM calculations indicate that the lack of activity of H171D may be ascribed to the Nδ1H…OC hydrogen bond that partially shortcuts the T1–T2 bridging Cys-His covalent pathway. The role of the Nδ1H…OC hydrogen bond in the pH-dependent catalytic activity of wt SmNir is also analyzed by monitoring the T1 and T2 oxidation states at the end of the catalytic reaction of wt SmNir at pH 6 and 10 by UV–vis and EPR spectroscopies. These data provide insight into how changes in Cys-His bridge interrupts the electron transfer between T1 and T2 and how the pH-dependent catalytic activity of the enzyme are related to pH-dependent structural modifications of the T1–T2 bridging chemical pathway. 相似文献
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