排序方式: 共有34条查询结果,搜索用时 15 毫秒
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Linster CL Gomez TA Christensen KC Adler LN Young BD Brenner C Clarke SG 《The Journal of biological chemistry》2007,282(26):18879-18885
The first committed step in the biosynthesis of L-ascorbate from D-glucose in plants requires conversion of GDP-L-galactose to L-galactose 1-phosphate by a previously unidentified enzyme. Here we show that the protein encoded by VTC2, a gene mutated in vitamin C-deficient Arabidopsis thaliana strains, is a member of the GalT/Apa1 branch of the histidine triad protein superfamily that catalyzes the conversion of GDP-L-galactose to L-galactose 1-phosphate in a reaction that consumes inorganic phosphate and produces GDP. In characterizing recombinant VTC2 from A. thaliana as a specific GDP-L-galactose/GDP-D-glucose phosphorylase, we conclude that enzymes catalyzing each of the ten steps of the Smirnoff-Wheeler pathway from glucose to ascorbate have been identified. Finally, we identify VTC2 homologs in plants, invertebrates, and vertebrates, suggesting that a similar reaction is used widely in nature. 相似文献
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Irit Ben-Aharon Hadas Bar-Joseph Galia Tzarfaty Lital Kuchinsky Shulamith Rizel Salomon M Stemmer Ruth Shalgi 《Reproductive biology and endocrinology : RB&E》2010,8(1):20
Background
Young cancer patients may occasionally face infertility and premature gonadal failure. Apart from its direct effect on follicles and oocytes, chemotherapy may induce ovarian toxicity via an impact on the entire ovary. The role of doxorubicin in potential ovarian failure remains obscure. Our intention was to elucidate doxorubicin-related toxicity within ovaries. 相似文献6.
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Orr Schlesinger Rambabu Dandela Ashok Bhagat Raju Adepu Michael M. Meijler Lin Xia Lital Alfonta 《Biotechnology and bioengineering》2018,115(5):1355-1360
Regulation of Bio‐systems in a clean, simple, and efficient way is important for the design of smart bio‐interfaces and bioelectronic devices. Light as a non‐invasive mean to control the activity of a protein enables spatial and temporal control far superior to other chemical and physical methods. The ability to regulate the activity of a catalytic enzyme in a biofuel‐cell reduces the waste of resources and energy and turns the fuel‐cell into a smart and more efficient device for power generation. Here we present a microbial‐fuel‐cell based on a surface displayed, photo‐switchable alcohol dehydrogenase. The enzyme was modified near the active site using non‐canonical amino acids and a small photo‐reactive molecule, which enables reversible control of enzymatic activity. Depending on the modification site, the enzyme exhibits reversible behavior upon irradiation with UV and visible light, in both biochemical, and electrochemical assays. The change observed in power output of a microbial fuel cell utilizing the modified enzyme was almost five‐fold, between inactive and active states. 相似文献
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Niclas Olsson Wei Jiang Lital N. Adler Elizabeth D. Mellins Joshua E. Elias 《Molecular & cellular proteomics : MCP》2022,21(3):100204
Major histocompatibility complex class II (MHC-II) antigen presentation underlies a wide range of immune responses in health and disease. However, how MHC-II antigen presentation is regulated by the peptide-loading catalyst HLA-DM (DM), its associated modulator, HLA-DO (DO), is incompletely understood. This is due largely to technical limitations: model antigen-presenting cell (APC) systems that express these MHC-II peptidome regulators at physiologically variable levels have not been described. Likewise, computational prediction tools that account for DO and DM activities are not presently available. To address these gaps, we created a panel of single MHC-II allele, HLA-DR4-expressing APC lines that cover a wide range of DO:DM ratio states. Using a combined immunopeptidomic and proteomic discovery strategy, we measured the effects DO:DM ratios have on peptide presentation by surveying over 10,000 unique DR4-presented peptides. The resulting data provide insight into peptide characteristics that influence their presentation with increasing DO:DM ratios. These include DM sensitivity, peptide abundance, binding affinity and motif, peptide length, and choice of binding register along the source protein. These findings have implications for designing improved HLA-II prediction algorithms and research strategies for dissecting the variety of functions that different APCs serve in the body. 相似文献
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Liang Xiang Kathryn Moncivais Faqin Jiang Blake Willams Lital Alfonta Zhiwen J. Zhang 《PloS one》2013,8(7)
The ability to site-specifically incorporate unnatural amino acids (UAAs) into proteins is a powerful tool in protein engineering. While dozens of UAAs have been successfully introduced into proteins expressed by Escherichia coli cells, it has been much more challenging to create tRNA and tRNA-Synthetase pairs that enable UAAs incorporation, for use in mammalian systems. By altering the orthogonality properties of existing unnatural pairs, previously evolved pairs for use in E. coli could be used in mammalian cells. This would bypass the cumbersome step of having to evolve mutant synthetases and would allow for the rapid development of new mammalian pairs. A major limitation to the amount of UAA-containing proteins that can be expressed in the cell is the availability of UAA-charged orthogonal suppressor tRNA. By using a natural mammalian tRNA promoter, the amount of functional suppressor tRNA can be greatly increased. Furthermore, increasing recognition of the suppressor tRNA by the mutant synthetase will ultimately lead to the appearance of more UAA-charged tRNA. 相似文献