| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1031895527 |
| P356 | DOI | 10.1038/353273A0 |
| P953 | full work available at URL | http://www.nature.com/articles/353273a0 |
| http://www.nature.com/articles/353273a0.pdf | ||
| P698 | PubMed publication ID | 1832744 |
| P50 | author | Marla J. Berry | Q124360338 |
| John W. Harney | Q124360397 | ||
| P. Reed Larsen | Q124360632 | ||
| P2093 | author name string | S. J. Mandel | |
| Y. Y. Chen | |||
| J. D. Kieffer | |||
| L. Banu | |||
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| P433 | issue | 6341 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | L-selenocysteine | Q408663 |
| P304 | page(s) | 273-276 | |
| P577 | publication date | 1991-09-01 | |
| 1991-09-19 | |||
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Recognition of UGA as a selenocysteine codon in type I deiodinase requires sequences in the 3' untranslated region | |
| Recognition of UGA as a selenocysteine codon in Type I deiodinase requires sequences in the 3′ untranslated region | |||
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| Q43222202 | Crystal structure of the full-length bacterial selenocysteine-specific elongation factor SelB. |
| Q28511689 | Decoding apparatus for eukaryotic selenocysteine insertion |
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| Q36605533 | Does a role for selenium in DNA damage repair explain apparent controversies in its use in chemoprevention? |
| Q35221351 | Efficient incorporation of multiple selenocysteines involves an inefficient decoding step serving as a potential translational checkpoint and ribosome bottleneck |
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| Q56929361 | Eukaryotic Mechanisms of Selenocysteine Incorporation and Its Reconstitution In Vitro |
| Q28575130 | Eukaryotic initiation factor 4a3 is a selenium-regulated RNA-binding protein that selectively inhibits selenocysteine incorporation |
| Q38312314 | Eukaryotic selenocysteine incorporation follows a nonprocessive mechanism that competes with translational termination |
| Q40228541 | Eukaryotic selenocysteine inserting tRNA species support selenoprotein synthesis in Escherichia coli |
| Q36316623 | Eukaryotic selenoproteins and selenoproteomes |
| Q40622441 | Evidence that a polymorphism within the 3'UTR of glutathione peroxidase 4 is functional and is associated with susceptibility to colorectal cancer |
| Q33962827 | Evolutionarily different RNA motifs and RNA-protein complexes to achieve selenoprotein synthesis |
| Q36684605 | Expression and regulation of mouse selenoprotein P transcript variants differing in non-coding RNA |
| Q74436944 | Expression of the glutathione peroxidase gene lacking its 3' untranslated region |
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| Q43206181 | Functionality of mutations at conserved nucleotides in eukaryotic SECIS elements is determined by the identity of a single nonconserved nucleotide |
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| Q36311447 | Glutathione peroxidase 4 inhibits Wnt/β-catenin signaling and regulates dorsal organizer formation in zebrafish embryos. |
| Q36710816 | Hepatocyte nuclear factor 4alpha contributes to thyroid hormone homeostasis by cooperatively regulating the type 1 iodothyronine deiodinase gene with GATA4 and Kruppel-like transcription factor 9. |
| Q42651883 | Heterologous expression of archaeal selenoprotein genes directed by the SECIS element located in the 3' non-translated region |
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| Q48061984 | Human lipoprotein lipase last exon is not translated, in contrast to lower vertebrates |
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| Q28597716 | Lokiarchaeota Marks the Transition between the Archaeal and Eukaryotic Selenocysteine Encoding Systems |
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| Q28382759 | Nucleolin binds to a subset of selenoprotein mRNAs and regulates their expression |
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| Q56929381 | Purification, Redox Sensitivity, and RNA Binding Properties of SECIS-binding Protein 2, a Protein Involved in Selenoprotein Biosynthesis |
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| Q24670371 | SECIS elements in the coding regions of selenoprotein transcripts are functional in higher eukaryotes |
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| Q100737051 | SECISBP2 is a novel prognostic predictor that regulates selenoproteins in diffuse large B-cell lymphoma |
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| Q24541471 | Selenosugars are key and urinary metabolites for selenium excretion within the required to low-toxic range |
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| Q41333165 | Structure and function of the selenium translation element in the 3'-untranslated region of human cellular glutathione peroxidase mRNA. |
| Q27639924 | Structure of prokaryotic SECIS mRNA hairpin and its interaction with elongation factor SelB |
| Q35104849 | Studies of gene variants related to inflammation, oxidative stress, dyslipidemia, and obesity: implications for a nutrigenetic approach |
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| Q77685033 | Symmetry scheme for amino acid codons |
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| Q41985830 | Synthetic seleno-glutaredoxin 3 analogues are highly reducing oxidoreductases with enhanced catalytic efficiency |
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| Q41594719 | The 5' untranslated region of the human cellular glutathione peroxidase gene is indispensable for its expression in COS-7 cells |
| Q36662305 | The DEAD-box helicase eIF4A: paradigm or the odd one out? |
| Q24540142 | The SBP2 and 15.5 kD/Snu13p proteins share the same RNA binding domain: identification of SBP2 amino acids important to SECIS RNA binding |
| Q42755087 | The SBP2 protein central to selenoprotein synthesis contacts the human ribosome at expansion segment 7L of the 28S rRNA. |
| Q56929359 | The Selenium Transport Protein, Selenoprotein P, Requires Coding Sequence Determinants to Promote Efficient Selenocysteine Incorporation |
| Q55059610 | The Synergistic Effect of Serine with Selenocompounds on the Expression of SelP and GPx in HepG2 Cells. |
| Q28681055 | The central role of selenium in the biochemistry and ecology of the harmful pelagophyte, Aureococcus anophagefferens |
| Q41914387 | The class 2 selenophosphate synthetase gene of Drosophila contains a functional mammalian-type SECIS. |
| Q38868418 | The disulfide redox system of Schistosoma mansoni and the importance of a multifunctional enzyme, thioredoxin glutathione reductase |
| Q47832738 | The evolution of the genetic code revisited |
| Q51761088 | The expression of chicken selenoprotein W, selenocysteine-synthase (SecS), and selenophosphate synthetase-1 (SPS-1) in CHO-K1 cells. |
| Q24316942 | The human plasma glutathione peroxidase-encoding gene: organization, sequence and localization to chromosome 5q32 |
| Q40796480 | The human type 2 iodothyronine deiodinase is a selenoprotein highly expressed in a mesothelioma cell line |
| Q48197393 | The interactions between selenium and iodine deficiencies in man and animals |
| Q34212193 | The iodothyronine selenodeiodinases are thioredoxin-fold family proteins containing a glycoside hydrolase clan GH-A-like structure |
| Q26864476 | The methionine sulfoxide reduction system: selenium utilization and methionine sulfoxide reductase enzymes and their functions |
| Q24522475 | The microbial selenoproteome of the Sargasso Sea |
| Q27000485 | The molecular biology of selenocysteine |
| Q72620670 | The placental transfer and toxicity of selenite relative to cadmium in the human term perfused placenta |
| Q24537132 | The prokaryotic selenoproteome |
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| Q35990303 | Triplets! Unexpected structural similarity among the three enzymes that catalyze initiation and termination of thyroid hormone effects |
| Q38324538 | Two distinct SECIS structures capable of directing selenocysteine incorporation in eukaryotes |
| Q44088698 | Type 1 iodothyronine deiodinase in the house musk shrew (Suncus murinus, Insectivora: Soricidae): cloning and characterization of complementary DNA, unique tissue distribution and regulation by T(3). |
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