| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0167-4781(03)00078-2 |
| P698 | PubMed publication ID | 12818432 |
| P2093 | author name string | James Bellingham | |
| Cheryl Y Gregory-Evans | |||
| Kevin Gregory-Evans | |||
| Margaret F Fox | |||
| P2860 | cites work | Cloning and characterization of a novel orphan G-protein-coupled receptor localized to human chromosome 2p16 | Q22010163 |
| Cone-rod dystrophy due to mutations in a novel photoreceptor-specific homeobox gene (CRX) essential for maintenance of the photoreceptor | Q24311359 | ||
| A new human selenium-containing protein. Purification, characterization, and cDNA sequence | Q24322453 | ||
| Genomic sequence, splicing, and gene annotation | Q24538898 | ||
| Functional characterization of the eukaryotic SECIS elements which direct selenocysteine insertion at UGA codons | Q24564454 | ||
| Basic local alignment search tool | Q25938991 | ||
| Selenoprotein W: a review | Q27863304 | ||
| Selenoprotein W is a glutathione-dependent antioxidant in vivo | Q27863315 | ||
| A transcript map of the chromosome 19q-arm glioma tumor suppressor region | Q28138027 | ||
| The I.M.A.G.E. Consortium: an integrated molecular analysis of genomes and their expression | Q28277156 | ||
| BLAST 2 Sequences, a new tool for comparing protein and nucleotide sequences | Q29547807 | ||
| Nonviral retroposons: genes, pseudogenes, and transposable elements generated by the reverse flow of genetic information | Q29618191 | ||
| Human LINE retrotransposons generate processed pseudogenes | Q29618327 | ||
| Processed pseudogenes: characteristics and evolution | Q29618329 | ||
| Human L1 retrotransposition: cis preference versus trans complementation | Q29618363 | ||
| Biology of mammalian L1 retrotransposons | Q29618630 | ||
| The "initiator" as a transcription control element | Q29619589 | ||
| Discovery of a functional retrotransposon of the murine phospholipid hydroperoxide glutathione peroxidase: chromosomal localization and tissue-specific expression pattern | Q30725102 | ||
| RNAs from all categories generate retrosequences that may be exapted as novel genes or regulatory elements | Q33778366 | ||
| Gene conversions and unequal crossovers between CYP21 (steroid 21-hydroxylase gene) and CYP21P involve different mechanisms | Q33802755 | ||
| Novel selenoproteins identified in silico and in vivo by using a conserved RNA structural motif | Q33884574 | ||
| Rat skeletal muscle selenoprotein W: cDNA clone and mRNA modulation by dietary selenium | Q33923871 | ||
| Evolutionarily different RNA motifs and RNA-protein complexes to achieve selenoprotein synthesis | Q33962827 | ||
| A survey of metazoan selenocysteine insertion sequences. | Q33962847 | ||
| Tissue distribution and influence of selenium status on levels of selenoprotein W. | Q34321302 | ||
| Localization of the human bona fide calmodulin genes CALM1, CALM2, and CALM3 to chromosomes 14q24-q31, 2p21.1-p21.3, and 19q13.2-q13.3. | Q34350139 | ||
| Conserved features of selenocysteine insertion sequence (SECIS) elements in selenoprotein W cDNAs from five species | Q34435260 | ||
| The impact of L1 retrotransposons on the human genome | Q34468340 | ||
| Sequence and tissue expression of a novel human carbonic anhydrase-related protein, CARP-2, mapping to chromosome 19q13.3. | Q34486220 | ||
| Nature and structure of human genes that generate retropseudogenes | Q35026861 | ||
| Transcription by RNA polymerase II: initiator-directed formation of transcription-competent complexes | Q35492241 | ||
| An RNA-binding protein recognizes a mammalian selenocysteine insertion sequence element required for cotranslational incorporation of selenocysteine | Q36567556 | ||
| Irradiation hybrids for human chromosome 11: characterization and use for generating region-specific markers in 11q14-q23. | Q36777848 | ||
| Selenoprotein W of rat muscle binds glutathione and an unknown small molecular weight moiety | Q36792764 | ||
| A protein binds the selenocysteine insertion element in the 3'-UTR of mammalian selenoprotein mRNAs | Q39715417 | ||
| The Alu Family of Dispersed Repetitive Sequences | Q40129419 | ||
| Repetitive sequences in eukaryotic DNA and their expression | Q40338293 | ||
| Functional differences between the human LINE retrotransposon and retroviral reverse transcriptases for in vivo mRNA reverse transcription | Q41082589 | ||
| Microsatellite markers for the cone-rod retinal dystrophy gene, CRX, on 19q13.3. | Q42666151 | ||
| Activation of the gamma E-crystallin pseudogene in the human hereditary Coppock-like cataract | Q48085460 | ||
| Dietary selenium increases selenoprotein W levels in rat tissues | Q48604277 | ||
| Selenoprotein W accumulates primarily in primate skeletal muscle, heart, brain and tongue | Q73551934 | ||
| P433 | issue | 2-3 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 140-146 | |
| P577 | publication date | 2003-06-01 | |
| P1433 | published in | Biochimica et Biophysica Acta | Q864239 |
| P1476 | title | Gene structure and tissue expression of human selenoprotein W, SEPW1, and identification of a retroprocessed pseudogene, SEPW1P. | |
| P478 | volume | 1627 |
| Q44455415 | Characterization and expression of chicken selenoprotein W. |
| Q21090938 | Composition and evolution of the vertebrate and mammalian selenoproteomes |
| Q48718421 | Effects of Selenoprotein W gene expression by selenium involves regulation of mRNA stability in chicken embryos neurons |
| Q54376084 | Effects of dietary selenium on selenoprotein W gene expression in the chicken immune organs. |
| Q33500333 | Promoter analysis of the rabbit POU5F1 gene and its expression in preimplantation stage embryos. |
| Q38159453 | Selenium biochemistry and its role for human health |
| Q39484755 | Selenoprotein W depletion induces a p53- and p21-dependent delay in cell cycle progression in RWPE-1 prostate epithelial cells |
| Q44669297 | Selenoprotein W gene expression in the gastrointestinal tract of chicken is affected by dietary selenium |
| Q45958168 | Selenoprotein W modulates control of cell cycle entry. |
| Q53069555 | The Intricate Role of Selenium and Selenoproteins in Erythropoiesis. |
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