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  1. Analyzed Page
  2. Matching Content Categories
  3. CMS
  4. Monthly Traffic Estimate
  5. How Does Ncbi.nlm.nih.gov Make Money
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  7. Topics
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We began analyzing https://pmc.ncbi.nlm.nih.gov/articles/PMC4101630/, but it redirected us to https://pmc.ncbi.nlm.nih.gov/articles/PMC4101630/. The analysis below is for the second page.

Title[redir]:
Selenoproteins: Molecular Pathways and Physiological Roles - PMC
Description:
Selenium is an essential micronutrient with important functions in human health and relevance to several pathophysiological conditions. The biological effects of selenium are largely mediated by selenium-containing proteins (selenoproteins) that are ...

Matching Content Categories {πŸ“š}

  • Science
  • Fitness & Wellness
  • Education

Content Management System {πŸ“}

What CMS is ncbi.nlm.nih.gov built with?

Custom-built

No common CMS systems were detected on Ncbi.nlm.nih.gov, and no known web development framework was identified.

Traffic Estimate {πŸ“ˆ}

What is the average monthly size of ncbi.nlm.nih.gov audience?

🌠 Phenomenal Traffic: 5M - 10M visitors per month


Based on our best estimate, this website will receive around 5,000,019 visitors per month in the current month.
However, some sources were not loaded, we suggest to reload the page to get complete results.

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How Does Ncbi.nlm.nih.gov Make Money? {πŸ’Έ}

We're unsure how the site profits.

Many websites are intended to earn money, but some serve to share ideas or build connections. Websites exist for all kinds of purposes. This might be one of them. Ncbi.nlm.nih.gov might be making money, but it's not detectable how they're doing it.

Keywords {πŸ”}

google, scholar, pubmed, doi, selenoprotein, free, pmc, sec, article, protein, selenoproteins, gpx, proteins, biol, secis, gladyshev, selenocysteine, role, hatfield, function, selenium, cell, mice, human, chem, expression, mammalian, involved, msrb, cys, sbp, reductase, uga, glutathione, trnasersec, elements, regulation, binding, shown, gene, cancer, thioredoxin, synthesis, activity, functions, selp, addition, cells, sep, found,

Topics {βœ’οΈ}

gly-cys-sec-gly redox-active center o-phosphoseryl-trna[ser]sec intermediates characteristic gly-cys-sec-gly motif o-phosphoseryl-trna[ser]sec attacks pstk discriminates ser-trna[ser]sec ser-cys-cys-ser cooh-terminal sequence o-phosphoseryl-trna[ser]sec intermediate conserved cys-x-x-sec motif species formed phosphoseryl-trna[ser]sec o-phosphoseryl-trna[ser]sec synthesized reduce free methionine-r-sulfoxide gly-cys-sec-gly motif free methionine-r-sulfoxide reductase phosphoseryl-trna[ser]sec kinase o-phosphoseryl-trna[ser]sec cys-x-x-sec motif reduce methionine-r-sulfoxide back bind phosphoseryl-trna[ser]sec recruits sec-trna[ser]sec o-phosphoseryl-trna kinase free methionine-s-sulfoxide ser-cys-cys-ser tetrapeptide makes cys-trna[ser]sec charging trna[ser]sec accounts stereospecific methionine-r-sulfoxide reductase mutant sec-trna[ser]sec Ξ±-l-iduronic acid residues sonic hedgehog-dependent decrease cooh-terminal rna-binding domain ser-cys-cys-ser motif mammals reduce methionine-s-sulfoxide designated phosphoseryl-trna kinase sec-rich cooh-terminal region major trna[ser]sec isoforms selenocysteine trna[ser]sec population high-fat-diet induced obesity selenocysteine trna[ser]sec aminoacylation pmc beta search progressive cerebello-cerebral atrophy trna[ser]sec isoforms including stranded Ξ²-sheet surrounded aar-sequence-specific binding proteins sonic hedgehog-dependent overexpression designated sec trna[ser]sec form seryl-trna[ser]sec selaΒ·trna[ser]sec complex sec-trna[ser]sec synthesis specific signal-mediated retrieval selenocysteine-inserting trna-species ribosome-dependent gtp hydrolysis

Questions {❓}

  • 1) What are the specific functions and regulation of the remaining human selenoproteins?
  • 10) What are the mechanisms for the uptake, detoxification, and excretion of the various chemical forms of Se?
  • 11) What is the importance of low-molecular-weight Se compounds versus selenoproteins in cancer prevention and promotion, as well as in other effects of Se on human health?
  • 2) Why is Sec used in proteins, and what unique properties of Se provide advantages for the specific functions of Sec-containing proteins?
  • 3) How did the selenoprotein synthesis machinery evolve extending the genetic code beyond the canonical 20 amino acids?
  • 4) What is the identity of the methylase involved in Um34 synthesis?
  • 5) What is the regulation and stoichiometry of the proteins involved in the selenoprotein synthesis, including eEFSec, SBP2, L30, eIF4a3, and nucleolin in mammalian cells?
  • 6) What roles do SPS1 and SBP2L proteins, paralogs of SPS2 and SBP2, respectively, play in selenoprotein synthesis?
  • 7) What is the role of the highly conserved AAR motif in the apical region of the SECIS element?
  • 8) What are the effects of different polymorphic variants of selenoprotein genes found in human populations, and could these selenoprotein allelic variants play a role in pathophysiological states?
  • 9) Which specific human genotypes and segments of the human population can benefit from dietary Se supplementation?
  • Active sites of thioredoxin reductases: why selenoproteins?
  • How do organisms differentiate between the different functions of the UGA codon?
  • Identification of a novel selD homolog from eukaryotes, bacteria, and archaea: is there an autoregulatory mechanism in selenocysteine metabolism?
  • Is there a twenty third amino acid in the genetic code?
  • Nematode selenoproteome: the use of the selenocysteine insertion system to decode one codon in an animal genome?
  • Selenoproteins: what unique properties can arise with selenocysteine in place of cysteine?
  • The fact that Sec-containing human TR1 and Cys-containing DmTR1 have comparable catalytic efficiencies raises the question: What catalytic advantages are provided by energetically costly Sec in Se-containing enzymes?

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