37 research outputs found

    Within the Confines of the Law: Abortion and a Substantive Rhetoric of Liberty

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    Generalization through similarity: motif discourse in the discovery and elaboration of zinc finger proteins-2

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    <p><b>Copyright information:</b></p><p>Taken from "Generalization through similarity: motif discourse in the discovery and elaboration of zinc finger proteins"</p><p>http://www.j-biomed-discovery.com/content/2/1/5</p><p>Journal of Biomedical Discovery and Collaboration 2007;2():5-5.</p><p>Published online 3 Oct 2007</p><p>PMCID:PMC2225388.</p><p></p>ed in nine rows to show extent of repetition of repeat units. Letters below rectangle indicate consensus sequence derived by Miller, McLachlan, and Klug (1985); dashes in consensus sequence indicate positions of no consensus. Shaded letters highlight acids that match the consensus sequence; letters in small gray rectangles indicate acids that do not match the consensus sequence but match at least one other acid in that position; unshaded letters match neither the consensus sequence nor any other acid. Blanks indicate gaps in the alignment, with the gaps positioned to maximize match of surrounding acids with the consensus sequence. Asterisks do not represent acids but indicate positions at which "insertions" commonly occur. Adapted from Figure 3 of Miller, McLachlan, and Klug (1985). B: Model of the arrangement of amino acids 103 to 204 in transcription factor IIIA of oocytes. Three complete "zinc fingers" are shown. Adapted from Figure 4 of Miller, McLachlan, and Klug (1985). Note that the amino acids that most consistently match the consensus sequence in A are those that serve as ligands with zinc in B

    Generalization through similarity: motif discourse in the discovery and elaboration of zinc finger proteins-1

    No full text
    <p><b>Copyright information:</b></p><p>Taken from "Generalization through similarity: motif discourse in the discovery and elaboration of zinc finger proteins"</p><p>http://www.j-biomed-discovery.com/content/2/1/5</p><p>Journal of Biomedical Discovery and Collaboration 2007;2():5-5.</p><p>Published online 3 Oct 2007</p><p>PMCID:PMC2225388.</p><p></p>s of the mean values for those distributions. Similarity-based characterization of these populations focuses on the distributions, whereas identity-based characterization focuses on the means and treats the distribution as noise or as aberrant values

    Generalization through similarity: motif discourse in the discovery and elaboration of zinc finger proteins-0

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    <p><b>Copyright information:</b></p><p>Taken from "Generalization through similarity: motif discourse in the discovery and elaboration of zinc finger proteins"</p><p>http://www.j-biomed-discovery.com/content/2/1/5</p><p>Journal of Biomedical Discovery and Collaboration 2007;2():5-5.</p><p>Published online 3 Oct 2007</p><p>PMCID:PMC2225388.</p><p></p>ed in nine rows to show extent of repetition of repeat units. Letters below rectangle indicate consensus sequence derived by Miller, McLachlan, and Klug (1985); dashes in consensus sequence indicate positions of no consensus. Shaded letters highlight acids that match the consensus sequence; letters in small gray rectangles indicate acids that do not match the consensus sequence but match at least one other acid in that position; unshaded letters match neither the consensus sequence nor any other acid. Blanks indicate gaps in the alignment, with the gaps positioned to maximize match of surrounding acids with the consensus sequence. Asterisks do not represent acids but indicate positions at which "insertions" commonly occur. Adapted from Figure 3 of Miller, McLachlan, and Klug (1985). B: Model of the arrangement of amino acids 103 to 204 in transcription factor IIIA of oocytes. Three complete "zinc fingers" are shown. Adapted from Figure 4 of Miller, McLachlan, and Klug (1985). Note that the amino acids that most consistently match the consensus sequence in A are those that serve as ligands with zinc in B
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