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compound bioactivity profile plots  (Bemis Inc)

 
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    Bemis Inc compound bioactivity profile plots
    Identification of tool compounds for ABL1. Panel ( A ) shows the search results from a sequence similarity search of ABL1. Only homologues with percentage identities >50% are selected to increase the chance of finding an active against ABL1 itself. Panel ( B ) shows the chemical space of good affinity compounds against ABL1 and selected homologues. Panel ( C ) displays only sub micromolar affinity <t>compound</t> structures. A search instigated using these compounds allows identification of likely selectivity across homologues. Panel ( D ) shows the <t>bioactivity</t> <t>profile</t> of these compounds. Compound identifiers are on the y -axis and target names on the x-axis. A blue dot represents a measured compound bioactivity and the darker the dot the higher the affinity of the compound against the target. This profile can be used to indicate the selectivity of the compounds against measured targets.
    Compound Bioactivity Profile Plots, supplied by Bemis Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/compound bioactivity profile plots/product/Bemis Inc
    Average 90 stars, based on 1 article reviews
    compound bioactivity profile plots - by Bioz Stars, 2026-03
    90/100 stars

    Images

    1) Product Images from "canSAR: an integrated cancer public translational research and drug discovery resource"

    Article Title: canSAR: an integrated cancer public translational research and drug discovery resource

    Journal: Nucleic Acids Research

    doi: 10.1093/nar/gkr881

    Identification of tool compounds for ABL1. Panel ( A ) shows the search results from a sequence similarity search of ABL1. Only homologues with percentage identities >50% are selected to increase the chance of finding an active against ABL1 itself. Panel ( B ) shows the chemical space of good affinity compounds against ABL1 and selected homologues. Panel ( C ) displays only sub micromolar affinity compound structures. A search instigated using these compounds allows identification of likely selectivity across homologues. Panel ( D ) shows the bioactivity profile of these compounds. Compound identifiers are on the y -axis and target names on the x-axis. A blue dot represents a measured compound bioactivity and the darker the dot the higher the affinity of the compound against the target. This profile can be used to indicate the selectivity of the compounds against measured targets.
    Figure Legend Snippet: Identification of tool compounds for ABL1. Panel ( A ) shows the search results from a sequence similarity search of ABL1. Only homologues with percentage identities >50% are selected to increase the chance of finding an active against ABL1 itself. Panel ( B ) shows the chemical space of good affinity compounds against ABL1 and selected homologues. Panel ( C ) displays only sub micromolar affinity compound structures. A search instigated using these compounds allows identification of likely selectivity across homologues. Panel ( D ) shows the bioactivity profile of these compounds. Compound identifiers are on the y -axis and target names on the x-axis. A blue dot represents a measured compound bioactivity and the darker the dot the higher the affinity of the compound against the target. This profile can be used to indicate the selectivity of the compounds against measured targets.

    Techniques Used: Sequencing



    Similar Products

    compound bioactivity profile plots  (Bemis Inc)
    90
    Bemis Inc compound bioactivity profile plots
    Identification of tool compounds for ABL1. Panel ( A ) shows the search results from a sequence similarity search of ABL1. Only homologues with percentage identities >50% are selected to increase the chance of finding an active against ABL1 itself. Panel ( B ) shows the chemical space of good affinity compounds against ABL1 and selected homologues. Panel ( C ) displays only sub micromolar affinity <t>compound</t> structures. A search instigated using these compounds allows identification of likely selectivity across homologues. Panel ( D ) shows the <t>bioactivity</t> <t>profile</t> of these compounds. Compound identifiers are on the y -axis and target names on the x-axis. A blue dot represents a measured compound bioactivity and the darker the dot the higher the affinity of the compound against the target. This profile can be used to indicate the selectivity of the compounds against measured targets.
    Compound Bioactivity Profile Plots, supplied by Bemis Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/compound bioactivity profile plots/product/Bemis Inc
    Average 90 stars, based on 1 article reviews
    compound bioactivity profile plots - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Identification of tool compounds for ABL1. Panel ( A ) shows the search results from a sequence similarity search of ABL1. Only homologues with percentage identities >50% are selected to increase the chance of finding an active against ABL1 itself. Panel ( B ) shows the chemical space of good affinity compounds against ABL1 and selected homologues. Panel ( C ) displays only sub micromolar affinity compound structures. A search instigated using these compounds allows identification of likely selectivity across homologues. Panel ( D ) shows the bioactivity profile of these compounds. Compound identifiers are on the y -axis and target names on the x-axis. A blue dot represents a measured compound bioactivity and the darker the dot the higher the affinity of the compound against the target. This profile can be used to indicate the selectivity of the compounds against measured targets.

    Journal: Nucleic Acids Research

    Article Title: canSAR: an integrated cancer public translational research and drug discovery resource

    doi: 10.1093/nar/gkr881

    Figure Lengend Snippet: Identification of tool compounds for ABL1. Panel ( A ) shows the search results from a sequence similarity search of ABL1. Only homologues with percentage identities >50% are selected to increase the chance of finding an active against ABL1 itself. Panel ( B ) shows the chemical space of good affinity compounds against ABL1 and selected homologues. Panel ( C ) displays only sub micromolar affinity compound structures. A search instigated using these compounds allows identification of likely selectivity across homologues. Panel ( D ) shows the bioactivity profile of these compounds. Compound identifiers are on the y -axis and target names on the x-axis. A blue dot represents a measured compound bioactivity and the darker the dot the higher the affinity of the compound against the target. This profile can be used to indicate the selectivity of the compounds against measured targets.

    Article Snippet: Molecular diversity can be obtained from the Bemis and Murcko frameworks, and cross reactivity can be visualized using the compound bioactivity profile plots ( D) Figure 4.

    Techniques: Sequencing