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90k customarray dna oligonucleotide library synthesis microarray  (CustomArray Inc)

 
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    CustomArray Inc 90k customarray dna oligonucleotide library synthesis microarray
    Domain structure of chimeric TFs and complexity-dependent classification for eLCR. Representation of an average chimera maintaining the proportion between the lengths of the different regions that integrate it. DBD-CORE are represented in orange, ENDS are represented in dark yellow, LNK in blue, signal peptides (SP) in light green, LBD in dark green, and OD in brown. a Not-to-scale representation of the joint between DBDs and LBDs together with OD. The number of domains of each kind incorporated into the assembly scheme as well as the maximum number of chimeras resulting from the eLCR are also represented. b Zoomed in simplified version of the joint between DBDs and LBDs. ENDS and LNKs occupy the center of the representation, as they were the regions incorporated in the eLCR through a collection of oligonucleotides. DBDs and LBDs (with and without SP) were introduced in the assembly as dsDNA fragments. The numbers below the different domains represent the number of <t>DNA</t> bases included into the oligonucleotides in the DNA <t>microarray</t> synthesis. The panel below represents the number of bases corresponding to each one of the domain types that needed to be introduced into the eLCR oligonucleotides depending on the assembly Class the chimera was assigned to. The Assembly Diagram represents, in the same color code that above, the final Supra and Infra oligonucleotides and the ligation events that needed to take place to reconstitute the final chimera. Finally, the percentage of “CORE” and total chimeras assigned to each one of the Classes, in the library design, is included on the right side of Panel B
    90k Customarray Dna Oligonucleotide Library Synthesis Microarray, supplied by CustomArray 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/90k customarray dna oligonucleotide library synthesis microarray/product/CustomArray Inc
    Average 90 stars, based on 1 article reviews
    90k customarray dna oligonucleotide library synthesis microarray - by Bioz Stars, 2026-06
    90/100 stars

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    1) Product Images from "Biosensor libraries harness large classes of binding domains for construction of allosteric transcriptional regulators"

    Article Title: Biosensor libraries harness large classes of binding domains for construction of allosteric transcriptional regulators

    Journal: Nature Communications

    doi: 10.1038/s41467-018-05525-6

    Domain structure of chimeric TFs and complexity-dependent classification for eLCR. Representation of an average chimera maintaining the proportion between the lengths of the different regions that integrate it. DBD-CORE are represented in orange, ENDS are represented in dark yellow, LNK in blue, signal peptides (SP) in light green, LBD in dark green, and OD in brown. a Not-to-scale representation of the joint between DBDs and LBDs together with OD. The number of domains of each kind incorporated into the assembly scheme as well as the maximum number of chimeras resulting from the eLCR are also represented. b Zoomed in simplified version of the joint between DBDs and LBDs. ENDS and LNKs occupy the center of the representation, as they were the regions incorporated in the eLCR through a collection of oligonucleotides. DBDs and LBDs (with and without SP) were introduced in the assembly as dsDNA fragments. The numbers below the different domains represent the number of DNA bases included into the oligonucleotides in the DNA microarray synthesis. The panel below represents the number of bases corresponding to each one of the domain types that needed to be introduced into the eLCR oligonucleotides depending on the assembly Class the chimera was assigned to. The Assembly Diagram represents, in the same color code that above, the final Supra and Infra oligonucleotides and the ligation events that needed to take place to reconstitute the final chimera. Finally, the percentage of “CORE” and total chimeras assigned to each one of the Classes, in the library design, is included on the right side of Panel B
    Figure Legend Snippet: Domain structure of chimeric TFs and complexity-dependent classification for eLCR. Representation of an average chimera maintaining the proportion between the lengths of the different regions that integrate it. DBD-CORE are represented in orange, ENDS are represented in dark yellow, LNK in blue, signal peptides (SP) in light green, LBD in dark green, and OD in brown. a Not-to-scale representation of the joint between DBDs and LBDs together with OD. The number of domains of each kind incorporated into the assembly scheme as well as the maximum number of chimeras resulting from the eLCR are also represented. b Zoomed in simplified version of the joint between DBDs and LBDs. ENDS and LNKs occupy the center of the representation, as they were the regions incorporated in the eLCR through a collection of oligonucleotides. DBDs and LBDs (with and without SP) were introduced in the assembly as dsDNA fragments. The numbers below the different domains represent the number of DNA bases included into the oligonucleotides in the DNA microarray synthesis. The panel below represents the number of bases corresponding to each one of the domain types that needed to be introduced into the eLCR oligonucleotides depending on the assembly Class the chimera was assigned to. The Assembly Diagram represents, in the same color code that above, the final Supra and Infra oligonucleotides and the ligation events that needed to take place to reconstitute the final chimera. Finally, the percentage of “CORE” and total chimeras assigned to each one of the Classes, in the library design, is included on the right side of Panel B

    Techniques Used: Microarray, Ligation



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    90k customarray dna oligonucleotide library synthesis microarray  (CustomArray Inc)
    90
    CustomArray Inc 90k customarray dna oligonucleotide library synthesis microarray
    Domain structure of chimeric TFs and complexity-dependent classification for eLCR. Representation of an average chimera maintaining the proportion between the lengths of the different regions that integrate it. DBD-CORE are represented in orange, ENDS are represented in dark yellow, LNK in blue, signal peptides (SP) in light green, LBD in dark green, and OD in brown. a Not-to-scale representation of the joint between DBDs and LBDs together with OD. The number of domains of each kind incorporated into the assembly scheme as well as the maximum number of chimeras resulting from the eLCR are also represented. b Zoomed in simplified version of the joint between DBDs and LBDs. ENDS and LNKs occupy the center of the representation, as they were the regions incorporated in the eLCR through a collection of oligonucleotides. DBDs and LBDs (with and without SP) were introduced in the assembly as dsDNA fragments. The numbers below the different domains represent the number of <t>DNA</t> bases included into the oligonucleotides in the DNA <t>microarray</t> synthesis. The panel below represents the number of bases corresponding to each one of the domain types that needed to be introduced into the eLCR oligonucleotides depending on the assembly Class the chimera was assigned to. The Assembly Diagram represents, in the same color code that above, the final Supra and Infra oligonucleotides and the ligation events that needed to take place to reconstitute the final chimera. Finally, the percentage of “CORE” and total chimeras assigned to each one of the Classes, in the library design, is included on the right side of Panel B
    90k Customarray Dna Oligonucleotide Library Synthesis Microarray, supplied by CustomArray 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/90k customarray dna oligonucleotide library synthesis microarray/product/CustomArray Inc
    Average 90 stars, based on 1 article reviews
    90k customarray dna oligonucleotide library synthesis microarray - by Bioz Stars, 2026-06
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Domain structure of chimeric TFs and complexity-dependent classification for eLCR. Representation of an average chimera maintaining the proportion between the lengths of the different regions that integrate it. DBD-CORE are represented in orange, ENDS are represented in dark yellow, LNK in blue, signal peptides (SP) in light green, LBD in dark green, and OD in brown. a Not-to-scale representation of the joint between DBDs and LBDs together with OD. The number of domains of each kind incorporated into the assembly scheme as well as the maximum number of chimeras resulting from the eLCR are also represented. b Zoomed in simplified version of the joint between DBDs and LBDs. ENDS and LNKs occupy the center of the representation, as they were the regions incorporated in the eLCR through a collection of oligonucleotides. DBDs and LBDs (with and without SP) were introduced in the assembly as dsDNA fragments. The numbers below the different domains represent the number of DNA bases included into the oligonucleotides in the DNA microarray synthesis. The panel below represents the number of bases corresponding to each one of the domain types that needed to be introduced into the eLCR oligonucleotides depending on the assembly Class the chimera was assigned to. The Assembly Diagram represents, in the same color code that above, the final Supra and Infra oligonucleotides and the ligation events that needed to take place to reconstitute the final chimera. Finally, the percentage of “CORE” and total chimeras assigned to each one of the Classes, in the library design, is included on the right side of Panel B

    Journal: Nature Communications

    Article Title: Biosensor libraries harness large classes of binding domains for construction of allosteric transcriptional regulators

    doi: 10.1038/s41467-018-05525-6

    Figure Lengend Snippet: Domain structure of chimeric TFs and complexity-dependent classification for eLCR. Representation of an average chimera maintaining the proportion between the lengths of the different regions that integrate it. DBD-CORE are represented in orange, ENDS are represented in dark yellow, LNK in blue, signal peptides (SP) in light green, LBD in dark green, and OD in brown. a Not-to-scale representation of the joint between DBDs and LBDs together with OD. The number of domains of each kind incorporated into the assembly scheme as well as the maximum number of chimeras resulting from the eLCR are also represented. b Zoomed in simplified version of the joint between DBDs and LBDs. ENDS and LNKs occupy the center of the representation, as they were the regions incorporated in the eLCR through a collection of oligonucleotides. DBDs and LBDs (with and without SP) were introduced in the assembly as dsDNA fragments. The numbers below the different domains represent the number of DNA bases included into the oligonucleotides in the DNA microarray synthesis. The panel below represents the number of bases corresponding to each one of the domain types that needed to be introduced into the eLCR oligonucleotides depending on the assembly Class the chimera was assigned to. The Assembly Diagram represents, in the same color code that above, the final Supra and Infra oligonucleotides and the ligation events that needed to take place to reconstitute the final chimera. Finally, the percentage of “CORE” and total chimeras assigned to each one of the Classes, in the library design, is included on the right side of Panel B

    Article Snippet: Oligonucleotide libraries were synthesized using standard phosphoramidite chemistry on a 90K CustomArray DNA Oligonucleotide Library Synthesis microarray using the B3 Synthesizer platform.

    Techniques: Microarray, Ligation