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In a combinatorial DNA library, multiple nucleotide positions can be mutated within the sequence and mutations at different positions can be combined with each other. Based on true rational design, combinatorial DNA libraries can achieve a maximum of diversity to screen for and identify synergistic beneficial mutations, e.g., affinity maturation via phage display libraries.
Besides randomization via degenerate codons (e.g., NNS), the sequences of GeneArt Combinatorial DNA Libraries can also be diversified using preassembled trinucleotide building blocks (trinucleotide mutagenesis (TRIM) technology) within the chemical synthesis process, to achieve significantly higher quality than by using conventional technologies. This allows for complete customization of the amino acid composition at randomized sites and thus avoids the occurrence of unwanted stop codons or amino acids. Achieve an extra level of QC by requesting optional next-generation sequencing of your combinatorial DNA libraries using the Thermo Scientific Ion Torrent sequencing platform (see case study below).
Figure 1. Comparison of sequence randomization using degenerate codons (e.g. NNS, N: all 4 bases at 25%; S: G & C at 50% each) vs. TRIM technology.
Please download the GeneArt Combinatorial Libraries Custom Service Requirements Form to submit project information. For secure data transfer please register at our customer portal.
Libraries made with conventional technology by the incorporation of degenerate codons (NNS, VNS, etc.) are also available. Please use the above-mentioned questionnaire for both technologies.
For further information regarding this service or the ordering process, please contact geneartsupport@thermofisher.com.
Sequencing of backbone region (100% correctness)
RT-PCR
Bulk sequencing
Peer group sequencing, NGS (optional)
Sequencing of backbone region (100% correctness)
RT-PCR
Bulk sequencing
Peer group sequencing, NGS (optional)
GeneArt Ready-to-Clone Combinatorial Library |
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GeneArt Cloned Combinatorial Library |
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All GeneArt Combinatorial Library products are sequenced and subjected to statistical analysis to help ensure that they meet the following quality benchmarks:
GeneArt Ready-to-Clone Combinatorial Library |
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GeneArt Cloned Combinatorial Library |
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All GeneArt Combinatorial Library products are sequenced and subjected to statistical analysis to help ensure that they meet the following quality benchmarks:
A GeneArt Combinatorial DNA Library from our production workflow was characterized using our current standard quality control protocol (“CE-sequenced”) and our novel next-generation sequencing (NGS)-based quality control for combinatorial DNA libraries (“NGS-sequenced”). The expected amino acid distribution is shown in the right-most panel (“expected”); in this case cysteines were not desired in the randomized positions. Our current standard QC protocol entails CE sequencing of at least 96 library clones and subsequent statistical analysis of the amino acid distribution at randomized positions. In this case, 304 variant clones were analyzed. In contrast, our novel NGS-based quality control for combinatorial DNA libraries on the Ion PGM (Personal Genome Machine) Sequencer allows for the analysis of tens of thousands of library clones. In this case, 41,625 clones were analyzed.
The table shows the percentage at which each amino acid appears in that position for 4 codons (X1 – X4). Note that in the CE-sequenced peer group the codons for two amino acids were not found, although they are present in the library, as shown by NGS sequencing (red and green circles).
The research leading to results regarding NGS quality control has received funding from the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement number 613931.
GeneArt Strings DNA Libraries | GeneArt Combinatorial Libraries | GeneArt Combinatorial Libraries with Next-generation sequencing | |
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Advantage | Cost efficient; fast | As described above | As described above |
Design flexibility | + Full IUPAC code available; however limited control over occurring amino acids | +++ TRIM technology allows for the accurate determination of occurring amino acids and ratios | +++ TRIM technology allows for the accurate determination of occurring amino acids and ratios |
Correctness | + Gene synthesis process used, more unintended mutations occur | +++ Error free template enables best possible correctness of results | +++ Error free template enables best possible correctness of results |
Complexity | <1011 | <1011 <1012 optional | <1011 <1012 optional |
Cost | + | ++ | +++ |
Production time | +++ 10–15 business days | + 4–6 weeks | + 4–6 weeks |
Learn more | See above | See above |
For Research Use Only. Not for use in diagnostic procedures.