myBaits Custom
Flexibility to enrich even highly divergent targets
Sensitivity to detect small and/or rare genetic features
Versatility to maximize performance even from degraded, damaged or any challenging sample types
- Product description
- Services
- Publications
myBaits Custom — Predesigned Community Panels
Jumpstart your next NGS project with Community Panels.
Over the past decade, myBaits® Custom hybridization capture kits from Daicel Arbor Biosciences have been successfully used in targeted NGS for a wide range of organisms, including human, plant, animal, bacteria, and viruses. myBaits kits are particularly well-suited to custom research applications due to their:
Flexibility to enrich even highly divergent targets
Sensitivity to detect small and/or rare genetic features
Versatility to maximize performance even from degraded, damaged or any challenging sample types
myBaits Custom Community Panel Collection
Listed below are a curated set of panels that are of broad interest to the research community, and are available for quick delivery.
| Category | Panel Description | Featured Publication(s) | Design ID |
| Bacteria | “Resistome” – Antimicrobial Resistance Genes (ARG) | Guitor et al. 2019, Antimicrobial Agents and Chemotherapy | D10024agAMR |
| Mycobacterium leprae – Leprosy | Furtwängler et al. 2020, BioTechniques | D10227MLPRA | |
| Treponema pallidum – Syphilis/Yaws | Furtwängler et al. 2020, BioTechniques and Knauf et al. 2018, Emerging Microbes & Infections | D10230TPAL1 | |
| Virus | ASFV – African Swine Fever Virus | Forth et al. 2019, Viruses | D10228ASFV1 |
| HBV – Hepatitis B | Ross et al. 2018, PLOS Pathogens | D10186hpHBV | |
| HIV – Human Immunodeficiency Virus | Colson et al. 2020, Scientific Reports | D10231cpHIV | |
| HSV-1 and HSV-2 – Herpesvirus | Shipley et al. 2019, Herpes Simplex Virus (Methods in Molecular Biology Book Series) | D10229HSV12 | |
| Human | FORCE (V1) – FORensic Capture Enrichment | Tilmar et al. 2021, Genes | D10020FORCE1 |
FORCE (V2) – FORensic Capture Enrichment | Coming Soon; contact Arbor for more details | D10223FRCv2 | |
| Plant | “Wheat Promoters” – Wheat regulatory elements panel (168 Mbp target space) | Zhang et al, 2022, Comprehensive and cost-effective genomic regulatory element sequencing for wheat, PAG XXIX Poster | D10107WtPrm |
Daicel Arbor Biosciences offers both custom probes and full NGS services to meet your project needs.
If you do not see a suitable option among these or our predesigned myBaits Expert panels, our scientists would be happy to design a fully custom targeted NGS panel and kit that will exactly meet your research needs.And if you’d like to outsource your targeted NGS project, our myReads lab services experts are always available to perform library preparations, target capture, sequencing, and analysis for any application.
All myBaits kits are for research-use only, and are not validated for diagnostic or therapeutic purposes.
End-to-End Solutions for Your Next NGS Project
Daicel Arbor Biosciences operates a full-services NGS laboratory that can handle any scale project for custom targeted sequencing or whole genome or whole transcriptome sequencing. We have processed thousands of DNA and RNA samples with an extremely high success rate, even for difficult and challenging samples. We can develop a new custom kit specifically tuned to your exact research targets of interest, or utilize one of our recommended predesigned baitsets for rapid processing.
In addition, our in-house team can now work directly with you to provide cloud-based and bespoke bioinformatics solutions. With years of NGS experience across a wide variety of applications, we can develop a custom solution to fit your expertise and research needs.
Featured Publications
The featured publications listed below correspond to the collection of Community Panels highlighted in the Overview tab.
Colson, P., C. Dhiver, C. Tamalet, J. Delerce, O.O. Glazunova, M. Gaudin, A. Levasseur, D. Raoult. (2020). Dramatic HIV DNA degradation associated with spontaneous HIV suppression and disease-free outcome in a young seropositive woman following her infection. Scientific Reports 10, 2548
Forth, J.H., L.F. Forth, J. King, O. Groza, A. Hübner, A.S. Olesen, D. Höper, L.K. Dixon, C.L. Netherton, T.B. Rasmussen, S. Blome, A. Pohlmann, M. Beer. (2019). A Deep-Sequencing Workflow for the Fast and Efficient Generation of High-Quality African Swine Fever Virus Whole-Genome Sequences. Viruses. 2019; 11(9):846
Guitor, A.K., A.R. Raphenya, J. Klunk, M. Kuch, B. Alcock, M.G. Surette, A.G. McArthur, H.N. Poinar, G.D. Wright. (2019). Capturing the Resistome: a Targeted Capture Method To Reveal Antibiotic Resistance Determinants in Metagenomes. Antimicrobial Agents and Chemotherapy 64(1): e01324-19
Furtwängler, A., J. Neukamm, L. Böhme, E. Reiter, M. Vollstedt, N. Arora, P. Singh, S.T. Cole, S. Knauf, S. Calvignac-Spencer, B. Krause-Kyora, J. Krause, V.J. Schuenemann, A. Herbig. (2020). Comparison of target enrichment strategies for ancient pathogen DNA. BioTechniques 2020 69:6, 455-459
Knauf, S., J.F. Gogarten, V.J. Schuenemann, H.M. De Nys, A. Düx, M. Strouhal, L. Mikalová, K.I. Bos, R. Armstrong, E.K. Batamuzi, I.S. Chuma, B. Davoust, G. Diatta, R.D. Fyumagwa, R.R. Kazwala, J.D. Keyyu, I.A.V. Lejora, A. Levasseur, H. Liu, M.A. Mayhew, O. Mediannikov, D. Raoult, R.M. Wittig, C. Roos, F.H. Leendertz, D. Šmajs, K. Nieselt, J. Krause, S. Calvignac-Spencer. (2018.) Nonhuman primates across sub-Saharan Africa are infected with the yaws bacterium Treponema pallidum subsp. pertenue. Emerging Microbes & Infections 7:1, 1-4
Ross, Z.P., J. Klunk, G. Fornaciari, V. Giuffra, S. Duchêne, A.T. Duggan, D. Poinar, M.W. Douglas, J-S. Eden, E.C. Holmes, H.N. Poinar. (2018). The paradox of HBV evolution as revealed from a 16th century mummy. PLOS Pathogens 14(1): e1006750
Shipley, M.M., M.M. Rathbun, M.L. Szpara. (2020). Oligonucleotide Enrichment of HSV-1 Genomic DNA from Clinical Specimens for Use in High-Throughput Sequencing. Herpes Simplex Virus – Methods in Molecular Biology Book Series.
