Dear Dr. [CUSTOMFIELD1],
Does your current work require the generation of custom monoclonal antibodies? If so, we would be glad to perform this tedious and time-consuming task on your behalf.
We understand that people may designed/ordered one or two antigens for antibodies production, after 5-7 months of passionately waiting and testing, none of them really works well. They may have to wait another half a year for another shot, with finger crossed. We are very confident that our multiple antigens library strategy can greatly change this frustration.
Our idea is very straight-forward, we normally use a number of antigens (as many as 20 protein fragments and/or peptides) instead of just one or two, the diverse antigens may cover all the best possible regions of the target protein for antibody production, thus almost maximize the successful rate of developing well-performing antibodies. This strategy is especially helpful for the “difficult” proteins like membrane proteins, nucleoprotein and high-end applications such as ChIP and flow cytometry.
With our revolutionary techniques, within 3 months, by simply sending us the protein sequence, you will receive the tailor-made antibodies at only a fraction of current cost (e.g. USD1799 for 4-8 mAbs against 4 peptides of a protein). If you plan to raise antibodies against any protein target, please feel free to email me a sequence or accession number for an evaluation. Again, thank you for your interest. I wish you good luck with your work, and look forward to hearing from you.
Custom antibody with application success in mind
Protein FamilyEnd-usesRecommend PackageSuccessful Case
Membrane proteins (receptors, ion channels), Kinases, Regulatory proteins, Transcription factorsWBInput: 10 peptide antigens
Output: ~20 mAbs
Klfd (transcription factor):
Blood 113, 1340-1349
IF, IHCInput: 7 peptide + 1 protein antigens
Output: ~22 mAbs
ASH-2 (member of H3K4me3 complex):
Nature 466, 383-387
IP/ChIP
FC
Input: 11 peptide + 1 protein antigens
Output: ~30 mAbs
TCP (transcription factor):
The Plant Journal 71, 99-107
Cytoskeleton, Structural proteins, Enzymes, Heat-shock proteinsWBInput: 6 peptide antigens
Output: ~12 mAbs
VP5(viral outer shell protein)
Virology Journal 8:132
IF, IHCInput: 10 peptide antigens
Output: ~20 mAbs
zebrafish Raldh2 (de-hydrogenase):
Nature 464, 601-605
IP/ChIP
FC
Input: 7 peptide + 1 protein antigens
Output: ~22 mAbs
Coco (secreted antagonist of TGF-beta):
Cell 150, 764-779
>>Visit our website for more detail <<
Best wishes,

Sam Wong, Ph.D.
Business Development Manager
Backup email: sam.wong.abmart3@gmail.com
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