Sample: Dried Blood Spot
Transfer: SCNT into host
Sample: Dried Blood Spot
DBS samples offer extended viability (10+ years) and easy, room-temp storage. This eliminates cold chain needs, simplifying logistics and ensuring sample safety during disasters. Their compact nature makes them ideal for biobanking and wide-scale public health applications. Our custom AI agents are designed for optimal sample identificati
DBS samples offer extended viability (10+ years) and easy, room-temp storage. This eliminates cold chain needs, simplifying logistics and ensuring sample safety during disasters. Their compact nature makes them ideal for biobanking and wide-scale public health applications. Our custom AI agents are designed for optimal sample identification and submission, with specialized agentic workflows enabling immediate testing and storage efficiency through automated decision-making processes.
Action: Trap WBCs
Transfer: SCNT into host
Sample: Dried Blood Spot
In a dried blood spot, white blood cells are essentially "mummified" within the paper's fibers as the blood desiccates. This process traps their nuclei, which, if numerous and the sample is properly stored, can theoretically be used as a source for downstream recovery. Our AI agents utilize workflows to identify the best "mummified" cells
In a dried blood spot, white blood cells are essentially "mummified" within the paper's fibers as the blood desiccates. This process traps their nuclei, which, if numerous and the sample is properly stored, can theoretically be used as a source for downstream recovery. Our AI agents utilize workflows to identify the best "mummified" cells for use in genomic techniques, with specialized agents orchestrating each step of the cell recovery process.
Transfer: SCNT into host
Transfer: SCNT into host
Transfer: SCNT into host
For SCNT with WBCs, our agentic workflow isolates and repairs/reconstructs "mummified" nuclei from dried blood spots. This prepared nucleus is then microinjected into an enucleated host oocyte for optimal cloning opportunity. Custom AI agents identify the best "mummified" cells for immediate testing and storage efficiency, with specialize
For SCNT with WBCs, our agentic workflow isolates and repairs/reconstructs "mummified" nuclei from dried blood spots. This prepared nucleus is then microinjected into an enucleated host oocyte for optimal cloning opportunity. Custom AI agents identify the best "mummified" cells for immediate testing and storage efficiency, with specialized agents managing each transfer step and monitoring the reconstruction process through intelligent automation.
Encode
Transfer
Transfer
BioCypher's encoding agent transforms your cryptographic messages into DNA sequences using advanced plasmid design algorithms. The AI orchestrates viral scaffold selection and molecular origami patterns, embedding your data into self-assembling biomolecular structures that quantum computers cannot crack.
Transfer
Transfer
Transfer
The transfer workflow embeds your encoded DNA message into biological host systems, creating living storage vessels that can replicate and transmit your encrypted data. Custom agents manage the integration process, ensuring message integrity while the biological carrier moves undetected through any environment.
Decode
Transfer
Using nanopore technology powered by a Raspberry Pi flow cell setup, BioCypher's decoding agents sequence the DNA and extract your original message. The autonomous workflow processes raw nanopore data, identifies the cryptographic patterns, and reconstructs your encrypted communication from the molecular structure.
Encode (Screenshot)
Dashboard (Screenshot)