If an atom of a different element than what is customary appears in the DNA strand, how would the nanapore sequencer react? Would it classify it as the correct element?
I think each nucleotide has a distinct electrical signature, and the sequencer compares the signature of the nucleotide passing through the pore to a reference database to identify it. If the electrical signature is not found in the databse, the nanopore sequencer will give an error. So to answer your question, I think the nanopore sequencer would classify an atom of a different element than what is customary appears in the DNA strand as an incorrect element.
How are the motion graphics of the DNA through the nanopore produced? Are those simulations? Or are they result of some kind of representation of actual data? Something else?
In the current decade, molecular simulations are *themselves* the "representation of actual data." Molecular biologists are getting really, REALLY good at molecular biology and computers are speeding up this progress exponentially.
Thank you for sharing! It's fascinating!
really goodone im currently working on it
very nice presentation about the sequencing of DNA through nanopore.
Interesting lecture on nanopore sequencing technology!
Does heating solution has any affect on RPS measurement? It may extend the DNA molecule, but doesn't it de-shape the pore at the same time?
How did you make those animations of the nanopore please tell me what software!
Amazing!
If an atom of a different element than what is customary appears in the DNA strand, how would the nanapore sequencer react? Would it classify it as the correct element?
I think each nucleotide has a distinct electrical signature, and the sequencer compares the signature of the nucleotide passing through the pore to a reference database to identify it. If the electrical signature is not found in the databse, the nanopore sequencer will give an error. So to answer your question, I think the nanopore sequencer would classify an atom of a different element than what is customary appears in the DNA strand as an incorrect element.
How are the motion graphics of the DNA through the nanopore produced? Are those simulations? Or are they result of some kind of representation of actual data? Something else?
+Fallible Fiend sitimulaion
In the current decade, molecular simulations are *themselves* the "representation of actual data." Molecular biologists are getting really, REALLY good at molecular biology and computers are speeding up this progress exponentially.