Example collocations logo

Sequencing in sentence

125 examples of Sequencing in a sentence

And in both cases, we were able to use genetic sequencing to look at the polio viruses, and we could tell these viruses were not from these countries.
World population, PC placements, the archive of all of medical literature, Moore's law, the old way of sequencing, and here's all the new stuff.
They're one of two companies that makes these massive whole-genome sequencing tools.
Guys, this would never have happened without whole-genome sequencing.
DNA sequencing on your iPhone?
The second question is, does the sequencing of the download matter?
And could Africa get that sequencing wrong?
It was the sequencing for the first time of the human genome.
And doctors and scientists knew all we do about public health measures, surgery techniques, DNA sequencing, cancer research and treatment?
And this is all promising, but we need to think about sequencing.
And so by applying ancient DNA sequencing and protein mass spectrometry technologies to ancient dental calculus, we can generate immense quantities of data that then we can use to begin to reconstruct a detailed picture of the dynamic interplay between diet, infection and immunity thousands of years ago.
These deep sequencing tools are relatively new.
And as it continues, one of the things that's going to happen this year is we're going to discover the first 10,000 human genomes, because it's gotten cheap enough to do the gene sequencing.
And as you're thinking about these two guys sequencing a human genome in 2000 and the Public Project sequencing the human genome in 2000, then you don't hear a lot, until you hear about an experiment last year in China, where they take skin cells from this mouse, put four chemicals on it, turn those skin cells into stem cells, let the stem cells grow and create a full copy of that mouse.
The cost of sequencing the human genome is dropping precipitously.
The technologies got better, and now DNA sequencing is proceeding at a pace five times that of Moore's Law.
And so we just heard about the DNA sequencing.
And that's what I've been doing for 20 years, using DNA sequencing, collecting samples from various places, including the human body, reading the DNA sequence and then using that DNA sequencing to tell us about the microbes that are in a particular place.
And so what I want to tell you about for a few minutes is, what people have learned using DNA sequencing techniques in particular, to study the microbial cloud that lives in and on us.
And what the DNA sequencing technologies are allowing people to do now is do detailed studies of, say, 100 patients who have Crohn's disease and 100 people who don't have Crohn's disease.
And we did this because we think that it's actually going to allow us to realize the potential, the promise, of all of the sequencing of the human genome, but it's going to allow us, in doing that, to actually do clinical trials in a dish with human cells, not animal cells, to generate drugs and treatments that are much more effective, much safer, much faster, and at a much lower cost.
We know from the sequencing of the human genome that it's shown us all of the A's, C's, G's and T's that make up our genetic code, but that code, by itself, our DNA, is like looking at the ones and zeroes of the computer code without having a computer that can read it.
But we've come up with very clever ways that we can actually discriminate, capture and discriminate, the mammoth from the non-mammoth DNA, and with the advances in high-throughput sequencing, we can actually pull out and bioinformatically re-jig all these small mammoth fragments and place them onto a backbone of an Asian or African elephant chromosome.
But really, with this and a lot of my art projects, I want to ask the audience a question: When biotechnology and DNA sequencing becomes as cheap as, say, laser cutting or 3D printing or buying caviar from a vending machine, will you submit your sample of DNA to be part of the vending machine?
This is the first talk I've given about this expedition, and while we weren't sequencing genomes or building space telescopes, this is a story about giving everything we had to achieve something that hadn't been done before.
We're so lucky to be born in the time that sequencing genomes is a routine activity, and the brilliant folks at Synthetic Genomics are able to zero in on the pig genome, find exactly the genes that are problematic, and fix them.
We've had technologies for sequencing DNA, for copying DNA, and even for manipulating DNA.
So how do we ensure the populations of people that need genome sequencing the most are not the last to benefit?
My vision is to make genetic research more native, to indigenize genome sequencing technology.
It allows us to de-black box genome sequencing technology development in a way that's immersive and collaborative, activating and empowering indigenous communities ... as citizen scientists.
Next