So this time will it be headed somewhere with an endgame in mind, or will it simply be more filler because the writers have no idea how to make all the threads pay off in the end? I'm not bitter or anything.
Ah yes. Genes that ruin reproductive success really are a serious problem when they escape into the wild populations. Can you just take five minutes from conspiracy land and think about how that would work in the context of natural selection?
No, they happened to buy the company (which just happened to be the largest provider of cotton seed around, Delta Pine and Land) which had patented the technology. A patent which expries mid-2015, so, probably not the main reason they bought DP&L.
Hell, Monsanto NEVER sold Terminator seeds. I find that people who rant about them as an example of the evils of Monsanto invariably don't know what the hell they are talking about. It is a nice bellwether.
My folks had the same car when I was a kid. It was great because we never had to beg the parents for the keys if we wanted to go wait in the car when we were somewhere, we just had the code.
I still read magazines but do so on my iPad Wired, Vanity Fair, The Economist, Field and Stream. What? I like fishing. I also read the iPad version of the NYT every morning with my coffee.
Yeah, I use those while hosteling in Europe or staying in dodgy places at conferences (Grad Student). Love them.
Hello person on the internet who can't descriminate a real news story from a story on a website that bills itself as "Canada's Best Satirical Newspaper". For other hard hitting facts to base your well though-out world view on, I recommend www.theonion.com
Terminator genes have never been in a comercial product. EVER.
But can they do a BANANA shaped venn? http://boingboing.net/2012/07/12/just-look-at-that-banana-genom.html
You can patent "life" (at least in the US in the form of organisms modified by humans). That ship has sailed a long time ago, see the US Supreme Court case Diamond v. Chakrabarty. You might make a MORAL case that you should not be able to patent things this way. Your statement however, is demonstrably wrong from a legal standpoint.
SpuriousLogic sends this excerpt from a BBC article detailing the suspension of a sales ban on certain Apple products in Germany: "Motorola Mobility had forced Apple to remove several iPad and iPhone models from its online store [yesterday] after enforcing a patent infringement court ruling delivered in December. An appeals court lifted the ban after Apple made a new license payment offer. However, Germany-based users may still face the loss of their push email iCloud service after a separate ruling. 'A suspension like this is available only against a bond, but Apple is almost drowning in cash and obviously won't have had a problem with obtaining and posting a bond.' ... A statement from Apple said: 'All iPad and iPhone models will be back on sale through Apple's online store in Germany shortly.'" Reader DJRumpy points out that Motorola is seeking royalties of 2.25% for Apple's wireless devices in exchange for a license to use Motorola's patents.
FTFA: "BGI, based in China, is the world’s largest genomics research institute, with 167 DNA sequencers producing the equivalent of 2,000 human genomes a day."
This is true, but doesn't really capture the types of experiments that are being done in many cases. Yes, your genome can be stored on a CD. However, next gen sequencing is usually done with a high degree of overlapping coverage, to catch any mistakes in the sequencing, which is still basically a biochemical process despite geting large text files as the end result. So any genome is sequenced multiple times: say 8x coverage as fairly standard. That is if you are interested in sequencing a single genome. If you are interested in sequencing all the mRNAs that tell you which genes are active in which tissue and cell type, expect that you need to do a similar amount of sequencing for each tissue and cell type in the human body. Now imagine doing that with different experimental conditions: disease states, environmental factors etc. Of course, on top of that, you will need replicates of each experimental condition in order to have statistical power to say anything meaningful. On top of that there is the sequencing that you can do to identify differences in the epigenome: how the DNA is marked with things like methyl-groups, how it is wrapped around histones, all of which we are finding has a huge functional difference. Having the a genome sequence is a lot like having the total word list of the english language. It is huge and powerful, but there is a lot more information you need before you can write Shakespeare.
Odd that the only device that automatically sent images to a locked down cloud was the Microsoft Kin. I think you are rocking some tinfoil there.