Genetics Video
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How do y'all, Morgan, Beau Champ, here and today I'm going to be discussing the 2020 Dragon Draft. So as you may or may not know, Dragon Balloon fighting has been on the craziest past year, and this is a game in which dragons, time balloon to themselves and fight to see who can pop it first. Or spikes are by far the most effective weapons. So let's check out the developmental network pathways to create these spikes. So when the current contenders ah, we can see the wild side pathway right here and the arrows indicate the promotion of expression for a gene, while a bar indicates the inhibition of expression for regime so we can see wild types do have spikes. And now let's check out some of the new draftees. So first up, we have the western No, the Western forest. Western Forest Dragons have a mutation. He gene, which is represented by the little charger block right there and as you are about to see and mutation in the P gene is therefore going to not suppress the eye gene, which is there for going to suppress the vision spikes. So next the southern mountain dragons. The other mountain dragons have a mutation in their hygiene, which already was naturally suppressed. So this is not going to affect the creation of spikes. Neither, or none of the pathway is suppressed. Next up, wild cards Eastern doesn't dragons. These dragons have mutations in their I and E genes, which wouldn't Well, okay, so the gene is the gene that codes for spike formation, which, no matter what hygiene coded for Eventually it all came down to the gene. So the gene not being able to create an end transcription products will stop the creation of spikes. Now, finally, we have the Northern Sea Dragons, and they have mutations on the S and K jeans. So a mutation on the S gene is therefore going to block the expression of the P gene, which would normally block expression of the eye gene. But now this doesn't happen, so the Cajun is suppressed. But the Cajun was already suppressed due to the mutation, so there will be no end K transcription products, so no spikes will be formed. So what? We're like, what regulation prevents porcupine dragons or what regulation prevents all the skin cells from having spikes well. First up, we can see if the eye gene has a much higher expression than the P gene, and there will be more regulation of occasion, meaning there will be less spikes. Additionally, there could be post transcription regulation factors in which there's alternate splicing as we can see with the H and the T here. Or finally, there could be post translational modification of the protein that causes a new protein be formed. All right, Thank you for watching my video. And here are some references.