| 00:39 | Well, good afternoon, campers. ready to start the day and have |
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| 00:46 | . We're all about physiology. Six here should say, Yeah, we're |
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| 00:58 | . All right, So the 40 guess I am on. Okay, |
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| 01:04 | before we get our day again, kind of introducing you some ideas with |
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| 01:09 | to the paper. First, off sources, a lot of people have |
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| 01:13 | about sources. In essence, what doing when you are citing something, |
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| 01:17 | you're giving credit to where that information from, all right. And |
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| 01:21 | what you're doing is you're giving credit ideas and results. All right? |
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| 01:25 | when you read a fact that that from somebody, somebody discovered that |
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| 01:29 | You've got to give credit to that because you didn't discover it. You |
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| 01:33 | read the paper. And so that's you're gonna be actually giving credit |
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| 01:38 | So these are gonna be found usually in the introduction for the ideas. |
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| 01:42 | these are like the broad ideas, really, you're dealing with results and |
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| 01:46 | primarily, so that's gonna be primarily your discussions. But the other thing |
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| 01:49 | like to point out is very often have people read your papers. You |
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| 01:53 | , you'll ask him. Hey, look over this program or whatever it |
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| 01:56 | , Acknowledge them for that. And is a knack knowledge mint section that |
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| 02:01 | sits right at the very end of paper. And so it's okay to |
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| 02:04 | other people look at your work. not okay for them to do the |
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| 02:08 | for you. In which case that now a co authorship. And you're |
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| 02:11 | turning in papers with co authors, ? You're turning in your own |
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| 02:15 | but, uh, easily, You , if you have a bunch of |
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| 02:18 | looking stuff, just say I think want to thank this person for looking |
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| 02:22 | my paper and helping me with processing ideas or whatever it is that you |
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| 02:26 | to say. We even do that . Whenever I write something, I |
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| 02:30 | it to my colleagues. I have over it, say, just tell |
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| 02:33 | , does it make sense? You , and they'll give me feedback. |
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| 02:36 | right, So what do you source what don't you source things that usually |
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| 02:42 | require? Sourcing is general knowledge. if there's something that can generally be |
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| 02:47 | in a textbook that is considered general . All right, Just because the |
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| 02:52 | around you doesn't know about it doesn't it's not general knowledge. All |
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| 02:55 | but generally speaking, anything can be in the general general science textbook. |
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| 02:59 | fine. Anything where you are connecting . So if you knew that fact |
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| 03:03 | in fact be you know, you those two things. But you look |
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| 03:06 | these two things to say, based my understanding of science A and B |
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| 03:10 | this. You do not have to what this means because you came up |
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| 03:14 | that, right? That's good. right, so you don't need to |
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| 03:18 | that. That's your work. You be using primary sources. And I |
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| 03:22 | that's kind of scary right now because like, I don't know how to |
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| 03:25 | into that. So typically what you're be doing is you're going to start |
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| 03:29 | the secondary sources, and you're gonna your way out of the primary |
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| 03:32 | But what you want to do is you find a fact, you wanna |
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| 03:35 | to the original paper where it came to make sure that the person where |
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| 03:39 | The person who's you first saw it actually interpreting it correctly. So that's |
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| 03:44 | the primary sources or where you wanna . So that's what you're trying to |
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| 03:48 | . You're trying to look at the literature and saying is what? I'm |
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| 03:53 | this person says. Is this what actually discovered? All right, so |
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| 03:57 | doing that Literature review your basically becoming source and then the secondary sources, |
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| 04:03 | will use them. I mean, not gonna pretend like they're not gonna |
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| 04:05 | there, but typically you find that the introduction because they provide you a |
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| 04:10 | view or an overview of what it that you're doing research. And so |
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| 04:14 | , you'll find those in your You won't really find them later on |
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| 04:18 | your discussions, although you may actually one or two or three in in |
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| 04:22 | the discussion portion. Alright, so kind of how your sources work |
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| 04:29 | Some of you will want to use and that's okay. If you don't |
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| 04:33 | to fuse figures, that's okay. up to you. You are the |
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| 04:37 | of the paper. You get to how you want to present the |
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| 04:41 | right? But if you use a , it should support the text. |
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| 04:47 | other words, the text of the need to kind of go together. |
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| 04:50 | do not need to create your own . But if your artistic, if |
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| 04:53 | like to you may, that's that's , right? But if you want |
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| 04:57 | use someone else's figure, you need cite that you used it. So |
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| 05:01 | what you would do is you put figure legend at the very bottom, |
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| 05:05 | probably say adapted from and then your . All right, so it's not |
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| 05:10 | difficult. But what you don't want do is you don't want to copy |
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| 05:13 | figure legend of wherever you took it . All right? You want to |
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| 05:17 | your own figure legend because your soul your picture refers to your own |
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| 05:21 | So you want them to look at figure for specific reasons? All |
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| 05:26 | so what you want to do is want to point out what's important in |
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| 05:28 | figure. All right? Now you wanna put like 50 of them in |
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| 05:32 | thing, Alright? At most use or two at the top in maybe |
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| 05:37 | but really try to stick it to or two. Alright, If it's |
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| 05:41 | really complex, like a molecular pathway you're looking at like this, it |
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| 05:44 | be easier to drive. I have that picture there so that you |
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| 05:47 | refer to it. We say here explaining if you in the text. |
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| 05:50 | boy, it sure a lot easier look at it, isn't it? |
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| 05:53 | that's the idea of what you want do. All right, so basically |
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| 05:57 | figure points of the text, the actually can point to the figure they |
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| 06:02 | of serve each other. Well, , we're not lastly second, |
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| 06:06 | revising This is the hardest thing about on a paper all right, because |
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| 06:12 | put a lot of effort and time writing something. And when you write |
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| 06:17 | , if you it's really hard to it out, right, because you |
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| 06:21 | on that. That's your baby. so literally What you're doing is you're |
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| 06:24 | in and you're stabbing your baby and parts of your baby out, and |
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| 06:28 | hard to do. But you need do that. Alright. If you |
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| 06:32 | to save the word, put it different document. You can come and |
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| 06:34 | it some other day. All Before your document, you need to |
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| 06:38 | sure that your paper flows. It logic. It has all the right |
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| 06:43 | in the right places. And it sense. It's something. You |
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| 06:47 | Doesn't make sense. Get rid of . All right. You can do |
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| 06:52 | paragraph. It's It hurts, but okay to do that. All |
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| 06:56 | if you have difficulty writing. In words, English is not your first |
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| 07:01 | . And this is not uncommon. right, It's okay to contact the |
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| 07:05 | center and asked them for help. , Part of this effort here is |
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| 07:11 | try to get you to become better . All right, So you don't |
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| 07:16 | to deal with writing above your You don't wanna right below your |
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| 07:19 | So that means don't use jargon, language. Avoid first person thes |
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| 07:24 | things that you're doing creative writing and and scientific writing. The data is |
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| 07:30 | . You're talking very much in a voice, which is very strange, |
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| 07:34 | your entire life you've been taught to in an active voice, right? |
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| 07:38 | the data shows that Dr Smith didn't that it was the data demonstrate |
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| 07:45 | Okay, so that's the passive All right, Like I said, |
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| 07:49 | try to write smart. If your naturally flows that way, then it's |
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| 07:53 | fine. But if you if you're to write above using big words that |
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| 07:58 | you don't really know how they it doesn't read real well, So |
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| 08:02 | try to avoid doing that. Like said, get friends people that you |
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| 08:07 | to read your paper and let them honest with you, all right. |
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| 08:11 | that's sometimes a hard thing. When have someone paper and say This is |
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| 08:13 | crap, It's like you wound I just spent so much of my |
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| 08:17 | working on it. But it's better you if you do that. |
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| 08:21 | go ahead and have other people read . Let them give you your |
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| 08:25 | Take that criticism. It will make a better writer and all ultimately, |
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| 08:29 | the peer review process is is getting feedback, but really in a blind |
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| 08:36 | , because the people who are gonna evaluated, you don't know who you |
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| 08:39 | , and they don't care. They want to get the assignment done. |
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| 08:42 | right, so that's the revising The last thing you want to write |
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| 08:48 | your abstract. And the reason it's last thing is that the abstract really |
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| 08:53 | your entire paper in 250 words. , It basically has an introduction. |
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| 08:58 | has kind of a broad overview of discussion. It even mentioned your conclusions |
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| 09:03 | in 250 words. All right, what you're trying to do is you're |
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| 09:09 | to convey what your paper is when are working on that abstract or when |
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| 09:15 | read an abstract and you probably don't you as you start looking at these |
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| 09:19 | . Did you read through the No. You went right to the |
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| 09:22 | . You look at it, you through the abstract Said, Okay, |
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| 09:25 | sounds good. I'm putting it in list, right. But if it's |
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| 09:28 | this makes no sense and has it's gone. So that's why you |
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| 09:32 | to be really, really clear about . So you can see it has |
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| 09:35 | relevant background, you know, what's intro? So basically kind of what |
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| 09:39 | trying to write about? That's the of the composition talks about what the |
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| 09:44 | are, what is a significant ideas it in any conclusions that you're going |
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| 09:48 | come up with. And so you till last minute after you've written your |
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| 09:52 | paper. So you know all those . You don't write it first. |
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| 09:55 | , you can fill in the blanks . This is what you do |
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| 09:58 | You do not need to include citations an abstract. Alright. Abstract stands |
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| 10:03 | its own. They'll come into your and see where the citations are. |
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| 10:07 | right, So that's really where I to. Kind of just start off |
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| 10:11 | . Are there any questions from the ? Oh, any questions online? |
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| 10:20 | . Let's learn some physiology. One head, kind of naughty. |
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| 10:26 | thumbs up and a smile behind the . Okay, that's what I want |
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| 10:30 | see and slightly falling asleep. All , See, we're gonna have |
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| 10:38 | Supposed to be fun stuff to stuff here, because that's what we're going |
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| 10:42 | do today is we're going to talk sensory receptors. All right? We're |
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| 10:48 | the peripheral nervous system, remember? what we send the peripheral nervous system |
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| 10:52 | there's two half of the peripheral nervous , information that comes in and information |
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| 10:56 | goes out right. The sensory the information coming in. What we're |
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| 11:00 | to do is we're trying to detect environment, both external to the body |
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| 11:04 | internal, you know, internal to body. All right. And so |
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| 11:09 | way we do this is we use now, the word receptor. It |
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| 11:12 | be a really weird term, all ? It could refer to a |
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| 11:18 | It could refer to a cell. can refer to an actual organ. |
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| 11:23 | right, so you have to know you're looking at when you talk about |
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| 11:26 | . All right, we got a from the peanut gallery. I'm calling |
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| 11:29 | the peanut gallery today. Absolutely. . Yeah, We're not doing that |
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| 11:36 | now. I can hear. So she has toe type it |
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| 11:41 | Okay. That's why we have a . He's getting paid thousands upon thousands |
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| 11:46 | dollars. All your tuition money is to him so he can buy a |
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| 11:51 | while he lived. Yeah, Okay, he's getting a Lamborghini. |
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| 11:57 | a little tiny one about this So as soon as she gets her |
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| 12:02 | out there, you can go ahead stop me. All right, so |
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| 12:06 | I say ranging complexity, that's what mean. It could be literally a |
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| 12:09 | . It could be a molecule, or it could be a tissue. |
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| 12:13 | it's a frame of reference thing. , for example, on I is |
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| 12:17 | receptor. Alright. It's made up receptor cells, and each of the |
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| 12:21 | cells have specific receptor molecules on So it's where you are located within |
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| 12:27 | alright. And what they're gonna do they're going to respond to a very |
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| 12:31 | stimulus, all right? And so is the stimulus? Basically, it's |
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| 12:34 | change in a century modality, something we're trying to detect. So it's |
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| 12:42 | that change in, and it's not there monitoring constancy. It's monitoring what |
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| 12:47 | changes are. All right, and a sensation when you hear the word |
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| 12:52 | . What you should think of is conscious awareness of that change in |
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| 12:57 | All right, that's what that really . So right now we would look |
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| 13:01 | the room and we'd say the room right cold. I don't know, |
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| 13:07 | , right? And then So if turn down the lights. It would |
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| 13:12 | right, Because we're now recognize Change the stimulus. All right now, |
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| 13:17 | only way we can have a sensation that that information detected by that receptor |
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| 13:22 | it finds its way to the cerebral so that we become aware of that |
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| 13:30 | . Now, receptors are what we transducers. Yes, sir. Got |
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| 13:36 | question? Mhm. Older? Go to the instructions. It's pretty |
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| 13:48 | , Straightforward. Basically, uh, out how you're gonna organize your |
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| 13:53 | That's that's That's in essence, what discussion is. You you've looked up |
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| 13:57 | whole bunch of facts. That's what papers were for last week. So |
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| 14:00 | put those facts in order. Figure where the gaps are. If you |
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| 14:04 | big gaps, that's okay. You have to have your entire discussion |
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| 14:08 | But the idea is you need to a number one and number two and |
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| 14:11 | three those with Roman numeral things that teachers taught you way back in junior |
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| 14:14 | , right? And then you can the Big A in the big B |
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| 14:17 | the little A and the little and you can do all that stuff |
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| 14:20 | you want to. But the idea is just get the fax into some |
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| 14:23 | of order. So it makes sense that when you start putting sentences around |
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| 14:28 | things, there's flow to it when actually write the discussion. So the |
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| 14:33 | here is just to start organizing All right? Hopefully I answered her |
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| 14:41 | . Okay, So what is the of the nervous system? What have |
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| 14:47 | basically said? The language of nervous has been so far. Two things |
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| 14:52 | we use signals or type of What type of signals? Electrical. |
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| 14:59 | action potentials. Right. And then we get to the end of the |
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| 15:02 | potential that we use a chemical, all great potential on the other |
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| 15:07 | All right. But the idea that's how cells talk to each |
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| 15:10 | Okay. Is temperature either electrical um, chemical? New. All |
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| 15:18 | , what about light? New. right, now, odors are |
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| 15:23 | right? What about stretch? You , the no. So all of |
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| 15:29 | sudden, now we've got all these things that you can imagine. Your |
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| 15:32 | is measuring that. Don't fall in category of action potential or chemical |
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| 15:38 | And so what we have to do we have to change the modality of |
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| 15:42 | it is that we're looking at into language of the nervous system. And |
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| 15:45 | that's what the purpose of the receptor . It takes that original energy source |
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| 15:50 | it happens to be, if its . If it's mechanical, if it's |
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| 15:54 | , whatever it is, and it it into that action potential that ultimately |
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| 16:00 | in the chemical change that the central system can then detect all right, |
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| 16:07 | that's That's an essence. The whole of this process is to be able |
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| 16:12 | interpret our surroundings using the the message that that modality and then converting |
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| 16:21 | So two features of all receptors is that a receptor has arresting membrane |
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| 16:27 | , so it establishes and maintains and then that resting membrane potential will |
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| 16:33 | modified. In other words, it be changed in response to the opening |
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| 16:37 | modality gated channels. Now again, term modality here is simply a way |
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| 16:43 | saying, whatever the thing is, trying to detect right and so there |
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| 16:48 | different types of modalities and this is a complete list, but it's a |
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| 16:53 | fair list. All right, we chemo receptors, chemo receptors, detect |
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| 17:00 | . Alright. Pretty simple stuff, ? So we have mechanic receptors, |
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| 17:05 | receptors detect mechanical change. And so that means is the change in the |
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| 17:10 | of the cell. All right. receptor self changes shape. In response |
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| 17:14 | that, we have thermal receptors. air, uh, responsive to heat |
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| 17:20 | cold. Alright, So differences in . And then we also have photo |
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| 17:26 | . This is responsive to electromagnetic And that's inhuman. We conceive visible |
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| 17:32 | . That's a small spectrum of the electromagnetic radiation spectrum. But think about |
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| 17:38 | you guys learn about rattle snakes and vipers. What can they see? |
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| 17:41 | know infrared? You said that, ? Okay, infrared. Alright, |
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| 17:48 | . What about bees? What? ? What? What area of electromagnetic |
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| 17:54 | can they detect? You ve And so you can see electro magnetic |
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| 18:01 | is not just limited to visit visible . We can detect this range, |
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| 18:07 | there are other species that have are into different frequencies. All right, |
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| 18:12 | have Osma receptors. Alma receptors are a type of chemo receptor. What |
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| 18:16 | doing is they're looking at solute concentrations the fluids of our body and trying |
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| 18:22 | maintain that we have no see no see sectors of a fancy word |
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| 18:26 | saying a pain receptor, and so are sensitive to tissue damage. And |
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| 18:31 | different types of tissue damage and even kind of list their bit pinching, |
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| 18:35 | distortion, all sorts of stuff. these different types of pain receptors could |
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| 18:40 | specific to one, or they could open to many different types of |
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| 18:45 | And so we have receptors that detect whole bunch of things. Now what |
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| 18:50 | need to understand is just because we different types of receptors, that doesn't |
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| 18:54 | we're limited in terms of what we we are able to detect. In |
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| 18:58 | words, what what our sensations are could be a combination or an integration |
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| 19:04 | these different types of modalities. And the example I always use here is |
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| 19:10 | witnesses, not there's no receptors for . Alright, witness is a combination |
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| 19:15 | touch receptors, pressure receptors and thermal . All of these things in combination |
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| 19:21 | rise to the sensation that I am right or how about an itch and |
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| 19:27 | is a combination of chemo reception, reception, and, um, I |
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| 19:34 | to say no. So, I may be wrong in one of |
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| 19:37 | , right? So in it you're , going? I've got a |
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| 19:40 | What is that from its because of three things telling you right there. |
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| 19:44 | is something noxious going on. Yeah. So it s so the |
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| 19:58 | is what about no see exception? deception is incredibly complex. Alright, |
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| 20:03 | I'm just gonna give you an example one. All right. You guys |
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| 20:05 | spicy food. You have 100 25 here. So spicy food, It's |
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| 20:09 | half the class is like, the other ones, like stay away |
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| 20:12 | and salt is tough. That's not much in Houston. But every now |
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| 20:19 | then, I'll get one or two them, right? All right. |
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| 20:22 | the spicy food I am. I ghost peppers. I make my own |
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| 20:26 | Pepper salsa. I just You I cannot get my son last |
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| 20:30 | We're having, uh, tacos and have homemade habanero. It's a sweet |
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| 20:35 | salsa, and none of my kids spicy food. They all looked at |
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| 20:38 | like I'm from Mars. He's I want to try the ghost |
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| 20:40 | I mean, the habanero. I'm , you're gonna make me open up |
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| 20:44 | of these cans, and then I'm of these. These these bottles, |
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| 20:50 | then it's gonna be That's it. going to, like, take a |
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| 20:53 | . And then, like, I could do it. I can |
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| 20:55 | it. All right? He's 13 old. I give him dropping. |
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| 20:58 | like, Okay, that it is all right. What? What was |
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| 21:03 | sensation that he felt burning right? reason he feels burning is not because |
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| 21:10 | is hot. It's not literally. the type of receptor it the |
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| 21:15 | both heat and chemical. And so gives a sensation. In other |
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| 21:20 | it goes to the brain and When this receptor is activated, then |
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| 21:24 | is what's going on. It's it's as a result of burning, even |
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| 21:29 | it was a chemical that was doing . So it's the type of the |
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| 21:33 | particular type of receptor detect both of things and I don't know, I'm |
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| 21:39 | sure I don't talk about in this . I think It's the MP class |
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| 21:41 | I look at a bunch of these that are located in the mouth and |
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| 21:45 | all thermal receptors. But they're all by chemicals like menthol and capsaicin. |
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| 21:52 | there's a whole camp for Here's another , you know? So I think |
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| 21:56 | meant. He kind of get that sensation. It's It's basically it's a |
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| 22:01 | receptor that's activated by very low Yeah, hope yes, yes, |
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| 22:12 | are you. That's correct. If sensation that you experience is the pain |
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| 22:19 | what pain receptors that we're gonna get this a little bit more detailed. |
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| 22:22 | hopefully ah, little bit later. is that a pain receptor is simply |
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| 22:27 | body's way of recognizing things that are damage to the body. This is |
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| 22:32 | exercise? We know exercise is just good for you. See, that |
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| 22:38 | the joke. See if funny, ? Exercise pain? Nope. I'm |
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| 22:43 | . It's I think it's fun. exercise is very good for you. |
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| 22:48 | the pain is weakness leaving your You've heard that one. I'm |
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| 22:56 | right. Okay. I'm just having today. I've been stuck in the |
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| 23:00 | for three days. I people, . We are social critics. But |
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| 23:07 | kind of answer that so it's the is what it's detecting. The sensation |
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| 23:12 | the experience. All right, So I wanna do is I want to |
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| 23:17 | go through. Today, we're gonna through two of the special senses, |
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| 23:21 | then we're gonna kind of deal with sensory. And in theory, we're |
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| 23:25 | be dealing with pain today, all ? And the reason I'm putting all |
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| 23:29 | these things to up at the front it deals with chemo reception, |
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| 23:33 | And then on Tuesday next week, going to deal primarily with vision. |
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| 23:39 | , so that's a different type of reception. We're gonna be looking at |
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| 23:44 | at modality of electromagnetic radiation. And on Thursday next week we'll be doing |
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| 23:51 | and balance or equilibrium, which are of McCann, a reception. But |
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| 23:57 | don't normally think of like hearing Is a reception The way the receptors |
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| 24:01 | Yes. All right. So let's of jump in. I hope you |
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| 24:05 | have lunch because I can get really, really obnoxious when it comes |
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| 24:08 | go station. All right? I food. Alright, so go station |
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| 24:13 | simply the sense of taste, all . And there are chemo receptors that |
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| 24:17 | located within the oral cavity. Also little bit down the throat. There's |
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| 24:21 | chemo receptors for Gus station. They're in the stomach as well. Believe |
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| 24:25 | or not. And what this it allows us to sample what's actually |
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| 24:30 | the food that we're eating so that can tell the body what to expect |
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| 24:35 | on. But the truth is, that they're chemo receptors in the mouth |
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| 24:39 | not particularly robust. They need And so Gus station is aided by |
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| 24:46 | , all right? And so you of experience, if you've ever had |
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| 24:48 | stuffed up nose and you're like, believe either of these things because nothing |
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| 24:52 | right, it's because nothing smells. can't smell anything. And so that's |
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| 24:58 | the sense of taste kind of gets down. So taste goes well with |
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| 25:05 | . Now what we're gonna do, gonna look at structures, all |
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| 25:08 | And one of the key things about two structures the olfactory system in the |
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| 25:12 | system is you're gonna see the term thrown about a lot. All |
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| 25:16 | because things look like onions and you kind of see here. So what |
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| 25:20 | looking at, we're looking at the . And so what I want you |
|
| 25:23 | . The six of you who are is go home and look in the |
|
| 25:25 | at your tongue's Alright, which if at home right now, you can |
|
| 25:29 | over to the bathroom real quick and at your tongue and you can see |
|
| 25:32 | structures that are on the tongue. air called papillary. Alright. And |
|
| 25:37 | different types of Pillay. We have is called the Philip form Pillay, |
|
| 25:41 | is the structure on your tongue that your tongue rough. Okay. And |
|
| 25:46 | have no case buds at all, we don't even talk about them. |
|
| 25:49 | we're talking about the station, they're to grab ice cream right there. |
|
| 25:53 | tiny rakes on your tongue that allow to actually manipulate your food. All |
|
| 26:00 | , but we have these other We have the foliate, the circum |
|
| 26:03 | . In the fund you form your four means mushroom shaped circum. |
|
| 26:07 | means big and round foliate means leaf the foliar located way back here on |
|
| 26:12 | sides of your tongue. You can't see them. Um, they're more |
|
| 26:16 | when you're younger. The circum ballot can't see is Well, if you |
|
| 26:20 | to try to see it, go a friend or really not a |
|
| 26:22 | but an enemy. Grab their tongue pull it as much as you 32 |
|
| 26:39 | in the latter are the dorsal. third of post here one third of |
|
| 26:43 | time. So it kind of gives a sense. If this is two |
|
| 26:45 | of my time, my tongue still of goes down that way. |
|
| 26:49 | ha. I'm mine. You can't what I'm doing. Yeah, all |
|
| 26:53 | . And then the fund reform, are the ones that sit on the |
|
| 26:56 | of the time. And this is I'm saying if you go and look |
|
| 26:59 | there, you know, 95 99% the of the capelli on your tongue |
|
| 27:03 | these Fill a form that have no buds. But the funds of form |
|
| 27:07 | the little tiny dots that you see all over your tongue. And you |
|
| 27:11 | what these are Because if you've ever your tongue, you kind of get |
|
| 27:13 | weird one. That kind of sticks and you can run your You're |
|
| 27:16 | Oh, with your tooth. You , it kind of gives you that |
|
| 27:19 | feeling every time you touch it. a fun reform. It looks like |
|
| 27:22 | little tiny button mushroom. And so the cartoon, you can see here |
|
| 27:25 | the little tiny freckle dots Those represent fund reform. Although they're all over |
|
| 27:29 | tongue, they're not just along the . All right, Now, within |
|
| 27:33 | structures in very specific locations and you see in the cartoon here, the |
|
| 27:37 | dots represent where the taste buds air . The taste buds are the Are |
|
| 27:43 | organ where gas station occurs, And structurally, it looks like an |
|
| 27:49 | . All right. And you can here in our little picture I'm so |
|
| 27:54 | today, right? You can see our little picture what we have who |
|
| 27:59 | it didn't work. I'm so Um all right, so I'll just |
|
| 28:04 | snagging. We're just We're recording through now, so hopefully teams works, |
|
| 28:09 | ? So what we have here is have a little tiny hole that's called |
|
| 28:14 | taste poor. You can see each these air, the individual cells |
|
| 28:19 | different types of cells. And they at their terminal in little tiny dendrites |
|
| 28:25 | kind of stick up into the into poor. Right? And so this |
|
| 28:29 | open to the saliva to the external . And so what we have here |
|
| 28:32 | we have a structure that can detect that air dissolved in the saliva, |
|
| 28:38 | cells down here, these cells are the gustatory cells within the taste, |
|
| 28:44 | those are the taste receptor cells. so what we're gonna do is we're |
|
| 28:48 | have little tiny receptors on the gustatory that can be bound by what are |
|
| 28:54 | tastings, which is a fancy word saying the little molecules that food is |
|
| 28:58 | up of okay, and then create tasting. We're also going to see |
|
| 29:02 | in here, and that's what you're be detecting are the tastings. So |
|
| 29:06 | are different types of gustatory cells. right, this slide is just you'll |
|
| 29:11 | all the cartoons. They all look same thing you can see up here |
|
| 29:14 | our little cartoon that we have these tiny dendrites. Uh, they're |
|
| 29:20 | like, evenly distributed like this. you have. You have different cells |
|
| 29:23 | have different receptors, so the type cells have receptors that respond to |
|
| 29:29 | You have type two receptors that respond three different types of molecules, so |
|
| 29:35 | give rise to the sensation of give rise to the sensation of bitter |
|
| 29:40 | give rise to umami. We're going see that there's not just one receptor |
|
| 29:45 | . There's multiple receptors involved in these , uh flavors or are. We're |
|
| 29:51 | flavors, but basically tastes, and have type Greece cells. They have |
|
| 29:57 | that give rise to the sour And then finally, we have a |
|
| 30:01 | four cell, which you're not kind showing in here, which you imagine |
|
| 30:05 | of sitting down here that can actually rise to all the different types of |
|
| 30:11 | . All right, so in we have a special cell for salt |
|
| 30:16 | cell for for sour, and then cell that detects basically everything else. |
|
| 30:20 | then all the other ones fall under category of stem cell. And so |
|
| 30:25 | I want to do is I wanna through these five little tastes for |
|
| 30:28 | Salty, real simple we're detecting the of salt. And really, what |
|
| 30:33 | have here is we have a It's called Enact Channel for its I |
|
| 30:38 | remember the E stands for, But the sodium right there and basically what |
|
| 30:41 | is. It allows sodium to When sodium rushes in because of Celtic's |
|
| 30:45 | , it fires. You're detecting salts it literally detect salt because it causes |
|
| 30:52 | to be polarized with salt present. right, sour. It's a little |
|
| 30:57 | more interesting. So what this hour is basically it is a, |
|
| 31:03 | I'm not sure if it's PDK. , that was the very first |
|
| 31:06 | But I think that come back and characterize it. It's not pdk something |
|
| 31:11 | , but in essence, what it . It's a potassium channel. This |
|
| 31:15 | the potassium channel that's always open, when when you have free ions free |
|
| 31:21 | ions. In other words, protons that causes that channel too close when |
|
| 31:25 | channel closes, the cell is no hyper polarizing, is now moving in |
|
| 31:29 | direction of deep polarization, and if get it up to the threshold, |
|
| 31:34 | causes a cell, the fire or could think about this way. Maybe |
|
| 31:37 | cell is not firing its or aspiring a specific rate, but because you're |
|
| 31:41 | hyper polarization. It increases the rate firing. Right. So I'm |
|
| 31:47 | You can see I've got some examples salty. The salt is easy because |
|
| 31:52 | salt. Alright. Sodium chloride. the easy one. But sour. |
|
| 31:57 | are things that are sour? What's ? Pickles. Wire. Pickle's |
|
| 32:04 | But why? What is it that , um, sour vinegar. What's |
|
| 32:09 | ? Acetic acid. All right, . Okay. What we have down |
|
| 32:14 | , we have limes and oranges and . And what do all those things |
|
| 32:21 | in common? They're Citrus, and have citric acid. Oh, wait |
|
| 32:29 | second. PH ph. Protons, , acids. That's the key thing |
|
| 32:36 | that we're shooting for. So we're acids. Things that are acidic are |
|
| 32:41 | . All right, this kind of , This is the type three |
|
| 32:45 | So remember not detecting the proton. changing the flow of potassium out of |
|
| 32:51 | cell by the presence of the It blocks the channel. It doesn't |
|
| 32:56 | get in there, blocked the it binds or something cause the channel |
|
| 32:59 | close all right things. They're Mm. Sweet things. Like |
|
| 33:07 | Mm Tarts. When I left the that my wife was watching the Great |
|
| 33:13 | Bake off and they're doing it was the final where they're doing, |
|
| 33:17 | Just torture watching that stuff. ma'am. Or sir. Sorry. |
|
| 33:24 | , you have. You have molecules naturally do this. There's just basically |
|
| 33:29 | that are constantly enzymes that are constantly things out. That's the idea. |
|
| 33:34 | with regard to like, a sodium , remember, the sodium channels always |
|
| 33:38 | , so it's just you're adding more to the environment, so sodium is |
|
| 33:41 | rushing in more frequently with regard to proton. Basically, it's gonna be |
|
| 33:45 | confirmation. I'll change. Something probably the channels, changes. Confirmation, |
|
| 33:50 | that thing out. Yeah, I don't know. That's an |
|
| 33:57 | That's OK sometimes. I don't Not like that. Feel like who |
|
| 34:02 | this that, uh, always point your siblings. They did it. |
|
| 34:08 | right. And then down here, have we got? Dinner. Big |
|
| 34:15 | , juicy, thick stick. And your vegetarian to pretend it's tofu. |
|
| 34:20 | it's not tofu. That's steak, is, that is yeah, me |
|
| 34:24 | All right. So we have here we're talking about three different things. |
|
| 34:29 | gonna talk about sweet mom, and gonna talk about bitter on the next |
|
| 34:31 | . They all use G protein coupled . Alright. So they use a |
|
| 34:37 | pathway. And what the suite is for is a molecule that looks like |
|
| 34:43 | . Alright, So typically glucose is binder, which is why we get |
|
| 34:47 | excited when sugar comes around, it this thing and says, Oh |
|
| 34:50 | sugar. But we have in our lots of sugar substitutes, don't |
|
| 34:55 | How did those sugar substitutes work? , like aspirin taped. You guys |
|
| 34:59 | Asper, Thomas. I mean, heard it, but you know |
|
| 35:01 | It iss It's actually a, uh , it's a die peptides two amino |
|
| 35:08 | structure, alright as Spartak acid. I can't remember. The other half |
|
| 35:13 | I remember. But the asked for is from ascertain from aspartame is from |
|
| 35:18 | acid. It has a shape that like glucose on part of that |
|
| 35:25 | So it combines the receptor and then we detect sweet. All right, |
|
| 35:30 | not actually detecting sweetness. It's not we look at the glucose. |
|
| 35:34 | it's sweet. It's when the receptors . It tells our brain This is |
|
| 35:38 | we want. We like it but same with all the other |
|
| 35:43 | They have that same look like and so that's why they're able to |
|
| 35:47 | it with different affinities. Anyone here zyla calling their diet? Yeah, |
|
| 35:53 | you're young and you're healthy and you eat anything you want to when you |
|
| 35:56 | old. Say goodbye to all of . Alright. Xylitol is a sugar |
|
| 36:01 | . It's actually stevia is where it from, all right, and basically |
|
| 36:07 | a sugar alcohol. Alright, meaning shaped like a sugar, but it |
|
| 36:12 | an alcohol group on, which means becomes indigestible in our body. So |
|
| 36:15 | get the sweet sensation, but we get the calorie. It's awesome, |
|
| 36:21 | of, because it kind of has alcoholic taste to it as well. |
|
| 36:24 | people real sensitive to that, but essence it binds the same receptor and |
|
| 36:28 | you that things are sweet. This why you could make cheesecake that has |
|
| 36:32 | calories of and 0 g of sugar 100% of yummy goodness and 100% protein |
|
| 36:42 | your Quito. All right, I used to say you, |
|
| 36:49 | cause it just made it much more , you know? And then you'd |
|
| 36:52 | someone speaks Japanese. What? You ? Alright. And what means is |
|
| 36:58 | . Okay, Now, specifically, is triggered by specific amino acids, |
|
| 37:04 | in particular glutamate. Let's think about where we might have lots of |
|
| 37:09 | Other than that, what is something we put on most Asian foods that |
|
| 37:15 | them savory? You know what it You know what it is. Come |
|
| 37:22 | , think about it when you're not to eat it because it makes some |
|
| 37:25 | have allergic reactions and it's all bad awful. And notes on what? |
|
| 37:29 | got it? No, not Everything. MSG, which is short |
|
| 37:35 | mono sodium collude emate. Now, do you do that? Well, |
|
| 37:40 | same reason we put salt on our , right? It causes the flavors |
|
| 37:44 | pop up. But what it does particular is because you're using that |
|
| 37:48 | It actually gives it much more of savory sensation. You could turn vegetables |
|
| 37:53 | boring, bland, nasty, horrible . They're trying to kill you into |
|
| 37:57 | that you want to eat. All , that's the glutamate part. All |
|
| 38:05 | . Now again, it binds to same sort of molecule G protein coupled |
|
| 38:08 | . It's just a different receptor gives the sensation of savory type two cell |
|
| 38:13 | to sell. Last one is All right, I'm gonna show you |
|
| 38:16 | bunch of things. What's that Up the top? The chocolate chocolate is |
|
| 38:25 | from it. What is it? . What's in the middle? Russell's |
|
| 38:31 | out. What's this down here? does it have in it? That's |
|
| 38:36 | , there's something in common between cocoa sprouts and this. What is it |
|
| 38:43 | had Baker's Chocolate? Would you like cocoa? No sugar? Is it |
|
| 38:50 | ? Yummy to eat? No, little kids. You went into your |
|
| 38:54 | and you saw moms. Cocoa in is the baker's chocolate. You're |
|
| 38:59 | right? You snuck in there, , just like these bricks. They're |
|
| 39:02 | , Why are they hiding this stuff me? And you shove it in |
|
| 39:05 | mouth and all times, like and it's like the end of |
|
| 39:09 | It's like your dreams have been right? Coco is incredibly bitter. |
|
| 39:16 | you had a Brussels crap? Our sprouts Sweet and yummy and savory or |
|
| 39:21 | ? What is it? It Z , it's bitter. What do you |
|
| 39:30 | to do? Your brussels out to them edible? Uh huh. Balsamic |
|
| 39:35 | . So you're putting a lot of acid. What else? A lot |
|
| 39:40 | people cook them with lots of So get those fats going, |
|
| 39:44 | And, of course, if you them in bacon, everything right? |
|
| 39:48 | that's another way to dio. But themselves, Brussels sprouts, even if |
|
| 39:52 | just steam them or saute them like brassica is incredibly bitter. And then |
|
| 39:59 | we got here is beer. Never a beer. Okay, You're I'm |
|
| 40:06 | gonna turn you in if you're under . Yeah. Is it bitter? |
|
| 40:10 | , it's bitter. Why anyone and saying online? Why it's bitter. |
|
| 40:17 | huh. No, it's not So far. We're dealing with |
|
| 40:21 | Where does cocoa come from? Where does Brussels sprouts come from? |
|
| 40:26 | , no. Uh their their their plants there. Lisa plants. |
|
| 40:32 | So, brassica, what is it beer? Beer is weak or other |
|
| 40:38 | . Other weeks, but What is that makes it better? It's none |
|
| 40:41 | that. It's not the weed. not barley. It's not, |
|
| 40:45 | you know any of those things. it's the thing that makes and I |
|
| 40:51 | a, really, really stand What is that? Starts with an |
|
| 40:55 | linds within s and what's what bunny do all spring long hops. You |
|
| 41:00 | what hops is? It's a It's actually the flower of a |
|
| 41:06 | all right. And it's actually a . That's why they put it in |
|
| 41:10 | . And it gives it that It preserves the beer so it can |
|
| 41:13 | longer. And so I pays. incredibly happy because you make them |
|
| 41:17 | and then you send them around the Horn of Africa over to India and |
|
| 41:21 | the name India Pale Ale, and would deliver it, and by then |
|
| 41:25 | wouldn't be spoiled. It still be to drink. All three of these |
|
| 41:29 | are bitter. Now, why are bitter? Things are bitter because they |
|
| 41:34 | your body to stay away. Yeah, All right. There basically |
|
| 41:41 | produced by the plants so that the says don't eat me yet. But |
|
| 41:50 | we have is we have a bunch receptors in some of them. It's |
|
| 41:55 | . And we and we, we of, like, develop a taste |
|
| 41:58 | him. But think about other things are poisonous to you, Alka. |
|
| 42:01 | , I mean, um, if let me just do it this way |
|
| 42:04 | you give chocolate to a dog, happens to the dog? It |
|
| 42:08 | So chocolate is, in essence, toxin to cane IDs. Alright, |
|
| 42:14 | chocolate to a human and they become best friend and they might even marry |
|
| 42:19 | , right? So you could see results because what we've done is we've |
|
| 42:25 | we've become acclimated to Some of these were not harmful to us, |
|
| 42:30 | But it's a strategy that plants use keep themselves alive. So we have |
|
| 42:35 | and tons of these bitter receptors. mean, I think there's some of |
|
| 42:38 | neighborhood between 1500 at this point that discovered, and the purposes is to |
|
| 42:43 | us know when you put something in . When we get that bitterness, |
|
| 42:47 | might be something that's trying to kill . And so what's the first thing |
|
| 42:50 | do when you put something bitter in mouth. Go back again to that |
|
| 42:53 | . What did you do? You spitting it out, right? The |
|
| 42:58 | time you had a brussel sprouts, didn't go. This is my favorite |
|
| 43:01 | ever, right? It took years years of torture before your body finally |
|
| 43:05 | said Okay, I submit. I eat the Brussels sprouts, right? |
|
| 43:12 | . Just having fun with you. . So that's what these are? |
|
| 43:17 | , are the by. The xylitol the chemical that you find in |
|
| 43:25 | It is the molecule that's found in stevia leaf that they use. So |
|
| 43:29 | you see the word stevia, you're dealing with a little it Z. |
|
| 43:34 | just what it is. Just a , sugar, alcohol. I should |
|
| 43:37 | clear. It's a sugar alcohol. right, now, I could get |
|
| 43:42 | in this stuff and I could talk about this stuff, but you kind |
|
| 43:44 | get the sense of what's going on I'm detecting what's in my environment through |
|
| 43:49 | things. I'm putting things in my , and if it's sugar, that's |
|
| 43:53 | fuel. If it's savory, it's fuel. If it's bitter, it's |
|
| 43:57 | going to kill me. And so trying to get get rid of. |
|
| 44:00 | we've adjusted that now. Yes. . Yeah. So? So that |
|
| 44:11 | . So what it is, is ? You, you you recognize the |
|
| 44:15 | to go along with the thing that actually enjoy. So what is it |
|
| 44:18 | copy that we that we live for . I mean, if we |
|
| 44:21 | we just put straight into our right? It's not. It's not |
|
| 44:25 | flavor of the coffee, but what is is eventually you start associating the |
|
| 44:30 | with the effect, and the effect coming from the caffeine. And that's |
|
| 44:34 | becomes pleasurable. Same without I mean alcohol. The first time you ever |
|
| 44:37 | alcohol, you're like, Why did ever put this in my mouth? |
|
| 44:40 | then you grow up and it's I cannot wait to try these 7000 |
|
| 44:45 | , right? You know, that's just the way it works is because |
|
| 44:49 | brain starts associating these thes flavors with what you're getting from it. And |
|
| 44:56 | is actually true. With all your , you just don't really recognize |
|
| 44:59 | right? I mean, you, here. I mean, and I'm |
|
| 45:02 | to the extreme. Here you hear women with pregnancies, or like I |
|
| 45:05 | to have the pickles in the ice , right? That's the extreme |
|
| 45:10 | Are they really craving pickles and ice ? No, they're not craving |
|
| 45:13 | What they're craving is the fast, sugars and literally the chemicals that are |
|
| 45:19 | the pickle. You know, they the gas and whatnot that the salt |
|
| 45:23 | really what we're trying to get, their body is craving and they know |
|
| 45:26 | , and the brain says, I where this comes from, so that's |
|
| 45:29 | the craving comes from. This is even for chocolate. Chocolate gives me |
|
| 45:34 | high. You know, I get caffeine I get the all the the |
|
| 45:39 | love emotions that are found in in chemicals that are there. I |
|
| 45:44 | it's just like the the best thing . Yeah, the person final immediately |
|
| 45:50 | before Democrat is because off No. they so animals have the same sort |
|
| 45:58 | things. They are attracted the things give them the fuel. So, |
|
| 46:01 | example, if you put kept station on your bird seed, right, |
|
| 46:06 | do that because you don't want the to eat it. All mammals are |
|
| 46:09 | to kept saying birds have no, , sensitivity cap station. They have |
|
| 46:14 | receptors, that detective. So they there and they'll eat peppers. You |
|
| 46:18 | , anything covered in peppers? Just . And what strategy is is |
|
| 46:22 | The pepper plant is saying, I'm gonna use birds to scatter my |
|
| 46:27 | . Actually, it's not. Not they're they're not sentiment, but it's |
|
| 46:30 | strategy that has evolved. It's Oh, I'm getting eaten. This |
|
| 46:35 | OK. They get this. But am gonna have my seeds when they |
|
| 46:39 | out. Not only do I get see, but I get the nutrition |
|
| 46:42 | gets on it. So part of is is ah, plant strategy to |
|
| 46:47 | kind of reproduce itself, right? why why aren't we sensitive or why |
|
| 46:54 | sensitive capitation? Who knows? I tell you, but we are. |
|
| 47:01 | are we a fearful of calf No. I'm growing ghost peppers in |
|
| 47:05 | yard. Million Scofield units love You know I live for this |
|
| 47:11 | I don't know. I'm weird. , so I've got four slides in |
|
| 47:17 | . I'm just going to skip over I You know, this basically just |
|
| 47:21 | you how recent we I'll answer your , but let me finish. |
|
| 47:25 | this just shows you how recently discovered receptors, you know? So just |
|
| 47:29 | give you a sense, you're as or barely older than when we discovered |
|
| 47:35 | . Things like salty. You're Ken the When the salty INEC receptor was |
|
| 47:40 | . So to give you a sense how recent not discovery is yes, |
|
| 47:53 | , Mhm. That's again. I know the answer, that the likelihood |
|
| 48:01 | that they lack the receptor. All , So, for example, I |
|
| 48:05 | drink coffee. I love the smell coffee, but when I taste |
|
| 48:09 | it is like like someone has vomited my mouth and it doesn't matter. |
|
| 48:14 | can't. You can put the amount sugar and cream and whatever to but |
|
| 48:18 | that alkaloid that's in coffee that I get past. And the same thing |
|
| 48:23 | members of the tomato, family and . Even though they're closely related to |
|
| 48:27 | , peppers, I could do just , but tomatoes I can't get past |
|
| 48:31 | raw tomato. I'll let them I can eat them, you |
|
| 48:35 | Crushed. I mean, I love sauces. I love salsas Where your |
|
| 48:39 | know your butt. PICO de No, I can't get past it |
|
| 48:44 | I'm very sensitive to whatever that alkaloid . I just don't like it, |
|
| 48:48 | it's probably the same thing. It's a sensitivity that either mutated out. |
|
| 48:53 | so it's basically just kind of expanded . Um, if you don't know |
|
| 48:57 | Brask, a family of vegetables basically up the majority of our vegetable |
|
| 49:02 | So you're talking brush brussel sprouts, , cabbage, kale, cauliflower, |
|
| 49:08 | greens, any sorts of greens. , you know when you hear the |
|
| 49:11 | green not like lettuces, but like , collard greens, mustard green all |
|
| 49:15 | same, plant mutated over time to us weird shapes by Brussels sprouts. |
|
| 49:23 | , all right, anyway, So that's what this is. So just |
|
| 49:25 | at this for giggles if you want . The other thing is, I |
|
| 49:28 | to point out, is that there probably other taste receptors in our bodies |
|
| 49:33 | we don't really know yet, So dioxide looks like, um, there's |
|
| 49:38 | enzyme mouth and also a receptor that us to detect it. Ah, |
|
| 49:43 | dioxide is typically, um, a of bacteria being in the food. |
|
| 49:50 | it kind of gives a tingly feeling your tongue so that basically the sign |
|
| 49:54 | something is rotting and probably shouldn't be . Yeah, but yet we |
|
| 49:59 | So doesn't pop rocks. So which carbon dioxide? So there's, you |
|
| 50:04 | , give and take their, um primary, uh, source of fuel |
|
| 50:09 | our bodies for humans is gonna be and fats. Eso Have you noticed |
|
| 50:13 | when everything's that air fatty, it's makes you happy? Probably because we |
|
| 50:17 | fatty receptors. There's the FAA, receptor that's actually found on type one |
|
| 50:21 | . So it appears that that receptors play a role in actually giving us |
|
| 50:26 | sensation will put more of this into bodies. All right, so, |
|
| 50:31 | , just remember, taste is influenced a faction. And then, |
|
| 50:36 | this is what I was mentioning earlier I was talking about people making |
|
| 50:41 | This is, um, the taste map. So your taste buds are |
|
| 50:46 | the specific location you could see up . Um, these are all the |
|
| 50:50 | spots, right? You can see just color coded differently. but it's |
|
| 50:54 | the same spots before the circum valid the foliate and then the funds of |
|
| 50:58 | up here on the on the surface the tongue. And so this was |
|
| 51:02 | discovered back in 1901 The Professor Henig Germany did this. He wrote his |
|
| 51:07 | and was in German, and somebody ahold of the paper and misinterpreted what |
|
| 51:11 | said. He said, There is map for each of these individual flavors |
|
| 51:16 | be found. And of course I , just experimentation tells you that can't |
|
| 51:20 | true, because when you put something your mouth, it doesn't change its |
|
| 51:24 | as it rolls around the mouth. just has a profile, right? |
|
| 51:29 | this tongue map exists, and I have a colleague who taught the tongue |
|
| 51:35 | . I was just like, That's . You can't you can't know. |
|
| 51:39 | I think there's like a YouTube video talks like this. Like, you |
|
| 51:42 | , it's like one of those you , You guys go on and check |
|
| 51:45 | , check out answer. And they're talking, talking back. I'm like |
|
| 51:47 | are hundreds of thousands of students who at this yearly and they're not |
|
| 51:52 | They're They're getting dumber. So So understand, you know that this is |
|
| 52:00 | map, right? And each of different taste buds have different cells within |
|
| 52:06 | that each detect unique types of those or tastes. Olfaction is a sense |
|
| 52:14 | smell. Again, we're looking at . The difference is we're looking at |
|
| 52:18 | chemicals rather than saliva born chemicals, that's actually in the olfactory. And |
|
| 52:22 | allows us to sample food. You , you smell something good, |
|
| 52:25 | Yeah, it smells. Allows us notice that other people have Is that |
|
| 52:33 | recognize? Yeah. I mean, not dogs, but we can definitely |
|
| 52:39 | someone. Go. That is that , right? It also helps us |
|
| 52:42 | recognize danger. You know, I up the fish here, but I |
|
| 52:46 | , you guys smell methane leaking in room. You're just like there's a |
|
| 52:50 | leak that's dangerous. I gotta get of town, right? And |
|
| 52:54 | the gas, the propane, and propane and e can't remember what the |
|
| 52:59 | one is that they use. But , they put in there so that |
|
| 53:02 | can smell because the other two gasses odorless. So the methane is something |
|
| 53:06 | we can recognize. All right, are a faction is not particularly |
|
| 53:11 | It's not very well developed it, it's good enough. Um, where |
|
| 53:16 | find our olfactory receptor cells is in is called the olfactory epithelium, which |
|
| 53:21 | in the upper reaches of the nasal . Alright, So notice how when |
|
| 53:26 | breathe, you know, you're breathing and out, and so the air |
|
| 53:29 | typically flowing low, all right. doesn't mean it doesn't go up, |
|
| 53:34 | mean, but typically that's kind of direction is going, and we have |
|
| 53:39 | in our nose. We have these that are called the nasal conta, |
|
| 53:42 | allow the air to be terminated, other words, because it start |
|
| 53:46 | Whether being laminar an air that gets to the top of the olfactory epithelium |
|
| 53:50 | actually trigger the detection of a smells , Oh, I smelling something. |
|
| 53:54 | so what happens when you smell What do you usually do? You |
|
| 53:58 | in deeper to pull up mawr air into the olfactory epithelium. All |
|
| 54:03 | Now, the cells up there that interested in are called the olfactory receptor |
|
| 54:07 | . These air. Actually, a neurons. Alright, They are |
|
| 54:12 | You can see in our little carts down here. They travel up through |
|
| 54:15 | crib reform plate, which is the of the bone roof above the olfactory |
|
| 54:22 | . And they travel up to the factory bold. And actually, those |
|
| 54:27 | of those axons give rise to the nerve. All right, so the |
|
| 54:33 | nerve is not one. It's like 1000. All right, so they're |
|
| 54:38 | the olfactory nerves now, surrounding these , we have support cell support |
|
| 54:42 | primarily make mucus, start our little . That's these green things. And |
|
| 54:46 | little tiny green things that are a itsy bitsy those. They're called the |
|
| 54:49 | cells to give rise to both the receptor cells as well as the support |
|
| 54:54 | . All right. And the truth , is these kind of have, |
|
| 54:57 | , lifespan of around 40 to 60 , and I should have brought back |
|
| 55:01 | cells in your mouth. The gustatory Selves. They have a life span |
|
| 55:05 | about 10 days. So just think all the activity goes on inside your |
|
| 55:09 | . How rough it is. All hot food you eat the pokey food |
|
| 55:12 | you eat and stuff. So you're turning those cells over All right about |
|
| 55:16 | every 10 days. And easy way remember that if you drink a |
|
| 55:18 | really hot coffee, everything tastes like for about three or four days, |
|
| 55:23 | , because there's already turnover going and eventually you'll turn over enough cells |
|
| 55:27 | it stops tasting like metal. Starts tasting like food again. Yeah, |
|
| 55:32 | right. Now, our focus is be these olfactory receptor cells. They |
|
| 55:37 | bipolar neurons. You can see here cell body. There's one dendrite. |
|
| 55:42 | the acts on traveling up. You see I've tried to mark your factory |
|
| 55:46 | there. That's cranial nerve number It's not just one of them. |
|
| 55:48 | thousands of them, all right, Dendrite travels down, penetrates through and |
|
| 55:55 | of the olfactory epithelium and kind of outward in a layer of mucus. |
|
| 56:00 | there's your layer of mucus and in layer of mucus at the end of |
|
| 56:03 | , then direct. You have these tiny extensions, which we refer to |
|
| 56:07 | old factory hairs, and it's on old factory hairs that kind of extend |
|
| 56:11 | is where you're going to see the penny receptors, the molecule receptor for |
|
| 56:15 | receptor cell. All right, so of these cells of which there are |
|
| 56:21 | thousands each of these cells has full receptor. Now, let me make |
|
| 56:30 | I explain this Well, all You have thousands of cells, you |
|
| 56:34 | thousands of receptors. There could be that have the same receptor. |
|
| 56:39 | So you could have left. I'm making a member. Let's say you |
|
| 56:41 | cells that have the same receptor That's . All right, but a single |
|
| 56:46 | can't have mawr than one type of . That makes sense. Okay? |
|
| 56:52 | like it when you guys not your . That's a really good sign for |
|
| 56:55 | . It's like, Yes, I when you kind of scared me like |
|
| 57:01 | Yeah. So what is the characteristic an odor? All right. Odors |
|
| 57:10 | made up of many, many alright? And so each of the |
|
| 57:14 | molecules within a complex odor is called oder rent. Alright. So many |
|
| 57:20 | to make up a odor now, order for in order, not an |
|
| 57:26 | . And in order for an odorant be detected. It has to have |
|
| 57:29 | characteristics. The first is that needs be volatile. Volatile, volatile does |
|
| 57:33 | mean explosive. Volatile means that it vaporize. All right, So if |
|
| 57:38 | took perfume, which is usually in it's a it's a no odorant that |
|
| 57:43 | locked with a whole bunch of um, volatile materials such as |
|
| 57:48 | If I put it on the table here, eventually that stuff would evaporate |
|
| 57:53 | it worked its way outward towards you , and you'd be able to detect |
|
| 57:57 | . Alright, so that's volatile. not gonna ask you to, but |
|
| 58:02 | can imagine you could put your face and smell your desk. Would you |
|
| 58:06 | to do that? No one would to do that because there's all sorts |
|
| 58:10 | nasty molecules sitting on the surface of desk. You're like, Oh, |
|
| 58:16 | , forgot public space touching things. all I have is my mask E |
|
| 58:23 | ain't gonna save you folks, all ? But those molecules, they're they're |
|
| 58:27 | not volatile. That's why you don't them. Okay, The second thing |
|
| 58:32 | that those molecules need to be water . And that means that once they |
|
| 58:37 | they becoming a vaporized when they work way into the nasal cavity, they |
|
| 58:43 | to be able to penetrate through that , which is primarily water plus |
|
| 58:49 | And if you could dissolve through that , then you can get to where |
|
| 58:53 | olfactory receptor cells are located. So the two characteristics. And we kind |
|
| 58:58 | already knew this. Because whenever we someone who's stinky, what do we |
|
| 59:00 | ? We give them stink lines, we? Now I want to show |
|
| 59:05 | picture up here at the top. right, that's an actual job. |
|
| 59:09 | right, so they're super smeller. see a characteristic about the super |
|
| 59:12 | what each of those super spellers have common. They're all women. That's |
|
| 59:18 | . Women have a better sense of than men do. So actually, |
|
| 59:22 | a million full time or, you , a million fold greater. And |
|
| 59:26 | did they detect that way? It's they can give us things. All |
|
| 59:30 | , here's a sense. Here's something want to smell and you know we |
|
| 59:34 | both found. Then they dilute it and 10 fold 10 fold when men |
|
| 59:38 | so that they can keep diluting and you can dilute it six more |
|
| 59:42 | . And women. It's at that when women like I can't smell |
|
| 59:45 | All right now, guys, you don't know this yet, but when |
|
| 59:49 | have a wife, you'll find out come home. And what's that |
|
| 59:53 | Shit. So Ah, one of kids haven't showered, I guess. |
|
| 60:02 | . What's your husband? I don't . Alright. So women have a |
|
| 60:08 | sense of smell than men do. a million fold. That's just |
|
| 60:12 | Yeah. Uh huh. Uh, there's volatile chemicals within it. It's |
|
| 60:22 | the wax that you're smelling your you're the chemical, the intellect Keep that |
|
| 60:26 | or keep that candle around for on 10 15 years and see if it |
|
| 60:30 | has a smell. It won't. , candles that have smells that keep |
|
| 60:35 | for 10 or 20 years have been . So all those chemicals are still |
|
| 60:39 | in there. And how do I we have plenty of Yankee candle sitting |
|
| 60:44 | the house that have been around for 15 years? It's like, Why |
|
| 60:46 | we keep this around? Because it melts down. It's just there. |
|
| 60:52 | you we're gonna have fun today. right, So how do we detect |
|
| 60:55 | smell? Like I said, we deeply to get that stuff up into |
|
| 61:00 | olfactory epithelium. Those odorant they're gonna through the mucus and they're going to |
|
| 61:04 | into contact with the receptor, And usually what we have is we |
|
| 61:09 | a special binding protein that it's sitting . This is actually kind of |
|
| 61:13 | It's kind of serves as a way grab the odor and bring it to |
|
| 61:16 | receptor. All right, so they all use this. But there are |
|
| 61:20 | things, and this is the All right, this is the transaction |
|
| 61:24 | . And does this transaction cascade look to you? It should, because |
|
| 61:29 | a G protein coupled receptor. There's G protein. There's, uh, |
|
| 61:34 | cyclists. And look, there's a at the end. And this is |
|
| 61:37 | all the same thing that you've already . And when I said that, |
|
| 61:39 | going to see this over and over . There's about 1000 different genes here |
|
| 61:43 | use this pathway specifically in the nose each individual odorant, and that's how |
|
| 61:49 | give rise or are able to detect smell. And what we're doing is |
|
| 61:54 | we detect the smell, we activate pathway and that causes the opening of |
|
| 61:57 | channel. That channel allows calcium and to come into the cell to |
|
| 62:01 | the polarizes and that cell fires to I've detected this particular chemical again. |
|
| 62:08 | not the chemical that used. It's neuron that fires. That says, |
|
| 62:13 | this is there, this is what detecting. All right Now that signal |
|
| 62:21 | up into the olfactory bulb, and can see here now a little bit |
|
| 62:24 | clearly. Here's an olfactory nerve. an olfactory nerve. There's an olfactory |
|
| 62:28 | , and so there's thousands of and you can kind of see in |
|
| 62:31 | picture you get more of that little of that toothbrush look right? So |
|
| 62:36 | you look at it, you see olfactory bulb that's the big thing. |
|
| 62:38 | a little tiny hairs that air hanging that are the olfactory nerves. It's |
|
| 62:43 | the ax on bundled together, and you're doing is you're going up in |
|
| 62:46 | olfactory bulb into this round structure called Old Factory Glam aerialists. And |
|
| 62:51 | what this is is where the, , the primary neuron comes into contact |
|
| 62:55 | the secondary neurons. The secondary neurons the mitral and tufted cells. And |
|
| 63:01 | is where we're going to start modifying signal. In other words, what |
|
| 63:06 | gonna do is we're sending signals up this to a specifically Marylise to say |
|
| 63:09 | am spelling this particular smell. And it's a strong enough signal that's gonna |
|
| 63:14 | the mitral tufted sells this in signals and onward to the hypothalamus. Evening |
|
| 63:20 | and onward to the olfactory cortex. right, so you go to the |
|
| 63:25 | cortex so that you could say when smell X. This is what's |
|
| 63:30 | All right? I'm smelling strawberries. artificial strawberry smell kind of like strawberries |
|
| 63:35 | of enough to make you go Call strawberry. Okay, because you're activating |
|
| 63:43 | pathways. All right. Now, it smell exactly like it? |
|
| 63:46 | You all looked at me like I from Mars, like and not |
|
| 63:49 | because there's other things that you smell there that make it very, very |
|
| 63:53 | . Right? But it's strawberry and you girls are young enough or |
|
| 63:59 | enough. Excuse me to ever have a strawberry shortcake dog. All |
|
| 64:05 | Did you have started your question? , that's the artificial strawberry. But |
|
| 64:08 | blueberry ones felt awesome because blueberries still . Whether they're fake or real, |
|
| 64:15 | something. It's like, Yeah, . I'm impressed that you had one |
|
| 64:19 | those were, like, way and I know they brought them back |
|
| 64:22 | a little while, but then just right. But in essence, what |
|
| 64:26 | doing here is your signaling up to cortex to say this is what's going |
|
| 64:30 | and when you create the right pattern you repeat the pattern over and over |
|
| 64:34 | , that's when your body is saying is what I'm detecting The media in |
|
| 64:38 | hypothalamus are sending into Olympic system. that's where you're getting that sense of |
|
| 64:42 | , that sense of attachment to right? So when you smell dirty |
|
| 64:47 | , what is your response? What's emotional response to Dirty Sock? |
|
| 64:52 | it's like That's like it's Jim, ? But you smell baking brownies. |
|
| 64:59 | is your response? It's like someone me, right? And you get |
|
| 65:04 | . So that's that's when we're talking the limbic system. This is one |
|
| 65:07 | the areas one of the things that not project to the thalamus. All |
|
| 65:11 | , so what I have here is how do we go through this process |
|
| 65:16 | detection and what I'm trying to demonstrate picture is we're trying to just keep |
|
| 65:20 | real simple. You can see here the little tiny hair cells you can |
|
| 65:24 | the little odorant. They're color coded match the receptor cell that has the |
|
| 65:28 | receptor. And what it's saying Look, there's lots of cells that |
|
| 65:32 | same receptor, but you have a cell for specific receptors. So if |
|
| 65:37 | looking at this and we're trying to code this, we could say red |
|
| 65:40 | cherry blue is blue berry and green sour apple or Brussels sprout sour |
|
| 65:48 | I don't know lime there, that's easy one, right? And so |
|
| 65:52 | happening is that you have enough odorant you've all been to sonic right, |
|
| 65:56 | you've all gotten your drinks and you your ad ends in and you can |
|
| 65:59 | there and you can smell like a line. Manure smell like Cherries and |
|
| 66:03 | , right, But because your soda , that's what they're actually called the |
|
| 66:07 | jerk actually squeezes the wrong thing and get some blueberry in there, you'd |
|
| 66:12 | be able to smell it, But if there was just a |
|
| 66:15 | because let's face it, they're not clean it sonic. You know there's |
|
| 66:19 | dripping from those things, and so might get a little drop in |
|
| 66:23 | And while it may be enough to a single receptor, it's not enough |
|
| 66:27 | actually, uh, cause the mitral and the tufted cells to respond to |
|
| 66:31 | . So what we're doing is we're downplaying the insignificant smells, but we're |
|
| 66:36 | we're gonna amplify or demonstrate the larger , and that's what it's trying to |
|
| 66:41 | . It's basically we're saying the glamorous a role in refining what's being |
|
| 66:47 | Notice also, All the red cells to the red glow. Marylise. |
|
| 66:50 | the blue cells go to the blue lists. All the green cells go |
|
| 66:53 | the green gloom. Aerialists. All , so there's a high degree of |
|
| 66:57 | in this. They're not things they're just criss crossing, going here and |
|
| 67:00 | and everywhere. All right, Now like showing this because this gives you |
|
| 67:09 | better sense of understanding. Alright? again, I'm not gonna I'm not |
|
| 67:13 | hammer this point. I mean, the test, I just want you |
|
| 67:16 | understand conceptually. So what? You see up here we have five different |
|
| 67:21 | . We know in our own We have about 4000 of them. |
|
| 67:24 | right, so this is gonna be for all 4000 and down here on |
|
| 67:29 | right side of the graph, you , moving vertically. Those are showing |
|
| 67:34 | the different number of utterance that are to you again. How many odorant |
|
| 67:39 | there in the universe? Basically an number of molecules and shapes. |
|
| 67:44 | But you're not gonna create an odorant a receptive for each individual odorant. |
|
| 67:49 | you're gonna do is you could see different receptors respond differently. That's the |
|
| 67:55 | of the circle, represents the degree response for different receptors. So, |
|
| 68:00 | example, odor and a highly activates halfway activates blue, activates even a |
|
| 68:07 | bit less yellow doesn't activate. Green activate purple. So when you have |
|
| 68:12 | and a come along, you're going get this unique pattern across those five |
|
| 68:18 | receptors And that pattern is gonna be in the neuron that are traveling up |
|
| 68:24 | the olfactory, um, cortex, that when you see that when the |
|
| 68:29 | produces that pattern, it says, , this is this particular odorant And |
|
| 68:36 | do that multiple different times, multiple patterns. And all of a |
|
| 68:40 | now you can see how we can . Basically, the gambit now you |
|
| 68:45 | know them in a file is it's fancy word for something. You hear |
|
| 68:50 | word N f. I'll know you You know what a file is, |
|
| 68:54 | ? File is someone who likes or . Alright, Phileo love, right |
|
| 69:02 | No refers toe wine. So now can see where this is going. |
|
| 69:06 | wine lover, Alright? And you've wine lovers portrayed in a very interesting |
|
| 69:11 | , right? They get their big glass of wine right, and they |
|
| 69:15 | it up and what do they dio First they swirl it. Why are |
|
| 69:19 | swirling our wine? It's to actually movement cause those molecules odorant to become |
|
| 69:26 | volatile toe actually rise up out of liquid and into the area inside that |
|
| 69:34 | , right? And usually what you is you have a cup that actually |
|
| 69:37 | of turns inward and kind of And then that in a file. |
|
| 69:40 | they do that swirling sticks their nose the cup, its neighbor outside is |
|
| 69:46 | inside. A good enough. I do that and then what do they |
|
| 69:50 | ? And then they talk pretentious. . I get hits of jams, |
|
| 69:57 | cherry wood. It's kind of a little green, right, you |
|
| 70:07 | . And what they're really doing truthfully , even though we're making fun, |
|
| 70:13 | they are detecting unique odorant that create patterns. So that's why they're saying |
|
| 70:18 | are the things that I smell. right now, again, there's |
|
| 70:24 | And then there's Yeah, this is of, you know, taste kind |
|
| 70:28 | like great game to me or this jelly or whatever. You know, |
|
| 70:33 | could taste those things. I can those things, all right. But |
|
| 70:36 | where that comes from, is because not detecting and saying just part of |
|
| 70:41 | brain says Okay, this one receptors turned on, so I'm tasting |
|
| 70:45 | It's the pattern that's being produced all receptors, and we spent time |
|
| 70:55 | about to chemo receptors here. But is generally speaking. All receptors are |
|
| 71:00 | one of two type. So this another way to look at receptors. |
|
| 71:04 | , they can undergo adaptation in one two ways. They can either be |
|
| 71:09 | what is called slow adapting or fast . Slow adapting. The term is |
|
| 71:14 | . Fast adapting is phasing. And best way for me to explain this |
|
| 71:18 | you is that slow adapting receptors um, stay on the entire time |
|
| 71:23 | they're being stimulated. All right, , it's not entirely true because they |
|
| 71:26 | diminish over time and eventually will drop , which is why they referred to |
|
| 71:30 | slow adapting. But you can kind see this top picture. What is |
|
| 71:33 | referred to sew up here again? is the stimulus is binary. So |
|
| 71:38 | you're down on the bottom line, zero. When you're up to the |
|
| 71:41 | line, you're at one says basically and off. Well, it's often |
|
| 71:44 | on. Excuse me, and you see when the stimulus comes along, |
|
| 71:49 | ? Sorry. When the stimulus comes , what happens is I get deep |
|
| 71:55 | which results in a Siris of action . right now, you can see |
|
| 71:59 | the this adaptation as the potentials get and further apart. But when the |
|
| 72:05 | goes away, what do I do I lose the response and these types |
|
| 72:11 | receptors are located where you need to information about your environment all the |
|
| 72:18 | So an example of this would be your posture and the muscle that are |
|
| 72:22 | for posture. Your body needs to the position of itself all the |
|
| 72:28 | right? So if you start leaning little bit forward, it's gonna fire |
|
| 72:32 | say You're leaning a little bit too . You need to change. And |
|
| 72:35 | it's gonna cause you do go even though it's doing it unconsciously. |
|
| 72:40 | , fast adapting or phase IQ receptor where the information you only three only |
|
| 72:47 | need to know is when the stimulus changed. Right? So you can |
|
| 72:51 | where the stimulus turns on and off right there. I'm turning on the |
|
| 72:56 | over here. I'm turning off the . And so what do we |
|
| 72:59 | We got a serious of action potential you turn on even though you're still |
|
| 73:03 | , nothing's going on down there, ? I mean, you got this |
|
| 73:06 | of nothing. And then when you it back off, what do you |
|
| 73:10 | ? You get another Siris of action . So here, what you're basically |
|
| 73:14 | body is saying is tell me what occurred. That's all I want to |
|
| 73:17 | is when changes occurring. So right you have been walking around all day |
|
| 73:23 | wearing clothes and your body didn't even that you're wearing clothes, right? |
|
| 73:28 | if you're walking along and all of sudden you're close got ripped off your |
|
| 73:31 | , you you'd be like, my goodness, I'm naked, |
|
| 73:34 | You would feel the change now that talked about clothes and feeling it, |
|
| 73:37 | computer closing your body can't, Right? But all day long, |
|
| 73:41 | the moment you put on your up until this moment, you were |
|
| 73:44 | like I put on the clothes. go. They're they're your skin was |
|
| 73:47 | , Yeah. Okay. I noticed the closer there it doesn't need to |
|
| 73:51 | going. You're still wearing clothes? still wearing clothes? Clothes are still |
|
| 73:54 | your body. Close air still in body. It's on Lee. When |
|
| 73:57 | come on when they go off that body is like, Okay, I'm |
|
| 74:00 | touched now. I'm not being All right, so that should be |
|
| 74:03 | example of a phase IQ receptor. right, moving into a different type |
|
| 74:10 | receptor was talked about some out of . All right, so the special |
|
| 74:14 | that we looked at were gas station . Samantha century is not a special |
|
| 74:21 | . Alright, It's just simply detecting touching your body and these air mechanical |
|
| 74:26 | . All right, there are the numerous type of receptor. They're all |
|
| 74:30 | the place. They're located within the and the subcutaneous regions. And I |
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| 74:34 | we don't talk about the epithelium are epidermis, but or really, I |
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| 74:39 | call it the Integra Mint. That's entire thing. But the top part |
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| 74:43 | your skin is the epidermis is basically . It's not entirely, but just |
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| 74:48 | with me because, yeah, like, this much alive, and |
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| 74:51 | this much debt, all right. then underlying that, that's the |
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| 74:56 | That's where you have blood vessels and nerves. All right. And then |
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| 74:59 | that, that's the subcutaneous layers, right? And so the types of |
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| 75:04 | in Nakano receptors that we see B of two types. It could be |
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| 75:09 | or they're gonna be complex when we they're simple. What we mean is |
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| 75:12 | they're dendritic ends, lack of and a structure. They're basically free and |
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| 75:19 | . Where when they're complex, they connective tissue that wraps around them. |
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| 75:23 | here you can see that's connective tissue around. There's a friend. |
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| 75:28 | there's a friend right there. There's friend right there. Okay, so |
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| 75:35 | ends and the UN encapsulate its lack protective coating. All right, they |
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| 75:42 | in all sorts of different types of sensation in the skin. You can |
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| 75:45 | the big giant list. They're typically fibers themselves are annihilated. So the |
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| 75:51 | is slow in getting its way back the central nervous system. They are |
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| 75:57 | primarily in the epithelium and primarily in connected to their all over the |
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| 76:01 | They're not limited there, but that's you see a lot of them. |
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| 76:04 | so classified. We have the free ending. All right, so that's |
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| 76:08 | they're showing you in these pictures right . I'll just circle another one for |
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| 76:11 | . so there is a free nerve . There is a free nerve |
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| 76:14 | We have what is called a root plexus. It's not in this |
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| 76:17 | but it's basically a free nerve ending around the base of a hair, |
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| 76:21 | . So when you grab a hair you pull on, you get that |
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| 76:24 | . Let's try and find a single , have plenty of hair. You |
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| 76:28 | I'd be able to find one There we go. So when I |
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| 76:32 | that that's a that's a root hair , I'm feeling the tug on that |
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| 76:37 | and then a Merkel disk is very to a free nerve ending, but |
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| 76:43 | very specific on this. I want see if I can find when you |
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| 76:46 | okay. It's this right here and it's basically it's a single cell |
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| 76:51 | located in the epidermis at the base the epidermis, and what you do |
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| 76:55 | you have this fiber that goes up it. So you detect things through |
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| 76:58 | Merkel disk and it sends things in cell that comes right up to |
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| 77:02 | So it's a very localized structure. encapsulated these air, the complex ones |
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| 77:09 | , they have glial cells that are the end, plus have connective |
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| 77:13 | and they detect certain things in different . So they're named after their |
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| 77:17 | which makes things very, very So we have Crouse's bulb, which |
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| 77:20 | not shown here. The key thing crosses bulb is that it is found |
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| 77:25 | mucus member. Sorry, Mucous Okay, now this is very, |
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| 77:30 | similar to Meisner. Score Puzzle misers puzzle is not found in mucous membrane |
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| 77:38 | found in your glamorous skin, which a fancy word for saying stuff on |
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| 77:42 | hands. You know the palms of hands and on the soles of your |
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| 77:47 | . Okay, so you can see ridges. Papillary ridges are see how |
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| 77:52 | kind of goes up and down between epidermis and the dermis. Those the |
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| 77:55 | ridges correct. So these primarily deal light, touch, texture, low |
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| 78:02 | vibrations in general. All right, you can think of mucous membranes. |
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| 78:07 | would I want touching my mucous membranes your mucus membranes located? We always |
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| 78:12 | about nose and mouth, but there's other areas that we tend not to |
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| 78:16 | about in polite company, because its . I like to embarrass you. |
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| 78:20 | . We're talking vagina talking anise and talking you re throw and the bulk |
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| 78:24 | the Penis or the glands of the . Alright, the mucus membranes. |
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| 78:29 | where you can find across his So crosses Boulder the fund receptors. |
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| 78:34 | right, we got Puccini's Puccini's way here. We're dealing with the question |
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| 78:39 | deep pressure. Alright, Right. They're a little bit higher up |
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| 78:44 | Connective tissue. They're found in the tissue there, wrapped in connective |
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| 78:49 | they feel primarily stretch. So what doing is when you grab something in |
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| 78:53 | hands kind of roll along surface, get fluttering vibrations. And that's what |
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| 78:58 | detecting is kind of that stretch in . Now you'll see here I have |
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| 79:03 | adapting rapidly adapting. Remember what I When we memorize these things, we |
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| 79:08 | for one thing that's different. So one is the slow adapting? Just |
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| 79:12 | , routine is a slow adapting and good to go All the rest our |
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| 79:20 | This is gonna be last slide I'm show you. And then I guess |
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| 79:22 | do know See scepters on Thursday because gonna take, like, three |
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| 79:26 | Well, way I talked. Maybe . Sorry. Alright. Receptive |
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| 79:31 | And this is just kind of a thing. Receptive field is simply the |
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| 79:34 | where stimulus is gonna be. Typically, we refer to receptive |
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| 79:37 | We're talking about touch, but we receptive field for all of our |
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| 79:41 | So we have visual receptors, we receptors for our ears and so on |
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| 79:47 | are receptive fields. But you can here in this particular pain, is |
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| 79:51 | your Pechiney score puzzle versus misers core . And it's saying, Look, |
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| 79:55 | is the location of the actual and what it does is actually the |
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| 80:00 | over a very large range. That's field. And that's because of the |
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| 80:05 | of routine. Are Puccini's over Here's Meisner is misers. Itsy |
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| 80:09 | teeny, tiny. So only detects very, very small field. And |
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| 80:13 | the size of the field is dependent how broadly the the structure is that |
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| 80:21 | it. So, for example, Puccini's we have this connective tissue connective |
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| 80:25 | encapsulation, which makes the receptive field with regard to my Eisner's. It's |
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| 80:31 | little tiny cell, and that's all is. So if I take a |
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| 80:35 | and I'm poking above that sell, would be able to detect it. |
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| 80:38 | I take a needle, poke outside cell that that pressure is not gonna |
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| 80:43 | detected by that individual cell. So receptive field from Eisner's is simply that |
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| 80:48 | under which, or over which that overlooks. But because we have that |
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| 80:53 | tissue around Puccini's that makes that field bigger and bigger and bigger. So |
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| 80:58 | larger the receptive field is, the we can localize. And here's a |
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| 81:04 | experiments you can do at home. two. Um, e don't even |
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| 81:10 | what I do with my pen. huh. Take two pens or |
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| 81:14 | right? What we call calipers and you could do is you could take |
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| 81:18 | caliper and put it right up Take second caliper and put it down |
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| 81:22 | and start walking that second caliper up arm. And when that person says |
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| 81:26 | only detect one sensation, you can how large the receptive field is. |
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| 81:31 | at it on the on the inside your arm. Do it on the |
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| 81:34 | , your hand, do it on front of your hand and then do |
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| 81:36 | on the back of a leg. gonna see. It's really, really |
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| 81:40 | . It shows you the side of receptive fields. Right? So this |
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| 81:45 | allows for spatial discrimination. You're doing . Do you have to do it |
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| 81:49 | ? So it's, like one. you can feel the one up |
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| 81:52 | right? And then when you feel second one where it's only one |
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| 81:56 | tell her to stop. Yeah, needs sharp calibers. Perfect. All |
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| 82:05 | , with that in mind, I guess we're done for the |
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| 82:09 | I'll go ahead and stop the Um, if there's any questions, |
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| 82:13 | questions from online? Did they all asleep or did they all go to |
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| 82:16 | kitchen, start making food? They even respond. All right. Thank |
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| 82:22 | for the lecture. That's good enough me. Hey, it's weekend |
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| 82:27 | Yeah, I know. What does mean? Uh, I'm so |
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| 82:34 | Yeah, my kids don't even know school is at this point. It's |
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| 82:38 | Yeah, you know, it's Really. Okay. So I'm going |
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| 82:50 | |
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