| 00:23 | Okay. Yeah. Okay. okay, testing. Let me raise |
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| 00:39 | microphone here a bit thing. That's better. Okay. Um, |
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| 00:47 | those of you that are interested. bad news 6 2 to Seattle baseball |
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| 00:55 | Astros mariner 62 if that's your Okay. I realize not everybody, |
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| 01:03 | everybody's thing. Okay. So, , okay, usual stuff. |
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| 01:10 | So, um, so remember, this week's quiz is a unit |
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| 01:17 | Right? So it's one of those , a little bit longer quizzes, |
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| 01:21 | more comprehensive. So cover 78, and 12, which will do, |
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| 01:29 | , At least part of 12. . So we'll probably get through most |
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| 01:34 | that I think, but probably have leftover. But whatever we don't |
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| 01:39 | there won't be questions on the but it probably gets through part of |
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| 01:43 | . Um, let's see mastering due next monday. So today we're gonna |
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| 01:51 | up at least get close to finishing most of the viral life cycle |
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| 01:57 | Okay, so, um, The . So thinking about it because I |
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| 02:04 | that the uh, chapter 12 will looking at like fungi allergy, et |
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| 02:09 | . That is not that long. it's conceivable that we could start. |
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| 02:19 | next week, of course we're starting three. And so it's gonna |
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| 02:26 | we might start that on on but I'll let you know, let |
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| 02:31 | know. Um, okay, so do a little bit of a recap |
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| 02:38 | we essentially finished part one. So kind of do this virus viruses viruses |
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| 02:45 | prions chapter in like two parts part . I think we pretty much |
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| 02:51 | But this is kind of rehash a of things. So the so we |
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| 02:56 | with like what's the definition of a ? Right. Remember it's it's a |
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| 03:00 | not a cell. Okay. It have all the features we think of |
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| 03:05 | we think of a cell. There's really no metabolism. There is |
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| 03:13 | uh obviously he's a host because it have a lot of functions needs a |
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| 03:19 | . Okay so it relies on the for a lot of things obviously to |
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| 03:24 | . So um the basic structure of virus. Okay um at the most |
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| 03:31 | all viruses have a genome of some R. And D. N. |
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| 03:34 | . Uh then surround that with a caps. It okay we get different |
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| 03:41 | of course. Right. Can be an envelope around it possibly that will |
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| 03:47 | it from the it will acquire it the host. Um And of course |
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| 03:52 | specific proteins that we some proteins associated different parts of the infection cycle attachment |
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| 03:59 | a host. These kind of Okay so um and so the terms |
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| 04:06 | it was envelope, it's a naked , it doesn't have the envelope around |
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| 04:09 | . Okay so you should be familiar these basic features um and then in |
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| 04:16 | of lifecycle. Okay so the sequence events itself and you know basically all |
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| 04:26 | kind of followed basically follow this It's where there will be different different |
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| 04:31 | at certain points as we'll see Um but you know it certainly begins |
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| 04:36 | ends with kind of recognize the So the events on the surface of |
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| 04:41 | virus and the host cell recognizing molecules . And then um then of course |
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| 04:48 | next step is to get the genome the viral genome because that's what needs |
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| 04:53 | be translated into viral proteins. Then have the package copies of genomes. |
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| 04:58 | eventually getting to uh intact virus particles then make it the host. |
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| 05:04 | And again and each of these steps can be different variations and we'll see |
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| 05:11 | as we go through these cycles. we went through last time again I |
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| 05:18 | simple simple can be relative but we're about bacterial viruses and our bacteria viruses |
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| 05:24 | fage. Right so you see the fade or bacterial fage bacteria viruses and |
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| 05:30 | we tend to call these more simpler cycles simply because they're infecting these |
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| 05:36 | In fact. Procure erotic cells. . Which compared to eukaryotic cell less |
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| 05:41 | . Right? So um the but sequence of events is not that much |
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| 05:47 | and even have attachment. Right so have what's called a little page and |
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| 05:52 | the second year less a genic right analytics page is um basically it's it's |
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| 05:58 | is seacoast um inter host make lots virus particles kill host and then continue |
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| 06:06 | process. Okay. Um and so doing so we have these basic steps |
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| 06:11 | attachment penetration is entry of the So one of the things about in |
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| 06:16 | to animal viruses we're talking about Material viruses generally only the genome |
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| 06:23 | Nothing else. Everything else stays outside . Okay. Um in the writing |
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| 06:29 | they of course will degrade the host . N. A. Then begin |
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| 06:33 | um direct synthesis of its own viral . Make copies of genome, assemble |
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| 06:41 | uh producing mature fades and then exit host. Okay basically killing it. |
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| 06:48 | so are also called virulent page. . They're gonna kill the host cell |
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| 06:55 | these can go on and infect more more cells. So uh echoes |
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| 07:00 | That's really just the point from where infected and it's inside but has not |
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| 07:06 | complete particles yet. Right. So can see these are all in stages |
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| 07:11 | you know if you making viral stuff then putting it together. Right. |
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| 07:15 | kind of in here it kind of period. We haven't made the particles |
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| 07:21 | but we're putting them together. Um The so when I was going |
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| 07:28 | point out kind of in the context chapter eight I guess it was so |
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| 07:34 | duck shin remember that's that mechanism of gene transfer involving a page. |
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| 07:40 | That's where this would occur here would generalized trans reduction. Right. So |
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| 07:44 | the process of producing these fage assembling they would be taking some of this |
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| 07:50 | D. N. A. That chopped up. right? And it |
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| 07:54 | package some of these things in the instead of its own genome. That's |
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| 07:58 | the transaction process occurs. Okay. a consequence of a lighting page |
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| 08:04 | Okay. And so other viral bacterial viral types can do this |
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| 08:10 | Okay. Which is the um So Jeannie. Okay so here um |
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| 08:19 | do begin with the lighting cycle is part of misogyny but it's um it |
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| 08:25 | two options. Okay? So if if it goes into misogyny, okay |
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| 08:31 | just integrate into the chromosome. Okay it's uh so this is a phase |
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| 08:36 | lambda phase that does this. The up here these landing pages are called |
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| 08:40 | T. T. As in tom . Even like a. T. |
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| 08:44 | a T. Four T. Six what they're called. And they kind |
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| 08:48 | have this mode appear land of has this type, right? So |
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| 08:52 | life life. So jen is when in this mode and we call it |
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| 08:57 | profane is this act of inserting its into the host chromosome. Okay, |
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| 09:03 | of course the host is quite happy that's not negatively effective. Right? |
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| 09:07 | can just continue to grow multiply. of course successive generations are all carrying |
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| 09:13 | Profane. Right. So at a time then these cells begin to enter |
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| 09:18 | lighting stage. Okay so remember that needs to happen if this virus wants |
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| 09:26 | make perpetuate itself. Right? Make itself. So it has to make |
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| 09:33 | intact viral particles because that's how it other cells. Right? You can't |
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| 09:37 | stay permanently as this um because it's the way it can affect other cells |
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| 09:45 | . So you have to get to point eventually. So that means getting |
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| 09:48 | the lighting cycle and you know, don't go into it so much here |
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| 09:51 | this course in terms of how, the transition, what's the what's the |
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| 09:58 | to go this way or that Okay, it's really nutritional. |
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| 10:03 | so the page in this state can what's going on inside the cell. |
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| 10:08 | , you can synthesize proteins that kind can there are certain molecules in a |
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| 10:14 | that kind of can tell you the of the health right? Typically these |
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| 10:17 | things involved in energy type processes and eight Ep levels, things like that |
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| 10:24 | it can kind of sense that. um you know, for those that |
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| 10:28 | be curious, the cue to go way or the other is really based |
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| 10:34 | the nutritional state. And so if abundant nutrients then of course this cell |
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| 10:40 | happily growing divide. We already know from chapter four or six, I |
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| 10:46 | anyway, so it'll give nutritional growth so that's the opportunity then when these |
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| 10:54 | should exit because now they've got when go into like cycle and these cells |
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| 10:59 | out come out now they've got lots hosts around them because the cells have |
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| 11:04 | quite happily to high density and so the time to break out because now |
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| 11:10 | can be sure of having lots of cells to infect. Okay. And |
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| 11:14 | when you have deprived cells are okay then they're not going to grow |
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| 11:19 | well or grow slowly if at And so that's probably not a good |
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| 11:24 | for the face to pop out of state into the life cycle because we're |
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| 11:28 | this state now coming out right. guys might not have a lot of |
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| 11:35 | to in fact. And so that's of that's why really the the the |
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| 11:41 | nutrient levels and the growth rate of host cells are kind of would drive |
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| 11:46 | right. Will I have lots of to infect or not if I break |
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| 11:50 | . So that's kind of why they that, that aspect of the |
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| 11:53 | Okay. So um ah and so surprisingly, you have of course you |
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| 12:01 | e coli in your gut, And landing pages in there, infecting |
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| 12:05 | coli eyes and doing less so ginny it's actually tied if you have a |
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| 12:10 | right? They've seen where you can a burst of landing page coming out |
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| 12:16 | infecting cells just when you have a because that food translates going into your |
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| 12:21 | colon, gets lots of food to , they proliferate and then you see |
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| 12:25 | you see them coming out of licensing life cycle and then when you're between |
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| 12:30 | , right? It's less less of . All right. So there is |
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| 12:34 | just suggestive of this how nutrients can this process? Okay. Um Any |
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| 12:41 | about any of these parts too? . So as we went to animal |
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| 12:48 | , let's start with this question Because those are you try to excels |
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| 12:55 | hosts are more complicated eukaryotic cells. going to be more options if you |
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| 13:02 | for virus depending on um the type virus. It is Okay but there's |
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| 13:10 | one thing you can look at that give you a clue as to what |
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| 13:15 | will do in terms of its life . Okay. And this feature is |
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| 13:21 | the one that you can use. always foolproof but it's it's it's one |
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| 13:27 | can use. And so again as go through these ammo virus life |
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| 13:33 | it's gonna be a little more complicated again the nature of the cell is |
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| 13:39 | the there's also bacteria viruses we've been about pretty much our D. |
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| 13:45 | A viruses. Okay. But animal can span much more than that. |
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| 13:51 | are in a uh single strand of stranded and that can bring another level |
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| 13:56 | complexity a little bit. So but go through it. Okay so uh |
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| 14:03 | That count down from 10. Alright. 32 one. Yeah. |
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| 14:20 | . So it is going to be genome. Okay so um generally whether |
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| 14:29 | not it has an envelope that's more how it exits the cell. So |
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| 14:35 | may happen. It may not um in terms of predicting predicting, okay |
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| 14:41 | have a virus I have a DNA where it might what do I do |
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| 14:45 | that cell? That's kind of the key. Okay. And so generally |
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| 14:51 | viruses and so now we're just talking animal viruses. So DNA viruses typically |
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| 14:57 | go to the nucleus. Arnie viruses . Do their replication in the process |
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| 15:04 | the nucleus. Okay. So it's about is it going to nucleus or |
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| 15:08 | ? Generally the type of genome it will tell you that there's a reason |
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| 15:12 | that. Okay so um so I'm about so we'll start with animals so |
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| 15:19 | viruses have variations and how they enter . Okay, attachments. You |
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| 15:25 | The principle is the same depending on the viral type is. Right. |
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| 15:29 | they have the proteins on the surface the host that they recognize and combined |
|
| 15:33 | and then start the process. But entry can be can vary. |
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| 15:38 | . So what we call the encoding is simply just how does it get |
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| 15:43 | genome free and into the cytoplasm. . That's basically what encoding is. |
|
| 15:51 | . And so there's really three different to do it. Okay. And |
|
| 15:56 | it uses processes that already naturally occur selves anyway. Okay. And one |
|
| 16:04 | these is a couple of these are a bicycle. Right so and uh |
|
| 16:11 | may be familiar with um how cholesterol ourselves. So cholesterol binds to specific |
|
| 16:19 | . Okay. And then they'll the initiates a vehicle to form around |
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| 16:24 | So very much like what this is . So the endo zone is the |
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| 16:28 | local structure that forms around the Okay, so endo zones form again |
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| 16:35 | lives of the cell in the form around various things, various chemicals and |
|
| 16:40 | that come into itself. So viruses using that for its entry. Okay |
|
| 16:45 | not all viruses do it this way this is this is uncoated within those |
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| 16:49 | . Right testicle. So you see the whole virus is actually coming |
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| 16:53 | Okay. Unlike a bacteria stage. so uh so then this confused with |
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| 17:01 | with the viral envelope or license um would call a license zone. |
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| 17:05 | that's one of those digestive organelles. , So confused with that. And |
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| 17:09 | that will digest the material around the and uncoated uncoated, reducing it into |
|
| 17:17 | cytoplasm. Okay, so this happens be an RNA virus. Okay so |
|
| 17:24 | viral and virus types have this Okay, this is just kind of |
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| 17:27 | up close of that actual electron micrografx that. So you see the virus |
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| 17:33 | to these spikes initiating the end zone then it will continue to process and |
|
| 17:40 | unquote the genome. Okay um and it can be what's called receptor |
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| 17:48 | So that means there's specific receptors here by the virus? Okay, so |
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| 17:55 | attachment is what initiates the vessel Okay. And so those that go |
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| 18:02 | the nuclear membrane. Okay, so D N. A viruses right? |
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| 18:07 | DNA viruses go to the member Not all but most do. And |
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| 18:14 | again they're doing it by this same own process right, Former best all |
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| 18:18 | it go to nucleus and it's here the encoding occurs. Okay, so |
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| 18:25 | then finally there's what's called membrane Okay, so the system would be |
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| 18:32 | an enveloped virus here. It binds again to specific receptors and then it |
|
| 18:39 | of males the envelope with the cell of the cell. And then that |
|
| 18:45 | the encoding process to occur. eventually the genome gets released. So |
|
| 18:53 | so kind of three different mechanisms. you can see the electron micrografx viral |
|
| 18:58 | fusing the specific receptors. And here see the here back here is the |
|
| 19:05 | of the envelope proteins. And so rest of it's gone infused with the |
|
| 19:10 | and eventually encoding it. Okay, you have endo zone formation. You |
|
| 19:16 | membrane fusion. Okay. Um and the information can either be at the |
|
| 19:25 | membrane or go to the nucleus depending the virus type. Okay, so |
|
| 19:30 | all three are just ways to how gonna get this genome released and able |
|
| 19:35 | to then start the process of replication to copy it and we have to |
|
| 19:39 | , translate. Okay, so um why is it I've been saying a |
|
| 19:45 | of times already, why would the virus need to go to nucleus? |
|
| 19:50 | what's special about that for a DNA , anybody? What the what will |
|
| 19:58 | virus any virus have to do when inside himself? It will have to |
|
| 20:05 | me some, throw something at Nothing but anything but silence. So |
|
| 20:09 | something at me replicate replicate. What correct? What does it need to |
|
| 20:16 | that? What do you say? N A po the memories? |
|
| 20:27 | So what do you find it in host in the eukaryotic cell? |
|
| 20:35 | So if you recall um maybe recall cycle, eukaryotic cells go about dividing |
|
| 20:44 | . So you have to remember it . You have s one, |
|
| 20:49 | The s phase that the chromosomes get ? Right. So what do you |
|
| 20:55 | the primaries? Right. That's so in the s phase of the cell |
|
| 21:00 | when that's occurring. Okay, so of memories around. Right. And |
|
| 21:06 | DNA viruses that need that that's their going to get it if they go |
|
| 21:11 | the nucleus. Okay, so that's need. Now there's gonna be exceptions |
|
| 21:16 | all these things. So some DNA do have their own right, but |
|
| 21:24 | do not and they have that requirement still going to the nucleus for that |
|
| 21:28 | . Okay, so um now other . So as we go through. |
|
| 21:36 | I'm kind of getting kind of the overview here of of each step and |
|
| 21:41 | of some variations. And so we at specific cycles here in a |
|
| 21:44 | But um so obviously one of the they don't have, they may or |
|
| 21:49 | not have a memory. They may may not have uh an RNA |
|
| 21:54 | but they won't have um they won't rivals OEMs generally. Okay, so |
|
| 22:02 | going to have to have the host that and so generally have to do |
|
| 22:04 | things at the end. No plastic . Right? That's where occurs. |
|
| 22:08 | you carry out so they use that that. They made it to use |
|
| 22:12 | golgi. So the gold is typically proteins that go to the surface. |
|
| 22:17 | kind of are made in the gold they go through vesicles that way. |
|
| 22:21 | the virus will use these these various that the host cell itself uses in |
|
| 22:26 | synthesis. So it'll exploit the same . Okay, so with envelope |
|
| 22:32 | um they'll get that envelope. So a viral caps it here. |
|
| 22:37 | And as it exits that will wrap it as it's called what they called |
|
| 22:43 | buds kind of pinches off. Now envelopes around it. But you see |
|
| 22:49 | there are these little red knobby things viral proteins that have been made right |
|
| 22:56 | the cell. And then they go the surface and that's where they |
|
| 22:59 | So when the virus exits, it that membrane and then the proteins are |
|
| 23:06 | . Okay, So now it's ready go. Okay. And so the |
|
| 23:13 | and so it can And so this here, viral assembly and exit. |
|
| 23:19 | can be an animal viruses. It occur at different rates. It can |
|
| 23:25 | slow. Okay. So maybe just few at a time. Okay. |
|
| 23:30 | it can be totally ramped up high . And so that where they're at |
|
| 23:37 | that spectrum, low very high production correlates to a bigger effect on the |
|
| 23:45 | cell. So in other words, of viral production that takes a toll |
|
| 23:48 | the host because it's being resources being away from it. So that host |
|
| 23:53 | will likely die as a result, may be so much production of the |
|
| 23:58 | just license to sell all together. . So, but if it's a |
|
| 24:02 | rate, right, the host cell it's it's it's impacted of course. |
|
| 24:08 | , by that. But it can limp along, it can still divide |
|
| 24:14 | be viable, functional. Okay, that's that's that happens as well. |
|
| 24:19 | , So the cells are not super but they're still dividing but then they're |
|
| 24:25 | off age, I'm sorry, virus a low rate. Okay. So |
|
| 24:29 | that can happen to. Okay, you may see this term called it's |
|
| 24:34 | shedding some cells can be uh described they're shedding virus and that's kind of |
|
| 24:43 | that means. They're kind of going a slow rate and these viruses are |
|
| 24:47 | of burning off and they say they're virus is okay but the wholesale is |
|
| 24:53 | remaining semi healthy and viable. while this is happening. So these |
|
| 24:59 | boxes are kind of just summarize DNA RNA viruses their features. So again |
|
| 25:06 | both boxes there's going to be But for the most part you can |
|
| 25:11 | most DNA viruses with these features but know that there are some variations |
|
| 25:18 | Okay, so again, DNA viruses go to the nucleus. Um the |
|
| 25:24 | so they will do. So the will have functions inside the nucleus and |
|
| 25:30 | outside the nucleus. Because that's what periodic cells do. Right. So |
|
| 25:36 | have replication of DNA in the nucleus then they do translation of proteins outside |
|
| 25:43 | . So viruses that D. A viruses that infect and do the |
|
| 25:48 | thing. So they have to play the same rules. And so they |
|
| 25:51 | replicate genomes in the nucleus. Then will come out into the cytoplasm outside |
|
| 25:59 | nucleus. They'll be translated into proteins they'll come back into view. So |
|
| 26:02 | have stuff going both ways. But ultimately typically viral assembly with DNA |
|
| 26:09 | occurs in the nucleus. Right? you're gonna have DNA in the nucleus |
|
| 26:14 | you're gonna have transcripts going outside and proteins coming in then you're gonna have |
|
| 26:17 | . So there's a kind of a of stuff going on with DNA |
|
| 26:21 | So with RNA viruses it kind of just do everything outside the nucleus. |
|
| 26:27 | . They really have to go into nucleus. And so for that |
|
| 26:31 | you know, they can do all functions out there and use use the |
|
| 26:36 | the past in particular um to do synthesis um these goals you need to |
|
| 26:42 | so they don't need to go into nucleus. And having said that there |
|
| 26:46 | variations of that as well. You to know all these variations but just |
|
| 26:52 | aware that not everything always follows both these rules. Okay. Through virus |
|
| 26:57 | example, it's a RNA virus but it does go to nucleus for part |
|
| 27:03 | its functions. Not not the copyist because these are in a but it |
|
| 27:08 | do some of the assembly process for reason. That's just how it |
|
| 27:12 | So yeah, there will be some will be um that won't follow all |
|
| 27:17 | rules here. Okay, but for you can put them in these one |
|
| 27:21 | these two categories. Okay, so we look at the question, that's |
|
| 27:26 | of an overview of the process that's on in animal viruses in terms of |
|
| 27:29 | life cycle. And so we'll get a little more of the specifics of |
|
| 27:34 | of these types. Okay, um this point, any questions so |
|
| 27:39 | Animal viruses? Okay. Okay. let's look at this question. |
|
| 27:47 | so so are the viruses we're gonna a little bit of a problem |
|
| 27:53 | Right. And let's look at this . So in reference to RNA |
|
| 28:00 | depending on the particular RNA virus Right, Because we have different |
|
| 28:04 | its genome can be used as a for. So if RNA virus and |
|
| 28:10 | got this RNA genome, so what be they can serve different purposes. |
|
| 28:17 | , so let's see if we can out what are those purposes. |
|
| 28:47 | Now 6-3. I mean Mariners, . Alright, any stragglers? My |
|
| 28:58 | 1 2nd. Okay, okay, we go. And yes, if |
|
| 29:09 | answered uh d you are correct. , so it's all the above. |
|
| 29:18 | so this this is a um minus virus. This would be a plus |
|
| 29:35 | virus. Okay. And DNA synthesis be the retrovirus. Okay, so |
|
| 29:46 | so depending on their viral type, can be attempted for any one of |
|
| 29:51 | things. Okay, so we'll talk the remember ways back we talked about |
|
| 29:58 | week maybe about the plus minus the antisense thing. So this is where |
|
| 30:03 | kind of comes helpful now, if understand that. Okay, and so |
|
| 30:08 | go through this again. Okay, Alright, so let's look at biology |
|
| 30:15 | function. So we just mentioned. , General DNA virus template for |
|
| 30:20 | Certainly template for DNA synthesis. This is obviously using um RNA polymerase |
|
| 30:28 | you typically from the host DNA primaries not always. And then uh typically |
|
| 30:42 | translation template for the synthesis and DNA . Now these two Okay, you |
|
| 30:53 | RNA polymerase. Okay, there's two they use what's called. This is |
|
| 31:00 | the next slide I think RNA dependent N. A limerick. Okay. |
|
| 31:14 | what that can spell primaries. That that so we we just for |
|
| 31:23 | So we have RNA polymerase. We what's called an D. N. |
|
| 31:28 | dependent RNA polymerase is our only geared copying DNA. Right, Because that's |
|
| 31:34 | first step in transcription. We copy and the RNA and we use it |
|
| 31:39 | RNA polymerase. One that's DNA Okay, so in contrast these |
|
| 31:47 | these RNA viruses here and here. , um they use RNA polymerase that |
|
| 31:54 | are in a what they call it dependent RNA polymerase. So you Kerasiotes |
|
| 31:59 | have don't have this kind primaries because have no need for we don't copy |
|
| 32:06 | RNA into RNA. Right? If need to make more RNA we just |
|
| 32:10 | more. Okay, so we don't that kind of enzyme. So this |
|
| 32:14 | a viral that's a viral enzo so that's something we'll see that's unique |
|
| 32:25 | these two groups. Okay, because they're copying the RNA and RNA. |
|
| 32:31 | so you don't have that. So that's going to be a strictly viral |
|
| 32:36 | okay, that's what enables them to this. And down here this thing |
|
| 32:42 | also a viral and design but it's first and script dates rip taste. |
|
| 32:55 | what retroviruses have. And then they an RNA genome. Oops that copies |
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| 33:02 | a that copies are in a into . N. A. Okay. |
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| 33:09 | would it need to copy RNA into ? It's an RNA virus. |
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| 33:17 | So actually what it does is goes DNA RNA this is it's full of |
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| 33:23 | . This is um counter to most else in the natural world because we |
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| 33:31 | and most other living things go DNA protein. Right. This guy goes |
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| 33:35 | DNA RNA protein. So why would need to have this intermediate bodyguard |
|
| 33:49 | Yes. Yeah. The retrovirus you ? Uh Well it uses for this |
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| 34:11 | . Peter DNA RNA. It uses our memories. Okay. So |
|
| 34:20 | so what it does it actually goes D. N. A. For |
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| 34:25 | specific reason. It has to do life cycle. So you're familiar with |
|
| 34:33 | . HIV is a retrovirus. So is RNA virus? We're in a |
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| 34:41 | cell and the army and the retrovirus a D. N. A copy |
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| 34:45 | itself. What would that enable that virus to do that other RNA |
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| 34:50 | Can't do think of the host. . Part of the why And that |
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| 35:06 | be why? Because of the viral because it can form DNA itself. |
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| 35:18 | . That's right. So so are retrovirus is a type of virus that |
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| 35:23 | life cycle is two typically part of is to integrate into the host |
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| 35:29 | So if it's going to do it's gonna have to go from RNA |
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| 35:33 | DNA to integrate. You can't you integrate RNA into A D. |
|
| 35:36 | A. Okay. Um and that's retrovirus does. And so it it |
|
| 35:43 | integrate into the host chromosome because it form this intermediate. Right? And |
|
| 35:49 | that do that. So, I'm you probably know that HIV is a |
|
| 35:55 | where you can be infected with HIV not know anything um for a long |
|
| 36:01 | long time because it's sitting in the just doing nothing. Okay. And |
|
| 36:06 | all of a sudden kind of sort speak comes to life, you |
|
| 36:10 | Um by being too slowly replicate. ? So viruses that do this um |
|
| 36:17 | is what we call um Pro viruses talk about this in a little bit |
|
| 36:22 | but pro viruses are analogous to to lambda lice a gyn type that does |
|
| 36:26 | integration as well. Right. So but again, any any kind of |
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| 36:32 | type that's gonna that's part of the cycle is to integrate into the host |
|
| 36:37 | . It's got to be D. . A. So if it's not |
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| 36:39 | virus it better have a way to into a D. N. |
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| 36:41 | Form and retrovirus can do that. The but again, we'll talk about |
|
| 36:49 | in a second, but it's kind that's kind of why that is |
|
| 36:53 | Okay, another example is a the virus is a D. N. |
|
| 36:57 | virus that does this it integrates uh you have a breakdown a fever blister |
|
| 37:03 | a herpes virus that that's integrated into selves that under stress it typically causes |
|
| 37:10 | to begin to replicate. And that's you kind of see it manifests itself |
|
| 37:14 | the blisters. Okay. As it's out. So another example. |
|
| 37:19 | it's one that just hides themselves and of a sudden can emerge at certain |
|
| 37:24 | . Okay, is there any questions that? Alright, so um so |
|
| 37:30 | , with animal viruses there can be lot of different um different things going |
|
| 37:35 | compared to bacterial viruses. So um the viruses we talked about this |
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| 37:42 | template for DNA synthesis and transcription like . That's what our D. |
|
| 37:46 | A. Does. Um So we just we distinguish between non retroviral and |
|
| 37:55 | . Right, so when you see retroviral RNA virus, you go, |
|
| 38:01 | , we're not talking about retroviruses All right, so we're talking about |
|
| 38:05 | of these types that has this this RNA dependent memories. Okay, |
|
| 38:12 | there's two types, remember. It can be a um it can |
|
| 38:16 | a template for um translation or for . Okay um Mr viruses have that |
|
| 38:25 | we mentioned and for the purpose of to the host. Okay so um |
|
| 38:32 | let's look first at these non retroviral . Okay, well I'm sorry. |
|
| 38:39 | the gun. So here's an example a DNA virus. Okay, so |
|
| 38:44 | typical so this is one that has typical process of going to the nucleus |
|
| 38:49 | coats. Although I just saw from diagram, it's not very good at |
|
| 38:54 | showing that. Okay, so you the viral genome here. So what |
|
| 39:00 | have happened is in this drawing is virus actually come to here and unquote |
|
| 39:09 | that's how the genome ends up in . Okay, so the point is |
|
| 39:14 | um the basically use is hosting a race poppies, genome um then of |
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| 39:22 | there's host machinery to transcribe into Okay then they're going to have |
|
| 39:28 | you see how materials coming into the , some stuff's going out. So |
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| 39:33 | have transcripts being translated out here in cytoplasm and then coming back into assemble |
|
| 39:39 | viral particles and then finally exit from cell. Okay, so um so |
|
| 39:45 | viruses that go to nucleus, that's of what they do. Okay, |
|
| 39:49 | go to nucleus copies of genomes, outside of the opiates with transcripts, |
|
| 39:54 | viral proteins, bring it back in and then let's exit all together. |
|
| 39:59 | , um and so here we have by step, process. Right. |
|
| 40:07 | so I mean it's what yourselves do , without if they weren't affected by |
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| 40:12 | virus, you know, you're replication any cursing nucleus and protein synthesis outside |
|
| 40:18 | they're just following that that pattern. , um now, so let's look |
|
| 40:27 | this question. Right. So it's as complicated as you think. |
|
| 40:32 | uh let's uh look at the Okay, so here we have just |
|
| 40:39 | very basic a hypothetical minus Okay, strand minus minus sense. If you |
|
| 40:48 | . Anti sense minus s single stranded . Uh only 10 Robert and Katie's |
|
| 40:55 | . Right. If you had to , you didn't have to guess which |
|
| 40:59 | below is most likely its genome. , so, you have to remember |
|
| 41:05 | is the minus? You know, gonna look like Okay, how can |
|
| 41:10 | identify that? But you do have hint. Okay. Yeah. |
|
| 41:58 | Count Down From eight. Alright, see. I um now the one |
|
| 42:17 | should eliminate. Right off the bat we're talking about a a virus |
|
| 42:24 | Right. Um Is this that's N. A. Okay. It's |
|
| 42:32 | gonna have RNA only has your cells your cells in places by means. |
|
| 42:36 | you're not gonna see any time means a sequence of an RNA virus. |
|
| 42:40 | right. So you can eliminate that . Okay, so then of course |
|
| 42:44 | between a M B E C. are both are in a Okay, |
|
| 42:50 | , the hint was start coding. right. So where do you see |
|
| 42:52 | start code on You see one Okay, so that's telling you that |
|
| 43:02 | is one that can be a template translation. Right? Remember the template |
|
| 43:09 | translation is the is the plus Okay so that's the translation template. |
|
| 43:20 | um so that would be a plus strand RNA virus. Okay. If |
|
| 43:24 | were the genome The -1 would be . Okay. The anti sense because |
|
| 43:30 | really no identifiable start code on Um and so it would be a |
|
| 43:37 | to make an M. R. , so now you see in the |
|
| 43:44 | strand, right? This is a strand that that contains the stark odin |
|
| 43:49 | the other cardinals and we can make proteins. Okay so um so that's |
|
| 43:58 | plus. Right? So as you we look at these RNA virus life |
|
| 44:05 | , that's what you kind of gotta because you're gonna see a process of |
|
| 44:11 | two things you're gonna go why is doing it that way? Okay so |
|
| 44:16 | let's look at any questions about So let's look at um the |
|
| 44:25 | So here's A Plus Arnie Bar. what you gotta do you think |
|
| 44:30 | Okay, here's what's infecting. Okay we had we already did the encoding |
|
| 44:38 | but picture this is what came right, A virus with a plus |
|
| 44:42 | genome, what ultimately has to happen the end, we have to assemble |
|
| 44:47 | particles like that that will exit the . Right, These are all plus |
|
| 44:54 | . Alright. Plus plus because that's affecting is a plus RNA virus. |
|
| 45:00 | so that's what we have to make only to make it simple only showing |
|
| 45:04 | But it could be a lot more that. Okay but that's that's what |
|
| 45:08 | virus is. Is that? So making more of these? Okay. |
|
| 45:15 | in order to to mass produce you lots of stuff. You need the |
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| 45:22 | that make up this capsule. You copies of genomes to put in each |
|
| 45:28 | these capsules you're making right? Um you need lots of material. Okay |
|
| 45:36 | because you might think, okay this a plus RNA virus. It's got |
|
| 45:41 | plus genome. I can translate that . Of course you could but it's |
|
| 45:48 | mass production. Okay because you're gonna more than one plus you know number |
|
| 45:54 | you already know you have to make of this. Right? You need |
|
| 45:58 | make copies of that because you have of them in your viral progeny. |
|
| 46:04 | . And yes you can translate that genome in the proteins but why not |
|
| 46:08 | copies of it and make lots of much more quickly. Okay so that's |
|
| 46:14 | we take this R. R. . R. P for short are |
|
| 46:17 | on the primary. So we're gonna lots of copies of minus strands. |
|
| 46:21 | gonna think well that doesn't make Why is it making minus copies? |
|
| 46:25 | these are not because we're talking about RNA virus. These are the basic |
|
| 46:31 | code book how a nucleic acid I'm not making this up. It's |
|
| 46:36 | meant to torture you because we're talking a virus. It's how nucleic acids |
|
| 46:40 | . Okay. It can be DNA RNA DNA RNA RNA DNA DNA doesn't |
|
| 46:46 | . You always have the relationship of to minus. Right. And so |
|
| 46:53 | we're gonna make a lot of copies this genome we have to go this |
|
| 46:57 | because that's just the way it Okay so we make lots of minus |
|
| 47:03 | And then from that we make a of plus copies. Okay so that |
|
| 47:08 | fulfilled the mass production part of Okay so now we're set up we've |
|
| 47:14 | lots of genomes. Alright and then got lots of templates to make protein |
|
| 47:20 | the protein. Right? So then can make lots of stuff assemble and |
|
| 47:24 | out. Okay so this again this 2 -2 plus. Following the rules |
|
| 47:33 | DNA of nucleic acids. Okay and you make it's complimentary, it's just |
|
| 47:39 | complementary base pairing thing, that's all is. Okay we have a |
|
| 47:45 | C. G. And that happens be the plus the minus is uh |
|
| 47:52 | A G. C. And that's just example to say that's the |
|
| 47:58 | Okay that's the relationship. Just complementary pairing. Yes. Obviously it would |
|
| 48:02 | easier if you could take a plus make a plus. Absolutely but it |
|
| 48:07 | work that way. Okay so um when we look at the other |
|
| 48:13 | the minus RNA virus. Right. logic. Right? This is what's |
|
| 48:18 | in. Right? We have to lots of these lots of protein and |
|
| 48:23 | minus genomes. And so again, one virus is infecting that's not gonna |
|
| 48:30 | enough. Right. Plus we have make we have to copy this anyway |
|
| 48:35 | the minus can't be translated into We have only the plus strand is |
|
| 48:39 | to do that. So copy make lots of plus strands and then |
|
| 48:45 | that translate the proteins and then make of the pluses and the minuses. |
|
| 48:52 | our genomes. Right? So now can package those in. All |
|
| 48:57 | Yeah. So in this scenario going plus minus again, just following the |
|
| 49:03 | DNA nucleic acid rules let's call Okay, so those are your two |
|
| 49:08 | viral types? Single stranded types now double stranded RNA virus, you |
|
| 49:13 | it can similar thing. Right? has the minus and plus strands to |
|
| 49:18 | and so forth. Okay, um this is the greatest slide from your |
|
| 49:26 | . But the in fact I think is probably better but you know, |
|
| 49:32 | be the judge the just the same we just talked about. Right? |
|
| 49:37 | we have this is the scenario the RNA virus going this way minus one |
|
| 49:48 | stranded. So you don't you don't to memorize this slide but it's more |
|
| 49:56 | do you understand the process of top bottom? Like what's going on? |
|
| 50:03 | questions about that? Okay. All . Um so let's look at the |
|
| 50:13 | . Okay, so this is gonna its own thing, unique thing. |
|
| 50:19 | , so here, as mentioned, going again that's going to be a |
|
| 50:25 | enzyme. Okay, we're gonna copy D. N. A. So |
|
| 50:28 | , there, you see the same rules, Right? Plus until |
|
| 50:34 | Even if we were making our RNA DNA, it's we're following the same |
|
| 50:38 | . Plus two minus. So, so a single strand of D. |
|
| 50:42 | . A. It's not gonna be , right? Because if it's going |
|
| 50:45 | integrate into the host chromosome, gonna to write. So but it can |
|
| 50:51 | host enzyme to make the complementary Right? So now we have double |
|
| 50:56 | DNA and this can integrate uh they use the host or embrace if it |
|
| 51:02 | to go into transcription mode and then proteins. Okay, so these guys |
|
| 51:09 | um does does not the I'm just to abbreviate the are are independent on |
|
| 51:27 | preliminary Is that one we saw in non retrovirus types, right? That |
|
| 51:32 | there are retrovirus does not have Okay. Because it's not it's not |
|
| 51:37 | that. Okay. It has this that's it copies its genome in the |
|
| 51:43 | and it relies on host enzymes for process and that process. Okay, |
|
| 51:51 | no it's a different life cycle than these non retroviral RNA types we just |
|
| 51:58 | about. Okay, so, so then, of course the same |
|
| 52:03 | assembling the Syrians package, etcetera. , so, um here is life |
|
| 52:11 | depicted here and so we have um transcript based of course is a viral |
|
| 52:19 | and so we're making a copy and using host primaries to make the double |
|
| 52:26 | DNA and then um then integrate into nucleus. And so this process of |
|
| 52:33 | is a pro virus. So remember use profane age for the material virus |
|
| 52:38 | that does this is the pro virus animal viruses. We use that term |
|
| 52:42 | animal viruses. And so um the so with HIV which is an example |
|
| 52:49 | a retrovirus um it can initially just in the chromosome. So HIV infects |
|
| 52:56 | very specific cell type in the It's a type of immune system cell |
|
| 53:01 | it can produce what's called a persistent which means it kind of just sits |
|
| 53:05 | and persists hence the term and it it can assume different roles. So |
|
| 53:13 | typically it just is in the chromosome that's all that's happening. None of |
|
| 53:18 | is going on just kind of sitting . Okay. And in that scenario |
|
| 53:24 | person would be would not test positive HIV because it's just it's not really |
|
| 53:30 | only being a test positive when viral begins to occur and builds up to |
|
| 53:36 | level that you can detect it. if that's not going on and you're |
|
| 53:40 | gonna be able to detect anything. so it can be in a state |
|
| 53:44 | quite some time, months years. . But of course the cells are |
|
| 53:50 | during that period and each of those successive cells are containing that pro |
|
| 53:56 | Okay. But then at some point may begin to ramp up, begin |
|
| 54:00 | ramp up begin production of viruses and do it this way. So transcribe |
|
| 54:06 | M. R. N. Translating the proteins right, assemble |
|
| 54:10 | It has an envelope so it'll exit will have viral proteins on the surface |
|
| 54:16 | now it's envelope and on it goes but it can go at a lower |
|
| 54:19 | low rate of production a few viral Purcell. Okay. Uh And then |
|
| 54:26 | continue that for quite some time but you know it builds up and then |
|
| 54:31 | begin to reach a threshold where you it and you're HIV positive. And |
|
| 54:39 | um and so of course obviously that's the trigger to start you know treatment |
|
| 54:49 | drugs to counteract the viral infection. And so the budding process is what |
|
| 54:55 | what produces the envelope as it Um So there are targets for these |
|
| 55:02 | drugs. We'll target different parts of process. So particularly it was a |
|
| 55:09 | called a Z. T. Which still used that was one of the |
|
| 55:13 | ones developed and still used. It with the action of of the verse |
|
| 55:18 | base. Um And there's hank treatment it's like a combinations like nine or |
|
| 55:26 | different antiviral drugs together. I think still the way it's done. But |
|
| 55:32 | is uh is fairly effective. it's not like it was 40 years |
|
| 55:39 | . Okay. Um 30 or 40 ago in the eighties when there was |
|
| 55:46 | not much treatment and high mortality So um nowadays it is a very |
|
| 55:53 | disease. You can live a basically life. Okay. Um the but |
|
| 55:59 | course uh this leads us into other science areas of politics and whatnot because |
|
| 56:07 | are parts of the world where this epidemic and people are dying from it |
|
| 56:11 | they don't have access to the So like I said, that's a |
|
| 56:15 | lot of discussion. Um but any about retrovirus. Okay, so um |
|
| 56:25 | look at I think we have next . Uh this is kind of a |
|
| 56:31 | of bacteria fades. Ammo virus Um you know one of the main |
|
| 56:38 | really is that the material fades the everything but the genome enters to sell |
|
| 56:44 | else is I'm sorry the genome only the rest of its phase out for |
|
| 56:47 | viruses. It can be the whole comes in. Um So like so |
|
| 56:52 | and with the page we saw with is analogous to the pro virus formation |
|
| 57:00 | animal viruses. Um So you just more complication because viruses are affecting |
|
| 57:07 | cells. Right? So nucleus can a part of the process but certainly |
|
| 57:12 | a thing for page. So you , kind of recognizing these basic differences |
|
| 57:18 | . So. Alright, so these next two things Lions and vai |
|
| 57:26 | Okay, they are not bold letters . Okay. They're not they're not |
|
| 57:34 | viruses by the virus definition. So don't even call the virus. |
|
| 57:40 | , so a prion and a viral are both infectious units. Okay. |
|
| 57:49 | is a protein, one is an molecule and that's the extent of the |
|
| 57:54 | . That's it. There's nothing else it except that that okay, so |
|
| 58:01 | up Ryan's and so uh familiarity is mad cow disease. May have heard |
|
| 58:07 | that. Um I think it was discovered in sheep. I think scrapie |
|
| 58:13 | the sheep version of this. Um is I think the practice of cannibalism |
|
| 58:24 | brains infected with this. That's that's kuru is still happens I guess in |
|
| 58:29 | of the earth. Um But the felt Jacob is what they call the |
|
| 58:34 | form of the disease. Okay, um how would the human get infected |
|
| 58:40 | us eating, eating um uh food from an infected animal. Okay. |
|
| 58:48 | e meat from an infected animal. The uh you know the chances of |
|
| 58:55 | this, you're probably chance of getting by lightning and probably better than catching |
|
| 59:00 | prion disease. Um It's not that certainly in this part of the |
|
| 59:05 | Okay. But what's unusual about it course is that it's a protein that's |
|
| 59:10 | which is really but heard. And um the uh to my knowledge um |
|
| 59:20 | is the only prion type of disease aware of. Uh but in any |
|
| 59:25 | what it is is you have a form of this protein. Right. |
|
| 59:32 | what happens is it's basically a protein misshapen misfolded and then that's what causes |
|
| 59:39 | disease. Things accumulate over time. . It's a very slow progressing |
|
| 59:44 | Okay. Um and I mean there no cure for it, but |
|
| 59:50 | chances there there's some evidence that there a genetic component to it. Um |
|
| 59:56 | um it causes neurological impairment, it neurons in your brain. Um but |
|
| 60:05 | protein itself, you have a normal of protein in your brain cells. |
|
| 60:10 | fact a lot of yourselves, but in your brain cells and that's what's |
|
| 60:14 | a glycoprotein. Okay. And it in the membrane of the neuron? |
|
| 60:19 | . The function of it is really not known. There is some evidence |
|
| 60:24 | it has something to do with copper of all things kind of weird. |
|
| 60:29 | um but it hasn't really still been what the true function is, but |
|
| 60:34 | it is changed and mutated then there a definite consequence to that. |
|
| 60:41 | and so and so what you're seeing in terms of normal and abnormal forms |
|
| 60:47 | a mis folding of the protein. , and so it causes the |
|
| 60:52 | Well it's when you have a what's a prion proteins, that's a misshapen |
|
| 60:59 | . Okay, it binds to a form of protein. Okay, |
|
| 61:03 | how would you get the misshapen form eating contaminated tainted meat from an animal |
|
| 61:08 | has this? Okay, there's some that there's a genetic component to it |
|
| 61:13 | well. So that could be a . But regardless, the binding of |
|
| 61:17 | prion to the normal protein is what this miss shape to occur. |
|
| 61:23 | And so this continues to happen and you get more and more good prion |
|
| 61:30 | bad ones if you will. And then these begin to accumulate |
|
| 61:34 | Slow progressing doesn't happen overnight happens over years, but you begin to accumulate |
|
| 61:40 | neuron for example, will accumulate these proteins and then begin to affect its |
|
| 61:47 | . Okay. And so what happens the whole so here's brain tissue for |
|
| 61:52 | holes. You see our neurons once to reside neurons has basically just |
|
| 61:59 | gone away. And what's left behind a space. Okay, so you |
|
| 62:04 | want brain tissue to have look like cheats. That's not going to be |
|
| 62:10 | well functioning individual. Okay, so and that's what they call these plaques |
|
| 62:16 | . So uh any case of so lots of holes in the tissue |
|
| 62:21 | kind of a spongy this texture, what they call it. That. |
|
| 62:24 | , so um it is surprisingly resistant various chemical agents and temperature and things |
|
| 62:31 | that. So if you happen to meat that tainted with this a you |
|
| 62:37 | wouldn't know it but you really have heat it very well. But but |
|
| 62:42 | , so it's it's a you know it's just an infectious protein and this |
|
| 62:46 | how it multiplies basically by binding a protein and that changes the shape of |
|
| 62:51 | . That's kind of quote, the occurs this way. Okay. It's |
|
| 62:57 | a protein. Okay. Um many about that. Okay, so and |
|
| 63:05 | just shows you a little cartoon of green are the normal prion proteins in |
|
| 63:11 | membrane. Okay. And the red are the ones that are accumulating bad |
|
| 63:16 | and eventually it will take over the uh killing it uh destroying its |
|
| 63:22 | And so uh so the last of types of weird types is this infectious |
|
| 63:30 | viral. Okay, so as far I know, Bayreuth are only a |
|
| 63:38 | problem for plants. Okay. Certain , there's not to my knowledge, |
|
| 63:45 | things have yet to cause any issues humans. Right? So vai roids |
|
| 63:49 | strictly certain plants. I think the well studied 11 that affects a |
|
| 63:55 | Okay. And so what they are course is just RNA. Okay. |
|
| 64:02 | unlike D. N. A. . A. Is not double stranded |
|
| 64:06 | are in a can fold on So it's just just regular complementary base |
|
| 64:12 | . One of these bindings occur and form these kind of structures. |
|
| 64:16 | so you see here um and so structure itself tends to be important for |
|
| 64:22 | function. The other thing about RNA is that some are can be can |
|
| 64:27 | enzyme activity catalytic activity. Okay and uh good example. That's the arm |
|
| 64:35 | Zone puts together the immediate answers to a protein and it's an RNA in |
|
| 64:39 | bible's own that actually does that. so some RNA can have an enzyme |
|
| 64:44 | and this does okay, it's very , 304 nuclear times pretty small. |
|
| 64:51 | And so we use the host RNA to make more copies of itself. |
|
| 64:56 | so what they think these things do disrupt question this disrupt the normal expression |
|
| 65:05 | genes in the plant. Okay so will these things can be combined to |
|
| 65:12 | transcript. So we have A. . R. N. A. |
|
| 65:14 | a plant. Okay, so then of these viral loads may kind of |
|
| 65:22 | . Okay let's call that the thyroid , R. N. A. |
|
| 65:29 | one of these parts of the R. N. A. Now |
|
| 65:32 | ribosomes here. Okay and because we this big fire way bound to the |
|
| 65:42 | , it cannot um translate. It get around it. So it kind |
|
| 65:47 | blocks translation. That's one of the it has. And so by doing |
|
| 65:52 | it disrupts expression of certain of these genes. So that's how it causes |
|
| 65:58 | um how these things are transmitted. , the plant, I don't know |
|
| 66:03 | that's known. Okay. Um but it's it's just it's always as |
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| 66:09 | That's it. Nothing else to it using host memories and that's pretty much |
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| 66:16 | . Okay disrupting to the expression. you have an infectious protein and prion |
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| 66:20 | are in a uh vai right okay let's um look at I write for |
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| 66:31 | . So which statement? Right. of it may be true but the |
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| 66:34 | thing has to be true. The thing has to be true if you're |
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| 66:39 | pick it. Okay so we have um vai roid crayons like a capsule |
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| 66:49 | . Black nucleic acid fibroids contained DNA RNA brian's heavenly. Arnie prime particles |
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| 66:59 | increase in numbers or words cannot raise . Do not. Um Prions can |
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| 67:10 | combined with the host. Can recombine hosts. Okay that's very bad. |
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| 67:16 | can recombine with the host of the ? With host genome? With the |
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| 67:21 | genome. That's what I'm supposed to . Ha okay with the oh gino |
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| 67:31 | better. Okay viral cannot order the are completely true. Okay. Okay |
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| 68:24 | count down from 10 and yes if answered d you are correct. Okay |
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| 68:46 | that's uh any questions That's how we're do today folks. We'll wrap this |
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| 68:53 | on Thursday and then start chapter Okay. Thanks |
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