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BIOL 2321_Microbiology for Science Majors - 2321_MW1130_2_16_23_Lecture
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00:22 Mm. Okay. Ok folks, get going. So uh All
00:44 Um so uh today, remember today the start of unit two.
00:52 So what we're talking about today is is not on the exam tomorrow
00:58 So um uh So of course again it starts tomorrow. There's no um
01:08 blackboard quiz going on. Obviously there's uh smart work that to do.
01:15 all your all that's going on is the uh exam. Okay. So
01:19 due on monday. Okay. As usually is. So um so
01:26 if there's I haven't seen the email , I'll do that after fast
01:31 But it's I mean, no new . Okay? But regardless uh if
01:38 have questions about, you know what thinking, what's gonna be on the
01:42 , just download The reviews because I am looking at this to make sure
01:49 matches up. But I don't have not asking me something that's not on
01:54 . Okay. It doesn't you know . Yes, I may say in
02:00 , Blah Blah, Blah, Right? It doesn't matter that you
02:04 what happened in 1860 or not. don't care if it's your own.
02:07 . So don't, you know, dates and things. Okay, so
02:12 , um stick to what's happened. . So okay, so what we're
02:19 do is like a typical flip Um So I'm gonna cover uh we're
02:29 one thing that uh in your slides you downloaded look at the viral ecology
02:39 pushed to the very end. So we're not going to start to
02:42 with that we're not going to cover . Not getting covered until the very
02:46 of next lecture. Right. So gonna push back everything else is more
02:50 less than in that in that Um so it will. So today
02:55 really about how you define the We know some somewhat about viruses
03:00 We talked about some of this in very basics in Chapter one.
03:06 so then what drug was the drugs the virus? Uh this can
03:10 Look at some of the variations of basic life cycle that you can apply
03:16 any virus though the part two of chapter is focused on viral life
03:24 I will go through kind of here's basics of uh that applies to any
03:30 our lifestyle. Well, of course gonna be different variations as we get
03:35 the part too, as you'll Um, and then looking at different
03:39 types, uh, classification. So a table uh, at the end
03:46 the part one notes, I think gives you, here's the classification of
03:49 . I'm not gonna, I expect to know what specific groups and this
03:54 that and the other classified this as here they are. Uh just point
03:59 some things and a little bit more most complicated. Um You get complicated
04:08 uh typically the RNA viruses and typically you get into their life cycles,
04:12 can be a little bit confusing. so again, we'll delve more into
04:19 next time. But we will probably about a little bit about them toward
04:24 end. Okay so um so hopefully today you go. Okay this is
04:29 a virus is. This is kind structures structures viruses can have this kind
04:33 life cycle. Um just having classified Those are the main things to get
04:39 get from today. Okay so there's think there's 70 clicker questions. One
04:46 them is repeated again. Um there's question that's not even a question.
04:52 anyway, so that's that's and slides your notes are gonna be mixed in
04:57 all this. Okay so let's um about this question. Okay so which
05:07 the following should use just some statements viruses. So which of these?
05:12 there is one is false. Okay. Timers Cullen Okay, counting
06:17 from 10 each seven pause now. . Yeah um correct. So certainly
06:45 almost probably every species on earth has that virus that infects them.
06:51 so I'm not gonna say every living but probably most everything does. Okay
06:58 Cell based life uh they their genome be DNA RNA side drains is in
07:06 parameter 0.2 25 20 nm to um on my crime though there are pointed
07:19 the end. There are types that a few types that can exceed one
07:27 . Okay um the the giant viruses . Within that group. Okay and
07:41 the minimum all viruses possess a genome with a protein called recovery. That's
07:48 . Any virus, you know, kind of the basics. They all
07:52 that. But of course that can very easy to this. Okay.
07:55 sure. Alright. Um So the again they're not they're not, you
08:05 , are they life or not like debate. Right. So viruses uh
08:11 replicate outside of the post that kind struck against them in terms of being
08:16 living thing. They're not really sells they can't do the functions of
08:21 Some but just not most of Okay. They they're small because they
08:28 have that much stuff. Right? So I don't have all of the
08:34 if you will that living cells Okay. But again it varies some
08:40 do have more components with them and viral types. Um Some are bigger
08:46 other viral types. So there's a of sizes and functions. Okay.
08:52 of course they all they all despite variations, they all need a
08:59 Okay, so they will go through process of viral replication that's very similar
09:06 all of them. Okay, well at that. Okay, so um
09:12 discovery so being so in this time this time frame here, Ivan honestly
09:20 this is like 19 hundreds, early hundreds. Um So point you didn't
09:27 ideas. It's known about germ theory disease has been well known for some
09:34 at this time, by that So they're aware of microbes, bacteria
09:39 disease and whatnot. So naturally, know, that's what they focused
09:43 So in this tobacco mosaic virus which uh disease and tobacco plants basically infected
09:52 , uh um disease leaves which are very uh yellowish colored and spots on
10:00 . And so they don't function properly . And um of course during this
10:05 right now, tobacco is big So it was an interest to figure
10:08 what's killing its plants for economic certainly. So uh they basically thinking
10:16 it's bacteria or something like that causing disease in these plants, They would
10:22 up the leaves. Disease leaves, know, using cokes, right
10:28 Right? In terms of disease, took healthy leaves, right of control
10:33 leaves, and they crunch them each , right? And got the filtration
10:40 filter, right? They delivered through filter. There is filters that could
10:45 , you know, bacterial size Right? So I think,
10:48 run it through the microbe causing this will be trapped on the filter.
10:53 you got it right? And when took the stuff on top of the
10:59 , okay, paste. And they it to healthy plant leaders.
11:04 The plants never came down. So , okay, what's this about?
11:08 ? Must be something super tiny. might be something that's going through the
11:13 . Then they looked at that stuff , right, Stuff that went through
11:17 they applied that to leave then they oh now I'm seeing this disease.
11:22 is it? Must be something super . Right? What they call non
11:26 trouble. Right. So of course didn't have electron microscopes at this
11:31 So maybe 30 years later is when kind of are able to visualize this
11:36 virus and that's what you see which is actually on the very small
11:39 of the spectrum here. Right. no wonder it easily pass through this
11:43 . So then of course, um after you've figured out the structure of
11:49 virus and reputation of the virus So um the select bacteria, archaea
12:00 ubiquitous. So too about they're they're . Right. If the cells they
12:06 are everywhere then they must be Well because they need that host to
12:10 . Okay. And so for the time. And I was starting about
12:16 way back I thought that there was I didn't see anything redeeming virus.
12:24 ? Or they have any use other causing disease. Right, of
12:28 Since learned about viral ecology. In marine environments, terrestrial environments.
12:35 they're very important in controlling populations. ? We'll talk about this at the
12:41 of next lecture. But um viruses a way to control populations in new
12:48 . Okay. So if you remember basic ecology, right? If you
12:55 if you don't allow certain species to dominant and they're the main ones that
13:00 diversity. Right? So by having , they can control populations and certain
13:05 and that allows others to them to of be able to flourish so they
13:09 impact diversity in ecosystems. So and course we have them in our
13:15 right, viruses in our guts and that are that are affecting populations in
13:20 gut. So and I think we last time with faith therapy,
13:26 Using pages retroviruses as ways to uh control types. So, um so
13:33 is no point is there is a of them that are that do good
13:37 . Okay. Um, but of we're aware of mostly the bad things
13:43 they're right having gone I guess. we technically still in the pandemic?
13:49 don't think so. But it's So we're I think everybody knows probably
13:55 by now, especially if it begins A. C. Right. So
14:00 , so this is just to show this fan of science. Right.
14:03 so the uh, on the larger tobacco mosaic virus, Small end.
14:12 uh, you know, I just something. I don't know how to
14:17 my greek letters. Right. See 2900. And you see this that's
14:30 my being an idiot. Okay, it's not hard of micro motors actually
14:37 nanometers. Right. Right. So right. So this is actually his
14:45 as well. Okay. So, the size range is 20 should be
14:54 point nine micrometers. So my Right. So both of both.
15:01 uh certainly call me out on Right. If I'm doing something stupid
15:07 that. Alright, so um Next push check. Let's see what
15:17 got here. Okay. Which of following? Could not be used as
15:23 criteria to identify viruses. Okay. Okay. The timer on here for
16:20 singer. Okay, here we From 98. Okay. You
16:43 Um You answered B you are So viruses don't have a metabolism not
17:01 selling. Okay, they can't ferment can't give them sugar and hope they'll
17:08 it. Right. Um They just work that way. But they don't
17:12 a developed metabolic patterns and things like . Um So you can't identify
17:20 Like you could have bacteria, you , doing different types of meta quality
17:24 so forth. So, but certainly can use other features of the virus
17:32 envelope. You take acid type Okay, so um Okay, so
17:40 . Right, so let me kind touched on this previously in chapter one
17:45 returning a sailor because they don't have features of all the other cells
17:51 Okay, they have the basic structure protein code or genome DNA. Um
17:58 coat. We call it caps it up of individual capsule mirrors and um
18:05 course the main thing is must infect host cell. Okay. And so
18:13 takes over that whole step at some . It makes it makes it a
18:19 factory if you will right to pump viral particles. Okay, so a
18:25 of terms. I use them Maybe somebody was a strict virologist might
18:31 me around, but the term virus the term Okay, I use those
18:42 need the same thing. So if hear me say it same thing.
18:48 , right. Um okay, so look at this question. Yeah,
18:56 you're not sure something or you want , just shout it out.
19:02 Um Alright. Which of the following not necessarily a requirement for replication of
19:11 viral types. So you take all and you can take this replication
19:17 All of them are gonna hand something we're gonna be caught. We're all
19:21 need certain things, but not everything to all. Okay, that's what's
19:28 asked here. Okay, Not that this 1 timers on. Okay,
20:31 pause. Okay, let's resume from 54. Okay. Um so who
20:55 who thinks f is wrong? The said that? He thinks is it
21:06 ? Okay, because you got Hmm. Well, question.
21:28 let me ask you this. Do do you are you have you heard
21:32 the covid virus? Okay. Being . Alright. Um is covid type
21:42 a as much as you know about as everybody knows that Covid whether they
21:49 to or not is covid the That's a no, no, it's
21:57 to google it. That's right. know. Yeah, I think
22:05 Yeah. So is is the correct . So things like what is a
22:12 one? Well infamous. What's a one? That's that is uh that
22:19 yeah. HIV Right. That's uh of people know that. So so
22:29 , it's uh some are some are . Capital virus is one that can
22:35 this. Okay. But the virus rabies, mumps measles. So there's
22:42 a number that can just number. But certainly they all need to be
22:50 a big right? Because basically if can't recognize the host, they're not
22:56 they're not going to or if the is around that they can recognize,
22:59 not gonna replicate. Um See it things like rival zones, transfer
23:07 They generally don't carry those things around get them from the host.
23:11 Uh nuclear ties. Right? So they're gonna copy their genomes, whether
23:15 RNA or DNA or transcribe, They need nuclear types. And so
23:20 get those from the host. Um certainly replicating genome, right? If
23:25 virus is gonna replicate, well, not step one, step two is
23:30 quickly make copies of the genome because it's gonna make lots of particles and
23:35 they're going to escape the cell. . But again, not everything.
23:40 all viral types use integration into the as part of the process. Some
23:45 some don't. Okay, so um kind of just so we'll go through
23:51 , the the basics of pretty much that you see here can apply to
23:59 and I'll mention briefly some where there be variations. Okay. So of
24:07 it kind of begins or ends with process. Right. We kind of
24:12 thinking that the locking key kind of , right? It's the virus uh
24:18 have the right key to fit into cell. Is that getting in
24:21 Can't get in? They can't Okay. Now this is the whole
24:27 is alive and not alive thing. , you know when they're certainly when
24:31 in the cell replicating you can consider to be alive because they're reproducing reproducing
24:38 viral partners when they're out here right to sell. Are they alive?
24:46 can't really do anything. They can't . But you know the viability of
24:51 in that extra same state outside their there. You know, it can
24:59 obviously those viruses on the door handle there and and door knobs and countertop
25:05 sure. Okay. Um whether they're viable or not. I don't
25:11 It varies from viral type of viral . Some are more more bust than
25:16 . Right. Typically viruses that are stds like HIV PPV papilloma virus tend
25:26 be less um uh viable on an like this. Okay, any tissues
25:38 maintain the viability. So the point it depends, right, Depends on
25:42 is actually kind of robust. They remain outside the host cell and be
25:47 infectious. You know, for quite several days. Okay, linger in
25:51 air. So um it just depends the viral type. Okay, so
25:58 , so assume bars recognizes host What's it using from the host?
26:04 . So the Astros are it depends the viral type. Right. Number
26:10 . If it's already a virus, doesn't need any. Right? But
26:15 it is a uh it's uh visiting virus, it may or may not
26:20 this. Some viral viruses do DNA viruses. Some don't.
26:25 And it commemorates that can vary. some RNA viruses are very specific and
26:32 type of memories they use. so from the host that may not
26:38 . But certainly live nucleotides that's not to do everything all they're all gonna
26:45 that post. Right. Um remember there's there's really no kind of
26:51 like respiration, fermentation. These things occur in viruses. Okay. Um
27:00 the other thing to remember here well, let's go through this and
27:02 mention it. So, so let start infection. So um the the
27:09 of the genome into the host side plastic. Okay, that takes different
27:15 . Right? Animal viruses, these of impact ourselves. Um pretty much
27:21 of the whole thing. Typically this thing enters the cell ourselves.
27:29 For bacterial viruses is typically just the comes in. Everything else stays
27:34 So it varies Okay. But it to get inside. The genome has
27:40 be somehow released inside the cells begin be able to replicate. Okay.
27:47 once that genomes inside Okay. There can depending on the type, it
27:54 integrate chromosome. Okay. Um even it does that right, that in
28:03 is this in itself is not leading replication and making new viruses.
28:10 So even if it does integrate it have to then kind of go back
28:15 this state. Again make copies of . They hang out the integration to
28:20 host chromosome. That's kind of a kind of just hanging out in the
28:24 . Right cells unaffected, it can and growth. And the virus is
28:30 kind of in there. Right. not really doing anything just hanging
28:35 Okay. But of course as a divides, right, all those generations
28:40 carrying that genome biology. Oh So um so at some point of
28:48 the virus ultimately has to make new and then that's when it will then
28:53 from that state and go into Okay. And there's bacterial viral types
28:58 do that. There's an animal virus that do that. All right.
29:03 that's kind of so we'll we'll when get into life cycles because that can
29:08 kind of complicated. We start with viruses their their cycles that tend to
29:13 a little bit less complex. And we shifted to animal virus samples.
29:18 and really the complexity has to do what we have a virus life cycle
29:23 more complex than a bacterial virus life . Why is that why is life
29:34 typically more complicated when you compare it a bacterial life cycle, bacterial virus
29:39 cycle. That was what the host type for analyze. Well you carry
29:51 itself, you have more stuff before was more complex. And so a
29:59 that infects it can have different options the UK area itself. Like you
30:04 nucleus, maybe other structures. And bacterial virus simpler by comparison.
30:11 Because the cell is infecting is by to you carry a lot less
30:16 So that's why you can kind of kind of depends on the host cell
30:21 . Right. What's the nature of host cell? So if you're making
30:24 of genome and then of course we to. So then this is the
30:29 of this, Right? This is factory making the cell virus factory.
30:34 , so basically this takes it over uses the post resources to make viral
30:41 which involves the process of transcription Right. Got to express those viral
30:49 into proteins and then assemble. And then um exit. Right.
30:56 they want to infect more cells. and again this process here.
31:01 Can vary as well. Okay. rate the rate of viral production can
31:10 . Okay. It just makes a uh time. Some can bacterial virus
31:18 make upwards of 500 page particles in single cell. Right? They can
31:27 make a few to a lot. . Um all of that. So
31:34 these resources using the host to Because if it's doing this right,
31:41 using host typically not always been host races. Um Using host life was
31:49 using host transfer are so certainly energy sapped from that host. The host
31:57 not enjoying this. Okay. Because lot of their energy is being used
32:03 the virus has taken it over. . And how much of this
32:09 The viral reproduction activity and making new particles? How much of that's
32:14 And at what rate that affects the hotel. So you'll see scenarios where
32:22 virus can be doing this only making amounts of viral particles and the host
32:30 live with that it can kind of and reproduce but has a much
32:37 They normally would if you didn't. we see kind of respectful where virus
32:43 suddenly fades are produced and the soldiers too. Like a retrovirus infection HIV
32:53 can kind of hang out integrate. while it's doing that produced by the
33:00 cell can actually still survives and reproduces little. Right But it still
33:06 So you have the spectrum all the in the prototype the conditions etcetera.
33:12 we'll get into more than variations uh time. Okay. But it's kind
33:17 just I'm just kind of presenting to here's what's common among all these viral
33:24 that replicate but pointing out we'll see . Okay. Yeah. Oh
33:32 Yeah. Oh okay. So that . So bacteria viruses much faster than
33:43 cells real fast. Uh There's not much in terms of how it it
33:53 complicated. Okay. So a it be a matter of minutes but it
34:02 kills the cell. It affects more . Right? Uh because typically grow
34:12 viruses that animal viruses uh may have parts of the cell that goes
34:19 So they may go to nucleus and they go outside and back and
34:22 And so it's kind of tied to for ever verse. Oh I'm gonna
34:30 it is ours for bacteria viruses. . So I kind of kind of
34:35 the time difference there. Okay. other questions? Yeah. So bacteria
34:46 are called page a factor of So bacteria viruses only affect factor.
34:59 so every kind of life form on has its particular virus, viral types
35:06 it affects? Okay. They don't they don't cross over. Okay.
35:12 so uh okay so viral infectivity but does that relate to it is something
35:23 what does it mean stopping activity? wasn't what you say. And so
35:43 said the infected. Okay uh that host. Um And so what does
35:57 entail? That's right. But what that, What is that what has
36:06 happen for that to happen to affect particular host have? What has to
36:12 ? Right. Right. Right. viruses um recognize the things that are
36:22 the surface of the set. Oh, typically they're often times um
36:31 involved that maybe maybe something involves kind transport for the cell. So the
36:37 specific for that or it could you know, animal cells and all
36:41 of cells and tissues of all kinds molecules telling adherence to other cells and
36:48 times like a cold virus attaches those of molecules. Okay. And so
36:53 you know, it's molecules that are the surface because that's where the virus
36:57 quote. See, right as it's toward a host cell, it's going
37:02 see what's on the surface there. gonna have the specific for certain of
37:06 molecules. Okay, so infectivity relates sort of particular host. Okay,
37:14 can A virus effect more than one type. Okay. So then host
37:27 be host can be on two Okay. It can be me versus
37:39 squirrel. Okay. two different Okay. It could be a skin
37:48 and a liver cell within one Right. Technically two different host cell
37:56 in a single bottom. And so so that's another kind of host.
38:02 . I mean in terms of Um uh so what's the example of
38:09 and the squirrel? What's the bio of effect? Got rabies.
38:14 So this is what we this has do with the broad narrow.
38:20 So viral types and all relates to . What are the types of molecules
38:26 recognizing on the surface of the So can be common. Commonality of
38:33 Let me just go to this So infectivity. Alright. Effectivity.
38:39 me get erased this here real So infectivity. Right? Getting inside
38:45 the viruses right? Getting inside and replicated. Right? So this this
38:52 of the process recognition. Getting So um And so host range.
38:59 ? So host range refers to the of different species let's say species that
39:07 be affected by rabies. Very Many different types of mammals are affected
39:12 this narrow is HIV infects humans. very specific. Um uh mumps,
39:23 , flu not flu but mumps and um uh infected humans. Um uh
39:32 is of course very broad. So one scope. Right, so the
39:37 one is tissue or the term for is trumpism refers to think about that
39:45 specificity. So now we're looking at one species if you will.
39:51 what are the what are the different types that it can affect in that
39:56 ? Right. I get infected with virus. How many different cell types
39:59 be affected? Okay. From most say for most it's relatively narrow.
40:08 , respiratory viruses like coronavirus um bind cells the respiratory system, respiratory tissues
40:17 lungs trachea. Right? Uh coronavirus affect these and it looks for this
40:24 of receptor. These are things they for. All right, So here's
40:28 um epithelial cells covering your lungs. . And it looks for these types
40:36 receptors that bind to it. Um some things can be deep within
40:42 your respiratory tissues in your body. . So it can it can affect
40:47 affect deep in your lungs and and this cause this kind of thing when
40:53 occurs. Cause as well learn this in the semester, inflammation inflammatory
40:58 And that leads to fluid build up the lungs. So people that have
41:02 serious cases of covid get built up of inflammation when they're biting into these
41:08 deep in the deep tissue. so uh but you can have some
41:16 are brought in again. Not But here uh Ebola is 11 of
41:22 reasons bowl is so deadly. It like a At minimum I think minimum
41:28 50-60% mortality rate. So you have chance of dying catching right? But
41:33 it's higher than that 89% mortality. a lot of that goes to the
41:39 that it can infect many different cells a person's body, right from uh
41:46 those cells line blood vessels. So those cells and blood begins to leak
41:52 . People at that Ebola is pretty because basically fluids are coming out of
41:57 with the person's body and it has do with the multiple cell types that
42:01 infect. And so that's a big why it's so lethal. Okay.
42:08 And so again uh narrow in terms host ranges HIV but also in terms
42:17 tissue type taking effect. Very one type. This is a type of
42:22 cell. These are immune system selves among T helper cells are different types
42:30 one type of it. And we'll later that t help ourselves of certain
42:38 are instrumental in um kind of organizing whole what's called adaptive immune response that
42:46 need a lot of form antibodies um deal with infected cells. And so
42:53 you knock these guys out really uh your immune system altogether. And so
43:04 no wonder somebody that has that dies HIV. They die not from the
43:11 virus but from like pneumonia or some of other respiratory ailment because they just
43:18 fight it, can't fight the our immune system is shot.
43:22 so anyway um any questions about Mhm. So let's look at this
43:31 . So when you get a little into structure here, viral structure um
43:37 a naked virus is lacking or missing maybe. Hey Captain Down.
44:43 13. 12. Okay. Alright. Um Your choices.
45:03 Um So who picked? Mhm. why is it e. Right
45:16 Right. So I thought more people have picked. Yes This one.
45:25 . I mean this is correct. envelope but I thought more people would
45:30 picked that. That's that's not a people to pick that. But it
45:37 it is absolutely lacking envelope. So viral structure. Right. You're
45:42 have you're gonna have a cap sid . You're gonna have a genome muslim
45:47 . You may not have these. so for that I mean you're going
45:53 have some kind of surface molecules other that captured protein but they may just
45:59 be visible as prominent spikes. Um But uh but spike is is
46:09 other whether it's naked virus or They're both gonna have spikes.
46:13 Um So shape. Why? So um Fila mentis asymmetrical shapes.
46:21 You can have these geometric 20 sided shapes here. Um The But but
46:31 you know, captured proteins here are be like don't think of it as
46:36 gonna have a bazillion Different Catholic proteins come together and infrastructure specifically on your
46:44 maybe 3-5 different proteins that come I can remember that barges are
46:50 They have small genomes which means they have a lot of genes period.
46:55 they have to kind of be different way. So they'll have maybe 3-4
46:59 five different capsule proteins that will then to form the capsule. Okay the
47:07 viruses so they will have different The this is acquired from the
47:13 So when the virus exits the host that requires that envelope. Okay.
47:22 so the outlook can have virus specific in. Okay. The different various
47:31 . Okay. Many times they're typically for attacks or attachments. Some of
47:36 are for attachment recognition of the host some and some can be also be
47:41 helping them exit the virus as Okay. The it's something happened with
47:48 that affect your system. Remember these are are affect your body um are
47:55 trying to get around your new So they may have proteins out here
48:00 help them do that interact with the system cells and kind of make them
48:07 in different ways. Okay so um you see a glycoprotein spikes. Okay
48:15 again it's just sugar protein combinations components can be kind of a long which
48:23 them very prominent visually. So they them spikes. Okay, uh
48:29 Okay so again it can be on a naked virus or a envelope
48:39 Okay now um filament viruses. Ebola an example of that is just a
48:46 . Uh they can be as you here they can be wrapped up contained
48:52 an envelope. You can see there a captain that services need to be
48:58 here and then um here is that virus that so it just kind of
49:06 longer type of viral structure tailed These are also sometimes called complex viruses
49:14 they have multiple parts to them. so this is typical for a bacterial
49:21 type of specific for affecting bacterial cells . Uh these other parts. And
49:39 this actually will sit on top of cell. So these will be for
49:43 for recognition these tail fibers. And then um then this genome in
49:51 actually is this will compress okay, part compresses down to like this.
49:58 here's the caps it head. So it compresses down and as it
50:05 the the genome gets shot into the the Okay so it's kind of flexible
50:14 . So kind of uh not not kind of typical actually for bacterial
50:21 So uh in those types of infections actually all of this actually stays outside
50:29 cell only genomes. Everything else stays . That's that's very typical for bacterial
50:37 . Okay, now, asymmetric. you're looking at that and you're gonna
50:42 , okay, that is symmetrical. around. Okay, so if we
50:50 uh so looking at this flu Okay let's call it roundish.
50:58 it actually will kind of it's kind blob ish. Okay, it's not
51:04 sphere. Okay so it kind of like I said brownish oval ish.
51:10 . And so that gives us the cemetery. Okay. And so um
51:15 has it has captured Okay, here's RNA genome um these little things out
51:25 again, these micro protein spikes. the N. And H.
51:33 May be familiar with the flu virus , right? Like H one
51:38 One. There is one type H and one and different age and numbers
51:45 attached to a box of flu Okay. And that relates to these
51:50 components here. We called hemagglutinin neuraminidase okay, your minute basis kind of
51:58 in um and exit the virus from host. The gluten helps in
52:06 Okay, So they can be different uh in terms of composition of both
52:12 these types would be called H one 22 etcetera. Given numbers for different
52:19 . Okay, um now the So No. one this is not
52:34 your book is already going to this all. I don't think that
52:39 And so at least I will be . And so this is um so
52:46 me set this up this way. if you look at an envelope virus
52:50 ? Like before we just saw, , here's your typical capsule.
52:55 right here, the caps it if label it or not? No.
53:00 , So here's the caps it. , right there covering the you
53:06 then we have the all the roads it. Right. And so here's
53:11 over here. Right here that has envelope. Of course right there.
53:17 then the genome, but you don't a visible capsule structure around it.
53:24 still hasn't But it has it in different form. Right. So look
53:28 the coronavirus over here, can And it has It has uh doesn't
53:36 a visible capsule. You see the . You see the genome. Where's
53:40 capsule? The capsule isn't a So, here's the genome in
53:43 Right. And so what it it has proteins but two the
53:56 Okay, covering it. So, can see it right here.
54:01 so, the red So there's a thin blue line. Right? That's
54:07 actual genome. Okay. Then it looks like a testament. Right?
54:13 the red are taking for reddish. you see that's the nuclear capsule proteins
54:20 the genome. So this essentially It's proteins stuck to that genome that
54:29 serving the purpose of the capsule coding . I think that's covering the
54:35 Right. Which is what a captain . It's just that the proteins are
54:40 bound to the genome rather than rather covering it like a house, so
54:45 speak, or or some kind of . It's stuck to the genome
54:49 Right. That's what we call that capsule. Right. So it's it's
54:54 version of the capsule. Right? that's something you'll see not, not
54:59 in coronavirus, but another some of viral types as well. Okay.
55:06 that makes sense. Any questions about . Yeah. What was the first
55:19 of that? Yeah, influences That's Yeah, but um but the
55:45 . Here. this is also just . Um many questions about that.
56:02 right. Um Okay, I just this in here just to kind of
56:08 you an idea of sizes and you know. So this is somewhat
56:12 . Uh here you see 10,008 10 nuclear ties. This kind of people
56:19 the average size. Which is which about 10 years. So we can
56:26 large viruses. Like polio viruses are large or larger virus, larger,
56:31 know, can accommodate more genes. , what kind of jeans that viruses
56:37 ? Right. There's gonna be things to infectivity. Right? Um proteins
56:44 are involved in recognizing host proteins that maybe involved in like exit from the
56:51 . Um enzymes like like certain types races depending on the viral type.
56:58 So there are there are some things will have with virus specific.
57:03 Um now this term here said non . Right. So that means it's
57:11 complete um complete in this case, strand. Right? It can be
57:23 up like you see here in the virus. Right. Different segments.
57:28 , Eight different segments of the flu . Right? Again, if you
57:33 them all together, approximately the same as this virus here. Okay,
57:38 again, just in second tonight goes long ways to how flu viruses can
57:45 viruses. I think I think typically virus. RNA viruses compared to DNA
57:53 . RNA viruses mutate more quickly compared viruses. Okay. There's no there's
57:59 mechanism to repair mistakes really. In virus, DNA virus may be able
58:04 use host functions for that. But RNA virus, no, so viruses
58:10 to retain more quickly and um because make a mistake, there's nothing in
58:16 and it may be a variation that enables it to be hidden from the
58:22 system. Okay. Um and so virus and so other things kind of
58:29 that virus virus that infects a cell than one. So let's say a
58:36 buyers and facts. Okay. The of few viruses more necessarily be genetically
58:43 same identical. There'll be variations and can have types that will infect the
58:49 cell. Okay. And viruses that the cell won't necessarily be absolutely genetically
58:57 leader because of the way that can picked quickly and so forth. And
59:02 um now with the flu virus in , these kind of originated in in
59:11 birds, um ducks uh and the uh they then migrated to domestic
59:21 chickens, um domestic ducks, uh and then into certain livestock like
59:28 and swine flu, bird flu. and uh and then variations kind of
59:35 . That's what you see here. , so here's the avian virus
59:40 showing it all the segments all in yellow right here and then here and
59:48 the H two into human virus. you see some parts are read some
59:53 are green. Right? That translates the origins like the red I think
59:58 from swine flu varieties. Green maybe uh bird or whatever. And so
60:06 can re assort right. In fact cell and then they can re assort
60:12 those segments of different origins combining with other. And the virus replicates creating
60:19 . Okay, now because you mutates variations don't think that there's like
60:25 bazillion variations are all infections. No . Has to be the right.
60:30 every mutation leads to something that's going be successful. We all know
60:33 Right. But there can be combinations may slightly make it slightly vary because
60:39 every season there's a different vaccine because does change from year to year.
60:46 , vaccines, vaccines that can be against this year's version. Sometimes we
60:51 even get get it right. It's it's all predictions. We don't know
60:55 certain. We do have mounds of from sequencing, you know, flu
61:00 , each flu season and using that to say, okay, Maybe this
61:05 kind of a trend. It's evolving this season and maybe we can,
61:10 know, this is how we construct vaccine. Right? But it's never
61:13 to be 100% correct guess. So you make a mixture,
61:19 mixture of vaccine is a mixture of uh virus antigens to kind of be
61:26 that will one of those who will . So I have a shotgun
61:30 Okay, there's some years. It's good. Some not so good.
61:35 , it's gonna be the same thing the Covid Covid vaccine produced every
61:41 because we're gonna go through the same like it does with the food.
61:45 , so that's the nature of dealing viruses. Okay. And trying to
61:52 because of course they evolve. We back and forth. Right,
61:57 um any questions about that? in this example? Yeah, but
62:15 not uncommon. So, if you a virus infection, you know,
62:21 it's not not I don't know what percentages are, but I don't think
62:28 a certain uncommon thing. Okay. right. Alright, so viral versus
62:42 . Okay, so, um statement completely underlying. Okay, which statement
62:57 completely true. Okay, let's be Not just one house all the
63:08 Let me turn this on. There go. Yeah. Okay, timer's
64:10 . It's gonna be one of those before and afters. So, we're
64:14 see this question again. Alright, 10. Okay, let's see what
64:35 get that. We get a Let's take a all right, let's
64:49 on. We'll revisit this here. , let's go through Thyroids.
64:54 so number one Vai roids and crayons not viruses. No one.
65:03 they're not considered viruses uh because they have the viral features of a tax
65:12 etcetera, what we've been talking Okay, so their virus like.
65:19 , but they're not viruses. Okay what that's what that's what viral means
65:23 means virus like but they're not getting virus is okay so one is infectious
65:31 . One infectious protein. So viruses infectious RNA is they? And that's
65:37 they are is an RNA. So molecules there are examples of those that
65:43 have catholic activity ends up. Okay um the RNA in can't there's one
65:54 catalyze is the so there's precedent for . Okay so um and that's how
66:03 would replicate. The hopes the only no human diseases caused by viruses.
66:10 I'm not even aware of virus that anything other than plants. Um Although
66:16 haven't kept up with it but I not been aware may have been made
66:20 of that is not what I've Um But being an RNA molecule they
66:25 have specific secondary structure as you see they'll have these little loop structures.
66:32 and that's gonna be a shape. shape is gonna be essential to their
66:37 sure their infectivity and ability to cause and what they do is they interfere
66:43 gene expression in the plant. Okay think the best known one is because
66:49 disease and potato plants and uh from unseen can be quite significant in terms
66:56 them and crops. So looking for to to counteract these viral particles so
67:04 that's you know relatively small. Okay how they're transmitted from plant to
67:13 I'm not sure. I wouldn't be there would be some kind of insect
67:17 I don't know that for sure. , because plants generally aren't easy to
67:22 . Right? Most that's why most diseases I think, or due to
67:27 um being kind of the vector to cause of the disease. So but
67:32 , I'm not don't hold me to . That that's how virus thyroids
67:37 Okay. Um That's really all I'm say about thyroids now in terms of
67:43 so take away here is infectious RNA . There's nothing more to it other
67:49 that. Okay. Um primes prion uh became came to prominence in
67:59 eighties. Okay. And this um picking in great Britain of cattle that
68:09 this what they call man cattle. you heard of us? Um This
68:15 uh this term spongiform encephalopathy and that's of the guys um It's a clicker
68:25 , collaborating. No problem. But just all right. Um the so
68:32 refers to this term, right, refers to what happens to the affected
68:38 . Brain. Okay, so um affected animal or human uh these proteins
68:47 . Okay. And cause death of cells basically ok in the brain and
68:55 nerve cells die and disappear right behind , those photos. Guys,
69:03 I'm hearing the talking to me. can't concentrate. Right? So it's
69:06 clicker question collaborate all you want, not while I'm talking. Okay.
69:12 right, so um so this this whole swiss cheese brain and tissue
69:20 right, becomes very spongy, literally spongy. And so obviously that's not
69:25 for the animal or human witness because you're gonna get neurological dysfunction and
69:32 Okay, so um Creutzfeld Jacob is they call this, the humans
69:37 I think it was what was first . This isn't sheep. Okay.
69:42 so um and so I mean us here in the United States is rare
69:52 I think the last case that has in this country. Okay, um
69:58 less around the world, it's not that's super common. Um the you
70:04 get it from eating meat from an animal of course. Okay. And
70:10 protein itself is actually quite resistant in of trying to get rid of it
70:15 through disinfection or what have you requires cooking the meat to very well
70:21 Okay, but best to avoid it obviously, but again, very resistant
70:28 different chemical and physical treatments as Now, so again, it's an
70:34 protein. Okay, and so how a so it's easy to visualize how
70:39 viral replicate right, on a would copy so protein. How is that
70:48 ? Right, so it goes to to its shape. Okay, so
70:54 have uh normal forms of this prion in ourselves, particularly in our in
71:02 brain cells. Okay. And um not still not really known what the
71:08 function of this protein is. I've everything from having a copper metabolism of
71:13 things to to other functions. And it's still not really well known what
71:19 function is, but we do know happens when it becomes misfolded misfolded form
71:26 the infectious form. Okay, so kind of like a chain reaction where
71:33 normal a and there's also I should they've seen that there could be a
71:39 pocket to this, a heritable component this in some cases. Okay.
71:45 so so then technically you could acquire eating uh attended me or I guess
71:51 is a genetic component to it. acquiring a defective gene that creates this
71:58 protein. So there is some evidence that too. Uh regardless number
72:03 it's a very slow progressing condition that overnight. Week happens over years.
72:11 . And so um you accumulate more more misfolded forms of the protein that's
72:18 what happened. So when you have misfolded form of the final form,
72:22 combined with a normal form and that it to become a misfolded form.
72:28 you see the binding here occurs. . And then creates that then becomes
72:35 misfolded form. Okay, so this on over months and years where you
72:42 these misfolded thoughts. Okay, and what leads to the ultimately death of
72:47 cell. Okay. And so um so when the cell dies it leaves
72:56 , they sometimes call these plaques, can be you think there's a hole
72:59 the brain, right? Of course accumulate obviously it's gonna affect neurological function
73:05 some sort. Okay. But again happens over is slowly progressing.
73:11 so accumulation of damage. And so just a different way to show
73:16 Here's a neuron and um the red the misfolded forms, the green or
73:23 normal forms of protein. And as accumulate more moms folded forms, these
73:28 actually I've seen where these things can of almost like memorize. So they
73:34 uh polymers of this almost and can of really distort the cell as they
73:42 , ultimately killing itself. Alright. creating these plaques in the brain.
73:48 , so uh so that's how this actually replicates by binding to a normal
73:53 , changes into a misfolded form. and that's quote reproduction of this.
74:00 . Um So let's look at this again. Okay, revisit and while
74:08 looking at it, any questions Right, okay. Put the timer
74:36 . Mhm. Alright, Countdown 9 seven and yes d is correct
75:06 Um Let's see what was the previous was. So I went from 84
75:24 And 130. So that's all we'll you next time. See you next
75:30 . Thank you.
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