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BIOL 2321_17742_Microbiology for Science Majors - 02_17_22_Lecture
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00:02 mhm. Okay. I don't Mm hmm. Okay folks.
01:02 Mm hmm. Thank you. Mm . There we go. Shooting.
01:15 . So everything we're talking about today not repeat is not on the
01:23 So we're starting unit to today, is Viruses, which is in two
01:32 part one his defining a virus in the virus, virus structure,
01:43 basics of reproduction. But we're going go into more details on the variations
01:50 that in Part two, which is focused on life cycles, viral life
01:56 . So, um, so of exams begins tomorrow. Um, you
02:03 any last minute questions? Certainly Um, the remember there's no blackboard
02:11 on Dubai sunday. Nor is there smart work due by sunday.
02:16 so, uh, schedule looking This is taking us through spring
02:23 Um, the uh, so this class coming up here. Okay.
02:30 actually does Covers Part one. so it will be extended to here
02:36 well. Okay, um, in same format, it's just a bunch
02:40 questions. This time we're gonna See you do with the 13 and 14
02:47 , different aspects of metabolism. uh, so heavily on that in
02:52 two try it. Um, just as you as you maybe read
03:01 ahead. So if you go into and 14 you're gonna go, oh
03:05 goodness, there's like a bazillion biochemical , you know, you don't have
03:11 memorize those. Okay, um, you go through the notes on that
03:17 , it's kind of just annoying stages bringing you down to the stages and
03:22 going on and what's coming out. just just you know, I'm always
03:28 this so you don't get to go the book or whatever you say,
03:30 my God, don't don't go All right, so taylor. So
03:35 uh make us again to is spring . So well, obviously, um
03:43 let's um um start with viruses Okay. And so of course viruses
03:51 encompasses everybody's favorite virus. Our friend alright is in this group. Um
04:02 discovery mentioned discovery of viruses um briefly really just centered around the smallness of
04:13 . Right? So filters we talked filtration um in the context of uh
04:21 growth, uh filter sterilizing solution um filters to to effectively block viruses don't
04:31 really exist. But um and so discovery is really kind of based on
04:38 . We're looking at this disease of effective tobacco plants. And just taking
04:47 that bacteria are causing this outbreak in plants because of course this is right
04:53 the smack in the middle of the germ theory and coke establishing microbes can
04:58 disease. And so that of course a natural thought that okay bacteria or
05:03 type of microbes causing this tobacco disease a disease and tobacco plants and um
05:12 uh when it looked at the plants just took disease plants and help them
05:17 just like, you know approach populates that scheme um that the the disease
05:25 would crush up, right? There's they contain infectious agents. Once it
05:31 , make a liquid paste of so to speak. Take that
05:36 run it through a filter. Oh , trap the bacteria on top.
05:41 , we've got our agent. So they applied the stuff on top
05:45 the filter microbes out of the Put it on healthy plants, no
05:50 . All right. Took the stuff went through the infiltrate. Applied that
05:55 healthy banks boom. They found the . So they knew they were living
05:59 super super tiny. That it was was it was not known to
06:04 Okay. And could not be seen that point because we're talking this is
06:10 early 19 hundreds in the late 19th . So no electron microscope available.
06:17 that's what it took to actually And that's the actual tobacco mosaic
06:22 which happens to be on the small of the spectrum in terms of size
06:26 years is about that's the smallest, yet rabies virus is also in that
06:32 range. On the other end of . I actually think there's a picture
06:36 here other than the spectrum is both labor uh towards almost one micron in
06:44 . So, you know, like micro and that's considered viruses.
06:51 Uh they have of course a size size range. Okay. And forms
06:55 forms, shapes, whatnot. so, um, but you
07:00 we've talked before about viruses of mine alive. Um there's different arguments for
07:06 against that. Um, essentially now they're replicating what you can operate,
07:15 very approaching synthesis etcetera. But certainly they're outside the host as that
07:24 these guys would be okay. And is all right this area.
07:31 Are they really are they alive in state or not? But they can
07:35 viable. Okay. We know that viruses, I'm sure floating around here
07:40 on door knobs and whatnot that uh know, are still remaining mine are
07:47 opposed to being replicated. Okay. so um and even the virus
07:54 you know, the capabilities, what capable of doing on their own actually
08:01 the spectrum as well. So there's um what's called giant viruses greater than
08:09 of my right. And these actually have some properties such as their own
08:16 RNA is transferring from vibration for some . And so these are thought to
08:21 maybe um remnants of what once used be a set. Okay. And
08:27 kind of degenerated. Okay. Um like uh smaller RNA viruses like this
08:36 . Right? Um maybe that used be part of a soul genome.
08:41 are in a kind of became its living entity. So it's uh a
08:48 of speculation as to how viruses evolved then we can see different forms like
08:54 that maybe you can tell how they written. But um they are certainly
09:00 been around, right. There is life forms. I don't think there's
09:03 life form on earth that doesn't have virus that infects. Okay, so
09:08 certainly influence um populations. That's kind what the next um slides about.
09:14 before we go there um like I , because they evolved with living,
09:19 know with quote studied their life. been around forever as well.
09:25 And so um and like selves, evolved, okay, they didn't change
09:31 then host cells change their response, it's back and forth, back and
09:35 . Okay. Um And so for longest time it was like that really
09:44 I had no good. Alright. we do is infect cells and kill
09:48 . Right. What can be good that? Well, that can't be
09:51 . Right from the standpoint of uh ecological Stanton controlling population sciences,
09:58 Uh That that can if you can back to you to recall uh uh
10:07 the subcategory but the aspect of the population ecology, et cetera that if
10:14 if you have an ecosystem, one becomes dominant, right, then that
10:22 of looks the diversity. All that's the only that's that's the one
10:26 maybe 90 30% prevalence, is that and others are not so much,
10:31 not a lot of diversity. So . F. G. You can't
10:34 population sizes, you know, that lead to diversity. And so viruses
10:39 promote that in ecosystems. Okay and this shows um in aquatic ecosystems uh
10:51 as in the oceans the the role of viruses in controlling populations of allergy
10:59 other um microbial life in the Uh and in doing so as far
11:06 getting scientific films it of course that dead cell becomes part of the
11:14 right? The dead organic material. so that provides a better to those
11:19 the ecosystem. Getting an influx of for your meta tropes influx of minerals
11:26 things for your autotrophs. So it that way. And uh you know
11:31 uh and of course the virus doesn't whatever its host species is it's not
11:37 they're wiping it out. I'm not any distinct. Okay. It is
11:43 there are many members of the population will resist the virus. Okay.
11:47 so but it is controlling numbers. so that's where you can see that
11:53 the University of current because no one is getting remember the other. And
11:59 you get kind of quite you know kind of decomposition effect they can produce
12:08 infecting their species killing it and then these organic organic materials. So um
12:17 I certainly thought in irish yeah studied that viruses and so this is of
12:22 has come to light in the last years or so. Okay. Um
12:28 even then it tears up right, lots of things going on with that
12:32 with their microbiome microbiome and and controlling relations and whatnot. So um
12:41 so they do they can do good Obviously they can do bad things as
12:45 know them for the last two years . Okay. But regardless um uh
12:52 guess like anything, it's never all or all bad, you know,
12:56 gonna be expected. Okay. So sorry about that feedback. Okay,
13:04 look at it. It's just it's same thing I just mentioned about a
13:10 ago. So you see uh virus specific to the certain bacterial marine forms
13:18 plankton. Um It looks like you're the bacteria, et cetera. And
13:23 on the right side of the net affecting things like algae uh and simple
13:29 and then the viral shut really just to me as they get into the
13:34 and we produced killing the host and that material um the composition the detritus
13:41 call it. Uh huh. So apart then that again material available for
13:49 . Um Now. Okay, so look at this question here.
13:55 so this will preview a little bit viral life cycle. Okay. But
14:02 any virus, right. Nothing begins this happens 1st. All right.
14:09 not happen unless we get this going initially. Okay, true. For
14:15 think that the virus uh this is . So um while you're thinking about
14:24 . Any questions on the viral ecology anything? Yeah. Go ahead.
14:31 determined. Mhm. Because I saw last line Ebola bizarre signs of the
14:46 pit part in in the nature of infection. Is that kind of?
14:50 necessarily nature, but by you know Oh, I don't know what the
14:58 why Ebola is. So people, mortality rate of Ebola is like greater
15:07 50% upwards of 90. Thanks. reason for that is more not because
15:12 the weird way it looks somewhat ahead the form. It's it really goes
15:16 this question here. Okay, let that's let me ask you this
15:21 I'll come right back here. I think I think it would make
15:25 . Um All right. Everybody Answer 12 seconds. Yes.
15:47 5, frantically punching letters. Mm hmm. And here we
15:57 Um. Yes. So that goes your suggestions. So, recognition and
16:05 . The whole surface model. That's either begins or ends. So,
16:12 to your question about Ebola. viruses we'll talk about shortly have this
16:19 future about what's called tissue specificity. , you have post range where a
16:27 , How many different hosts can virus ratings can affect different animals.
16:33 But within a single host, it also have different tissue specificities. Like
16:40 bars. Infects your upper respiratory Sounds right. Um, the flu
16:48 similar. Uh, Ebola has a of different self are taking effect.
16:54 is why it's so deadly. It affect um empathy themselves. Which like
17:01 blood vessels and things. And so can start affecting those blood vessels speaking
17:05 lead. And Ebola is a disease basically the person that dies from it
17:09 fluids coming out of everywhere. You ? And so it's very invasive and
17:13 because it affects so many different cell . That's why it's so deadly.
17:17 so much why it's yeah, that be kind of weird. Big but
17:22 really boils down to this aspect of able to affect different cell class.
17:26 that any? Okay, so again all about recognition. Right. And
17:36 the definition. Okay. So environment are not, they're not settled in
17:43 sense that we know how we define . Okay. Um They certainly can
17:52 like self dude, but they have requirement to have a hope to do
17:57 functions. Right? So they're right? They're small. And that
18:03 size means they can't you know, can have a small genome.
18:08 We'll be able to code for as genes as probably most sellers can.
18:14 um so it's gonna limit. And so they relied for a number
18:19 functions rely on the host for a of their functions. Okay. Um
18:26 so the term obligate intracellular parasite. . They're obligated. They must have
18:33 . Right? Um Like the Obligate must have oxygen. Right? Obligate
18:38 obligate intracellular parasite. It's parasitic living of the cell. Okay. Well
18:44 least for its reproductive part of its . Okay. Um the cap
18:50 So at the most basic uh every has a genome and protein surrounding that
19:02 common feature of any viruses that of other things can be added to
19:08 See, caption is that protein structure the genome which can be D.
19:14 . A. Or RNA. Single DNA or or or double stranded DNA
19:20 . The whole variations. Okay. and so here we're just gonna go
19:26 the basic life cycle. Um And what you'll see is pretty much common
19:36 any virus but there's going to be and we're gonna see these variations as
19:42 looked at life cycles in the next . But um of course all viruses
19:51 cycle begins or doesn't begin unless they a particular molecular interactions with the whole
19:58 molecules. Things like different types of , Glycoprotein, Zlatko lipids, these
20:05 of things that are on the periphery the seven hope so and so that's
20:11 they interact with and that begins the . Okay. And so from the
20:18 , what are the things they So that things were asterisks. It
20:23 on the viral type. So maybe don't some type of with them.
20:28 don't. So uh so DNA polymerase polymerase is one of those things.
20:34 , depends on the RNA viral Um Certainly they're only driver zones.
20:41 RNA. Something needs to do protein . Right? Um nucleotides of course
20:47 to produce its genome. Um The other thing is the virus is pretty
20:56 lack in the cabinet. You can't them glucose and help. They're
21:02 yep break that down into CO. and water. Right. They don't
21:06 that. They don't have electron transport . And the things we equipped with
21:10 in usual cells. Okay. Again on the host. Okay and so
21:17 energy they rely on from the host really that too popular genome and to
21:23 sides proteins and assembly. Okay um okay so following recognition, attachment recognition
21:33 attachment then the viral genome enters. there's variations here. The most number
21:41 variations you see are going to be animal viruses. So we're looking at
21:46 we'll look at bacterial viruses the more comparatively speaking. And the virus is
21:53 little complicated. And just about the of your head, why do you
22:00 an animal virus would be a more life cycle in the bacterial virus?
22:08 . Yes exactly. Animal cells are more complicated, appropriate. So naturally
22:13 sense. The viral time infecting that's to be more complex in terms of
22:19 life cycle. Okay. Um Okay so and again the variations we see
22:26 it's an animal virus system. The viral particle may enter. Okay um
22:33 part of it uh bacterial viruses generally the genome matters. Everything else stays
22:38 . Okay so um whatever the viral genome enters. Okay. And
22:45 course it's about making copies of the uh you have to remember when you're
22:52 at these life cycles. But the ultimately is for the virus is make
22:59 the particles. In fact new Okay, so what's going on in
23:06 that? Alright, basically what we're at now in the cell, what's
23:09 on is to that end to that ? Uh That goal may be
23:17 For some margin to come in, . Make lots of our particles get
23:23 would likely kill yourself. That's That's happened for others. It
23:30 Right? And so one of the can be to integrate with the host
23:35 . Alright, so maybe able to copies and then I'm gonna make particles
23:39 off we go. It's no I'm gonna hang out in the host chromosome
23:45 do nothing. Okay, that's one . That's what HIV virus place and
23:55 others. Um So the even if does do that at some point it's
24:03 to kick in viral replication. So basically the virus takes over the
24:11 and forming this with what's called a complex making the cella replication factory for
24:18 . Okay. And so which is about transcribing and translating viral genes.
24:24 . Into viral proteins, assembling all material. Okay. And then of
24:31 putting within the assembly process, putting right genome in there. Right.
24:37 it may be. R. A D N. A. What
24:40 ? Okay, so as I mentioned the basics of what you see here
24:44 and of course exit the cell. basics of what you see for common
24:49 types. We're going to see variations different points, different steps here,
24:55 right, Including exit some basically just to sell. They'll they'll be like
25:02 or 500 bacteria viruses coming out at and just overwhelming and killing himself.
25:08 , um some come out piecemeal, know, little bit at a
25:14 Right. And so the other thing remember is, you know, um
25:19 toll on the hosepipe. Right? hotel is certainly not having fun while
25:28 that's energy being sacked from it. , so um you know how much
25:35 a total taken on the host cell to? Can you still really
25:41 Can still replicate? Okay, because see again variations where a virus may
25:48 and just do to kind of let just make a few at a time
25:53 exit. That's easier on the Right, host can survive that.
25:57 can still replicate albeit more slowly. . But the wholesale does survive.
26:05 , um um but you know, all depending on the bio type.
26:11 , so we'll see different variations of and each it has kind of their
26:17 strategy for for replication. Okay, any questions. Thank you. So
26:27 , uh let's look at an Okay, so I kind of mentioned
26:30 a second ago. The context of so um host range, so this
26:38 be a little bit confusing. So host range and trope business.
26:44 Post range is how many different physical can I expect rabies is obvious
26:53 Rabies can say it squirrels, dogs, cats, humans,
26:58 What happened? Okay. Different That's host range. Okay, so
27:04 brought her there. Rabies is of course. Right, narrow HIV
27:10 , mumps, cole are fairly narrow rangers. Okay. Um the then
27:20 trope is um is within a single . So say a rabies virus
27:30 Multiple mana types. Okay, but let's just look at this world.
27:38 a host for rabies. Okay, the squirrel then, how many of
27:42 tissue types can affect rabies? The effects and things of nerve cells.
27:49 , um and then and then and it. They don't infect other parts
27:53 . Okay, so that's gonna be narrow trumpet narrow tissue specificity. Think
28:00 that way. Okay uh cold flu invest sells the respiratory tract. So
28:08 broad as mentioned can be Ebola infects cell types in the in the
28:14 Okay um so just to read it more time, repeat it. One
28:21 host range. How many different there's host bodies? Okay. Exactly.
28:28 . Trumpism within a particular host species different tissue types giving but okay,
28:37 little bit different stuff. Okay um and again, just to re reader
28:46 at this point. Right wholesale Right? While it's in that
28:50 Okay. The virus is pretty much . Right? I don't even know
28:56 was going on. Okay. But this happens potentially then the infection cycle
29:05 start. Okay. Um Do you it? Well you may or may
29:10 notice it, but you notice it symptoms of whatever disease maybe. Um
29:19 virus structure alright, surrounding the viral that the caption is made of what
29:28 called capsule mirrors the protein units. they can be and there's um typically
29:35 may have these geometric shapes, symmetrical possess that. They can be the
29:42 sided uh policy even I guess you it. Um But it's not made
29:50 it's made of multiple captured units. um But but there'll be a handful
30:00 different actually different caps and proteins. one shows you three different types.
30:06 . BP 1, 2 and And they just combine those regular
30:10 It doesn't mean that each um I've my having here. No dang
30:30 Oh here we go. Okay, if we see I'm sorry, we
30:37 different units here. Okay. There's there's one there's one they're not all
30:46 different protein. Right, So it's three or four or five different ones
30:50 combined together. Okay. Again it to do with you know, the
30:56 of the violent, you know, can't it's not building up to code
30:59 you know, each individual unit. it comes up with a handful of
31:04 and puts them together. Okay so because I remember viruses from small gotta
31:10 efficient in in that in that Um the envelope so you can so
31:19 is back up here. So what see here is hepatitis a virus.
31:24 captured surrounding genome. That's what they a naked. Okay so naked viruses
31:31 an envelope. Is what you see . Okay so here in the interior
31:40 the cab sit surrounding the genome. but then all of this around it
31:45 an envelope. Okay, acquired from seventh? Okay so all about viruses
31:56 it could be primarily if not exclusively the animal self variety. Yes.
32:06 The example soldier commonly will pick up envelope as it exits the wholesale and
32:14 the plans of memories wrapped around. . And that's what an envelope is
32:18 derived from the host cell member the viruses. That doesn't happen because most
32:24 had to sell long. It's not wrap the cell wall around um uh
32:32 uh So enveloped viruses that will have you see here viral proteins to insert
32:38 it. Okay, all these little things are viral proteins. The envelope
32:44 is host cell derived. Right um is like that. Okay. There's
32:51 envelope virus. Um Okay. And you often hear determine glycoprotein splash.
32:59 certainly do with that's what the Uh . The vaccine was produced against this
33:07 spike proteins in the in the periphery the virus in the envelope. Uh
33:13 those are for attachment. Okay. and so by having a vaccine to
33:22 spike protein, the antibodies produced as result will then bind and then that
33:28 the virus from binding to yourself. idea that Okay. Um Now uh
33:37 you see also. Right, so is a naked virus. Mhm.
33:45 this too. It's a naked Right? So you can have spikes
33:51 it and not have an envelope. you don't have those variations. Um
33:58 filament is viruses. Okay, these more of course. Okay. Um
34:08 can be enveloped. Okay. You one here this is Ebola wrapped,
34:16 the helical Emelin shape and then it an envelope around it. Um The
34:23 mosaic virus as well as the This virus um tailed viruses are also
34:32 complex viruses because they have kind of features. So you see there captured
34:44 viral structure that we have seen several already. Okay, so that contains
34:50 the captain of the genome inside. . When you see all this other
34:53 . Right. You see this tube . Okay this thing called the
34:59 Right. And you see all these here all that is for the recognition
35:05 binding to a hotel. And this form right here. This thing will
35:14 compress like a spring. It will and then shoot the genome with
35:21 So these types are bacteria viruses is common for bacterial virus is the only
35:27 going into the cell is the Nothing else. Right. That
35:33 that's not that's not generally the Then the virus is kind of a
35:37 . Their team goes in but not with bacterial viruses. Okay,
35:43 it has to do with the cell that surrounds the bacterial cell typically.
35:51 okay. Asymmetrical. So you may at that and go, well that's
35:54 asymmetrical. Okay, well it's actually of a more blondish form to
36:01 Okay, when you look at electron graphs of like a flu virus code
36:06 think in the same way it's it roundish. Okay, but not a
36:12 circle. Right? So it can change something change for a little
36:16 So it's like include the ground. can even be someone oblong and kind
36:20 blocky looking. So that's what we asymmetrical types. In fact. Um
36:26 too is an envelope virus uh is of a variation I guess of the
36:37 the of the capital structure. I've talking about where it looks like
36:41 Right? And then we have the inside. Okay, you can also
36:50 this structure over here. Okay, you see nuclear approach. Right?
36:57 that structure is not necessarily a formal captured around it but rather the genome
37:05 is covered with captured approach. what they called nuclear nuclear from nucleic
37:11 caps it. Nuclear protein sometimes called capsule protein. But the deal itself
37:19 the proteins like found all over Instead of being like, like like
37:24 encased in the caption. The GM was like studded with proteins.
37:30 so that's not uncommon. Flu virus like that. And so does that
37:36 . So you don't you don't see like the box captured boxing gym
37:41 You see the G on itself is with protein. Yeah, sure.
37:49 that make freedom? Does that make ? Yeah. Um the uh I
37:55 know when the book doesn't go into detail either, but it makes sense
37:59 to think that because you're looking at and go, well, where's the
38:01 that? Right. You don't really that captured in this cross section
38:05 like like one of these structures. , but you see this and it's
38:09 proteins coding directly coding genome. so let's think about this question
38:17 Alright, reference to RNA RNA Okay, and depending on the particular
38:23 virus type is GM could be used a template for what did archer viruses
38:31 for most people When we first the virus is studied viruses are the
38:35 tend to be the one that's You can't have to wrap your head
38:38 . Okay. Compared DNA viruses viruses understand you can understand better because they
38:46 a DNA genome. You're used to that. Okay. Uh, questions
38:54 far. What's an example of a the last week we talked about this
39:03 . Uh, influenza is also, , identify virus, the herpes type
39:12 . Um, uh, bacteria viruses those types. Yeah, many
39:24 Okay. So, so well we'll more into definitely get more into RNA
39:31 life cycles next time. But it's to kind of think about it now
39:36 terms of what these different types of . So just think of a
39:43 N. A template. What what you do with that? Okay.
39:55 , and the granite demanded have all information to answer the question but we'll
40:04 . Yeah. See I got my open to God. Shut up.
40:20 gonna get back and answer the Right. Yeah. Okay.
40:29 So I have 4, 3, . Okay. Alright. Um,
40:39 majority is correct. All of All of the services depending on how
40:45 bottles type. Right? You can uh, what's called plus plus the
40:55 . You can have a minus RNA . You can have coronavirus. That's
41:03 plus. But yeah, uh, reverse transcriptase. Okay. And um
41:19 out of space transcript case. So um, we'll get into
41:28 Well we're gonna talk a little about the end, but then more of
41:31 next time. Um, so the of the plus and minus thing.
41:39 , that's, that's not good. not using that part of my
41:44 Plus minus thing is applicable to any you're talking about the gasses. Okay
41:49 an opaque assets thing. It's not virus thing. Right? It's like
41:54 remember the nature of graphic acids right in the D. N.
41:59 But you can have complementary strands. ? So two strands of E.
42:05 . Are not identified. One is or the other? It's a complimentary
42:13 . And so we refer to those strands. Other names are sense
42:20 Right? Um We called for the minus strains. Okay. No I'm
42:26 this out now because you're gonna hear lot of it, you know coming
42:31 at the end of that certainly next . So we'll go through if you
42:36 know already. We'll go through what distinguishes at. Okay. But because
42:42 the plus and minus strands connected acting . It can be templates for slightly
42:47 things. Okay so in fact uh plus RNA strand is a template for
42:57 . Okay and minus RNA strand as template for our M. RNA
43:03 Okay and this guy and which has reverse transcriptase that's attempting to make
43:11 RNA DNA a little bit different. um Anyway so just throwing it out
43:19 see if it sticks doesn't stick will it stick it in the in the
43:23 lecture. Um Because we're gonna we're go over this in more detail.
43:29 so here's coronavirus. Just threw it just for grins. Uh if you
43:34 to throw rocks at it, feel . Okay. Um so has the
43:39 record here again. Example of that that has the nuclear capsules right?
43:46 has these the nuclear proteins directly on of the genome which you don't see
43:54 box captured on geometric captured form. see it captured proteins are directly stuck
44:00 the genome. Okay it does have envelope. Okay and the spike
44:06 Okay so plus RNA virus. So it can be a template directly for
44:12 make proteins. Okay and so that's something I'm gonna test john but just
44:17 know I don't really know this. covid is of course has an ancestry
44:22 it Back in uh 02 in Hong was the outbreak of sarge stands for
44:34 acute respiratory syndrome. But never that spread beyond that area but it's stayed
44:43 never spread um Members is for Middle respiratory syndrome. It's it's spread out
44:52 the Middle East. Um but really the sarge and then of course our
44:59 is the most recent version but they that lineage. Okay. All plus
45:05 RNA RNA viruses uh similar in many they all have the bat the bath
45:13 the source. Where were these Right. Um so uh the and
45:25 in terms of what covid um latches host recognition. Okay. Are these
45:35 called ace receptors uh in LBO So I think it's I haven't updated
45:42 uh with the omicron version, I'm this is probably the delta version.
45:49 version was divorced in terms of symptoms death. And one of the main
45:56 was its ability to buy into these called the older cells. Of course
45:59 in your lungs. So severe forms Covid can cause severe pneumonia,
46:07 inflammation. Uh information of albi older is the problem. It's serious because
46:14 you're impairing breathing. That's what the of is. One of the symptoms
46:18 Covid uh relates to how the self effects. And of course this
46:25 You get information information needs to um and fluid in the lungs and that
46:32 course leads the bad effects the pneumonia . Okay. Um but the omicron
46:40 isn't as um deadly uh nor as in terms of symptoms as the delta
46:48 is. Uh But but the oh conversion is more what than the delta
46:57 ? What was it working? Yeah more transmissible. More can marking tape
47:02 more transmissible but not it's not as . Um Not as severe symptoms with
47:08 . Um So I guess very public it now so that's what I
47:16 I got like two before before school . And uh three days I think
47:22 but the worst was I mean the was I had they did have a
47:26 like 100 and a low grade And as it's called 101.4 or something
47:31 that. Or 100.4. I forget , that was the worst. But
47:35 was about 80% the next day or . But anyway I think we all
47:41 about code for the time being. . Somebody wants to chime in with
47:45 covid story. No, we're good . So it's like should not making
47:50 of it. Okay. Um Any up there? Yes. Mm
47:57 So bacteria have about 500,000 spirits. . But what about a virus?
48:03 know that it's gonna be a lot than uh Yeah, probably about actually
48:12 slides coming up that have numbers So let me not miss speed.
48:15 I say upper range. Um Hold . Because I have the number for
48:26 fact these giant viruses I mentioned that can be upwards of more than
48:30 micron science. Those can have I close to the low end of what
48:35 have like 500,000 base range. That's be the max. I think I
48:39 say it's more like Um I'll speak the devil here we are. uh
48:45 bases for its probably probably about the size. I'd say this is your
48:50 viruses. It has this amount zika we see here. So you know
48:56 course you can look at the size right. The rabies virus On the
49:02 end like 20 nm in size. it's probably gonna have much less than
49:06 . Maybe 5000 or so bases. like Ebola part is a little more
49:10 it can accommodate more gino size So this is probably average I'd say
49:17 this range. Um And so I this and only to you know make
49:23 point that size. You know the sizes depending on how big the
49:29 Um And so the other point is they are dependent on the host to
49:36 . But they do of course carry that for for virus specific proteins.
49:41 there are certainly virus specific proteins that part of the process. Right?
49:46 catholic protein for example. Alright. certain of these proteins you see in
49:52 envelope or captions spike proteins and these of things. Right. So there's
49:56 virus encoded um Uh huh. Protein the part of the process of the
50:03 cycle. Um Also uh you know do some do carry their own DNA
50:10 for example certain DNA viruses. And that that that will certainly be a
50:15 gene that codes for. So it but the point is that there are
50:19 virus in coded gene. Um So flu virus. And so in terms
50:24 genome so we looked at um so Gm can be RNA D.
50:29 A single or double stranded. Um either a singular form. Okay,
50:38 the double strand or it can be this. So the flu virus is
50:44 we call a segmented said method in chopped up into four pieces. Okay
50:51 actually eight segments I think in the virus. Okay now what that can
50:57 for it is enable you know a combining segments of these. So the
51:06 is when the virus is in fact settled um You can have current fraction
51:15 cells. You can have two flu affecting the same cell. Okay and
51:20 you can have accommodation for example of segments. Okay that's two viruses.
51:27 R. R.. Next year. huh. D. N.
51:34 Is from their previous hosts. So acquire uh birds wild water birds
51:41 ducks. Alright and then devolved into to um domestic fowl, chickens
51:50 Okay um domestic ducks and and then then into swipe like pigs.
52:00 And so you know the the human one of ours. You can see
52:05 remnants of those of that duck. name of that chicken of that swine
52:13 in the flu virus. And uh course it's constantly evolving changing. Which
52:20 why there was a different flu shot season because the flu virus changes.
52:28 um thankfully doesn't have high mortality rate . Right it's endemic of course.
52:39 That's that's where covid is headed is the pandemic state like the flu.
52:45 But the segmented segmented you know is kind of a different thing. We
52:50 see that a lot in in fact can't think of another example size flu
52:54 that has this. Um But uh something else I can't remember now.
53:03 is any questions? So next next things are are not we don't they're
53:14 considered viruses. Okay. They're Right? So vai roids and
53:21 Okay. Are not viruses. Um but they are virus like I
53:31 . Um So viral and prime are prime uh thyroid RNA and infectious
53:40 A molecule. That's it no No it's a coordinate monitor.
53:49 Priam's approaching that's it. Nothing else with it. Just a protein.
53:55 caps. It's no to pick Just a protein. Okay. Um
54:01 that just is the key. They replicate themselves. The boats get into
54:04 host and replicate. Okay. And they do it in kind of a
54:08 way more so the prime uh than the violates our plant plant um infectious
54:19 of plants, uh fruits and different types very common to get infected
54:26 thyroids. Uh I think the most is the is the potato tuber spindle
54:33 I think it's called. But it affect other other fruits and vegetables.
54:38 to date I have not seen where fact it's kind of a human.
54:42 . Um but RNA molecules although not stranded, they can fold up.
54:49 have secondary structure, complementary base pairing that. And actually that structure is
54:54 important to its viability, right folds such a way you see here to
55:02 keep it viable. Okay, so can infect, it typically affects plants
55:09 whether whether they may be damaged. , because it's not easy to affect
55:13 plant really cell wall. So a of uh plant viruses, right,
55:20 typically carried through insect vectors when they plants causing disease and plants. But
55:29 anyway, so virus are certainly a among certain fruits and vegetables. They
55:35 small. They rely on the host their preliminary to make copies of
55:40 Okay, uh uh you may not different types of RNA molecules can have
55:47 their own catalytic activity. Right? remember the Our ribosomes, ribosomes,
55:54 16 s part of the small subunit actually has catalytic activity is what creates
56:02 peptide bonds between amino acids. Uh and so this I believe they
56:08 has catalytic activity as well. And their effect is too, I've seen
56:15 they where they interact with proteins affecting but also affecting expression of certain
56:25 Um beyond that, I was on whole lot known about these. Um
56:35 you know, it certainly is from economic standpoint, apparently it can devastate
56:42 types of crops. Um so that's all I have to say about
56:47 And so the main takeaway with thyroids infectious RNA molecules, nothing more than
56:53 in terms of structure. Okay, brian's are infectious proteins. Okay,
57:01 so mad cow disease, I'm guessing may have heard about Um back in
57:08 80s, that was a was a . Um not so much, not
57:13 here in the States, but in Britain, there was this concern raised
57:18 would see on the nightly news. showed cattle and every now and then
57:22 somebody's farm that were affected with this you know, obviously causing severe neurological
57:29 , motor skills and things like house falling down and whatnot. Pretty
57:33 looking. But and that's you know we would get. It's frightening disease
57:42 be forgiving the needs of affected, ? Um the the term medical
57:51 I guess for the disease. Spongiform . Okay, so the pathology of
57:57 brain tissue spongy form, It's appropriate because the progress of disease. So
58:05 disease progresses very slowly. Okay, humans, um but it's um it
58:14 up creating destroying nerve cells and in place creating gaps in the tissue or
58:22 cells used to be. And nerve have disappeared. Okay, so the
58:27 that actually holds great tissue given the brand tissue a very spongy consistency.
58:35 that term. Spongiform. Right? you started this, I think this
58:39 studied this in uh and sheep I is when they first studied this and
58:44 saw of course the pathology of the tissue in this forum. Um the
58:52 human, so scrapie is like the and sheep and humans, they call
58:57 Horsfield objective disease. I guess you also get it from eating the practice
59:04 eating infected brains of humans. So tribes I think I've seen have been
59:13 to have have this as well that's kuru kuru. Are you um in
59:20 case, what is This thing all ? Well, number one we have
59:26 normal formulas in our primarily the brain . It actually exists in very many
59:34 of cells, but it's prevalent in cells. And still to this
59:41 I have not seen a exact function a pinpoint. Okay, I've seen
59:47 often. That may be important to something to do with property capitalism.
59:52 weird. That's what I've seen. the normal form is needed. And
60:00 what happens is it becomes intact normal me, it's all about changing the
60:05 structure the approach and really is what's . And the prion form, the
60:13 is what we call the misfolded. a misfolded abnormal film. You can
60:19 the contrast and the tertiary structure between two types. And so the the
60:23 form um when it binds to a type, it changes the shape into
60:33 abnormal shape as you see here. ? So this guy through the binding
60:40 we has assumed that private shape. , then we're gonna change the act
60:47 . Slowly, gradual progression. Not over time you get aggregates of these
60:56 and think they can even like buying ? I had to come from like
61:03 . Okay and the gradual accumulation of space of the death of nervous.
61:11 . Um They surprised they are very to various treatments. Physical physical chemical
61:18 really have to really if you know really need that aspect of the crime
61:23 don't worry about it. All The number of cases people died of
61:27 to the U. S. Is intimate test. Okay so um that's
61:33 something to worry about but just for . If you had a state that
61:37 . Alright cook the hell of Yes. Very very well done.
61:43 . Apparently it's very resistant attempt as maybe because the way it folds
61:49 I'm sure this has to do with . Um There is and so you
61:55 in a cross section of diseased tissue these are the holes basically the where
62:02 used to be plaques. I think also call these things plaques as
62:06 So um of course accumulating those. is a very spongy kind of
62:11 And you don't want a spongy Okay. Unless you're absorbing knowledge
62:15 No I think that's the brain that's absorb much knowledge holding it. Um
62:23 and this just shows a little cartoon diagram of how the red the green
62:28 the normal prion proteins and the red . Bad ones that are forming and
62:33 are obviously accumulating in this neuron Um And then they can they can
62:41 to other cells and start to cycle those cells. Um Any questions?
62:51 so prions are proteins that are infectious roids. RNA molecules are infectious.
62:58 do we consider them to be They're just kind of these unique virus
63:04 things. Okay so here's a So we're gonna kind of wrap up
63:13 classifying viruses. Okay. And having gone through the structure of viruses priority
63:22 . Okay well they're gonna differentiate viruses different things. We've just we've already
63:27 now you can maybe theoretically pacify them . Okay. I'm sure you can
63:33 up with a number of these things not everything. Well sit down.
64:04 . Yes. Okay. One mm hmm. Mhm. Here we
64:50 . We need to one and you be able to do a carbohydrate fermentation
65:01 I. D. Purposes. Okay viruses don't do that. Okay.
65:08 so I think you know hypothetically you use all of these except for B
65:15 identify and you know they are used uh kind of standard is the Baltimore
65:25 he's the discoverer of of co discovery the HIV virus retrovirus. Um So
65:35 this is classification is based on is genome tight and the route to get
65:47 expression of the genes of RNA. protein. Okay. How does it
65:52 to that point. So the group into our DNA viruses double stranded single
65:58 respectively. That I think is kind easy. Right? It's easy enough
66:04 wrap. Your head around because that's you're used to seeing. Right.
66:07 . N. A. Transcribed. right. M. R. And
66:11 translate the programs. I think that's easy to grasp. Right. So
66:15 aren't a viruses and there are different . And so here's the key is
66:22 box. Okay, so plus RNA because sense RNA. It contains the
66:35 information to be translated into approaching. . Um And so and we're looking
66:44 RNA viruses generally not all but most this enzyme RNA dependent RNA polymerase.
66:57 a viral enzyme. Okay. We have that as do other life forms
67:06 um what kind of ornate commemorates do have? No, Well, we
67:14 barney is we just have It's called , it's called R. N.
67:22 . No, it's called do they That's what we've got D.
67:30 A. Dependent our exploration because our implementations copy our D. N.
67:37 . A. Protein. Right? we have DNA dependent not our
67:42 We all copy RNA is into. right. More um But these three
67:50 of RNA viruses view hence many. not gonna get it from their
67:59 Yeah. Um Okay. So group 4 and five. So with the
68:11 threes which have double stranded RNA they're have a plus and minus strand.
68:17 remember. So you can see that minus relationship is here as well.
68:23 . D. N. A. . It's about time you take
68:28 Right? It's not about the viruses acid. That's why we make the
68:31 minus designations. Ok. Um So the double stranded RNA bars it's got
68:39 . The guy has one of Right? So um we can copy
68:45 M. R. A. We copy to transcribe the miners stranded for
68:50 strand. And uh we're done. then we can use that to translating
68:56 . Um now the other two groups night Have um one has the plus
69:02 in a group four group five to RNA genome. Okay, so whenever
69:10 copy a strand, it's going to the complimentary copy. We know
69:17 So plus copies into a minus and into a plus. Okay, so
69:22 the plus strand you may be okay, here's a plus barney a
69:29 with this genome. Okay, I that that I know from this box
69:37 that can act as an M. . Name. I can make proteins
69:41 there. Yeah. So why do need to copy that at all?
69:48 got a genome that can be made to proteins. I go to the
69:52 boom. Why do I need to a bunch of copies of that?
69:58 . Mhm. Why? Thank you went back in the first line.
70:04 know we talked about bio replication. of the endgame the end game for
70:11 . What? Making lots of little . Right. And what's gonna be
70:18 each one of those little viruses? . So it's about making stuff so
70:24 that plus RNA virus. Right. gonna make lots of copies of minus
70:30 . N. A. And it to happen that way. Believe me
70:34 it could go if you could make bunch of the copies of that into
70:41 . Of course it would. But can't it just doesn't happen.
70:46 It has to go through. It's the rules of nucleic acid base
70:52 Alright. You can't it doesn't work way. So they have to go
70:56 way minus then copy that into a . So that's the thing you have
71:01 wrap your head around. Right. ? Okay. So but it's just
71:08 the rules of basement. That's all is. You can work it out
71:13 yourself on a sheet of paper. ? You're not gonna go okay A
71:19 . G. C. Are we copy that into A U.
71:25 C. No, the copy is A C. G. Okay.
71:34 that's all that's going on. Nothing . Okay. But for the virus
71:39 is a single stranded RNA virus, the group that has to go
71:45 Okay, so um that's why you this kind of seems to be back
71:51 forth. What's this all about? that's why. Okay so for the
71:55 RNA virus it can make copies of . And boom it's got M RNA
72:01 now been translated protein but it's not it's not done because why in the
72:10 game to package into all the eventual it's going to make so you have
72:18 make copies of that. So hence go oh I can't draw. So
72:23 gonna because I'm ending where the RNA ends. That's why my extending
72:27 . But what will happen is this then go into minus RNA with another
72:33 of R. D. R. . For short. Okay. Only
72:39 it needs those guys to stuff into the eventual viruses is gonna make.
72:47 ? So I don't remember the Right? But in fact the NBA
72:52 invest is gonna be making lots of particles. Each one of those
72:55 He's a genome and plus a bunch other stuff. So that's why it
73:01 does this this way. Okay um so the last one here is
73:08 That's the oddball. Right So they their RNA as a template community.
73:13 . N. A. Okay reverse . And that then uh then use
73:21 um host DNA polymerase to make the strains the clustering. So it's here
73:32 right based pairing rules right here is plus R. N. A.
73:37 into a minus D. N. . Right? The the same same
73:44 why it happens that way whether it's RNA DNA DNA or RNA anything.
73:48 right. And then um then finally would transcribe the DNA form to make
73:58 . R. So again it's all in this classification scheme. It's all
74:03 how do we get two here? . Because of course that's important.
74:12 ? You gotta get a synthesized by protein, right? Because remember there's
74:15 things going on. Right. And keeping it keeping the basic structure.
74:21 . We got to make that. , captured. You need proteins to
74:28 that. And whatever else is little things. Right. Maybe in here
74:34 this. Okay. And then we're stick a genome in it.
74:39 So all that it happens in the of a viral infection. We're gonna
74:45 all that stuff together. That's why got this. If you go through
74:52 different step something. Okay. Um , uh real quick. Okay.
75:05 memorize this table # one. Just throw it in just to show
75:11 , really. We've been talking about viruses at the end of your
75:14 So many viruses you're familiar with are those two groups, right? You're
75:21 your West Nile which is endemic in area. Uh, poliovirus, measles
75:28 mumps and rabies, flu. All favorites. Right. Already. Among
75:35 many RNA viruses. All right. guys have a lab something. You
75:41 Others continue studying others. I See you. Okay, next
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