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BIOL 2321_Microbiology for Science Majors - 2321_MW4_2_2_23_Lecture
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00:03 Okay. Mhm. Yeah. Hey , welcome braving the cold weather if
00:48 believe in the whole Groundhog Day he saw his shadow. Six more
00:53 of winter. So, mm So um so we're obviously in the
01:02 box here. Weeks day week Um So we're gonna finish up chapter
01:09 finally and uh on the chapter Okay. So uh send out the
01:16 again this morning. So usual stuff opens tomorrow. Smart work. Chapter
01:24 do. And scheduling time schedule opens guess midnight tonight. So if you
01:33 needing a certain time slot, I will be up at midnight. Um
01:40 I don't know the exact time but generally it's nine in the morning
01:46 six in the evening. Uh on saturday is probably a little shorter time
01:52 . I think so. But the point is you got lots of
01:55 . Lots to choose from. Um remember you have to be registered that
02:00 the site to sign up. So do do those things. Um
02:07 minor change. So the control of growth. Chapter five is one of
02:13 flip class things. It's not I it since we're gonna be doing one
02:17 away afterwards on blackboard. So just minor thing, but just to make
02:26 aware of that. And so we have four days to finish up four
02:33 chapter five. Okay, plenty of . Chapter five relatively short. Really
02:38 on on antimicrobial uh physical and chemical of control. Just mainly just focus
02:48 that. So it's not it's not extensive. So anyway, so let's
02:56 Look at Chapter three. So on left is what we've covered. That's
03:02 more or less in chronological order. so we still have remaining uh these
03:08 the right. And so most of and say these different types of
03:15 Granules, inclusions. They kind of different names uh collectively they represent,
03:24 um buy products or parts of their . It's kind of how they relate
03:31 maybe relate to metabolic features of the that have them. Okay, the
03:36 two early focused on types of motion uh are pill. I can give
03:43 a type of motion. Certainly. So those would be the last couple
03:47 will go into Chapter four. Is anything about any of this stuff over
03:54 ? Anybody have a particular question about ? Okay, so let's look at
04:02 first question. This is these are terms we're gonna cover in the first
04:06 here, today. Okay, so see uh ring a bell and there
04:13 um there is a false answer So there is a answer.
04:41 Mhm. Alright, Let's count down 10. Right? Yeah.
05:09 I e. You are correct. , so that is false. So
05:16 zones aren't related to any kind of or energy storage? It's uh basically
05:22 compass, right, compass helps you magnetic north or south, depending on
05:28 part of the world you're in. we will cover all these three,
05:32 these four black terms here right Okay so as mentioned specialized structure.
05:39 these things are often tied to a . These first ones are seen in
05:47 trophic bacteria and in chemo autotrophs back . So both are types of
05:55 Okay so remember what that means Okay so uh photo trophy through light
06:03 . So both of these first parts is all about formation of energy.
06:08 whether you're bringing light to chemical energy mineral oxidation minerals are inorganic materials,
06:16 , iron um hires and sulfide right are being used as energy sources and
06:25 that energy from both processes to fix . 02. Right so they produce
06:32 in the form of A. P. And N. A.
06:34 . P. H. And use to fix C. 02. So
06:41 C. 02. You build up . 02. You make it into
06:47 complex organic material. That takes a a lot of energy. Right?
06:52 the energy comes in the form of two molecules. Lots of these are
06:58 in the process. Okay so you produce that energy if you're autotrophs through
07:03 or by being a little pro. so um so one of the structures
07:11 relate to that. Well uh this photo trophy. Okay fill the
07:19 Okay so they have that in common car boxy zones are both common to
07:26 of these. Okay and approach can car boxes. So first pilot
07:36 So I know you're probably thinking okay not that that means chloroplasts. No
07:41 carriers. They don't have chloroplasts. don't have those kinds of things.
07:45 the records are really in a Records just folded up membranes. And
07:51 photo trophic bacteria that do that just up their cytoplasmic membrane. Right?
07:58 that's stuff. It full of uh pigments. Right? And so that
08:06 as their final okay again not Not an organ. L.
08:11 Um and of course by folding up membrane right? You can create a
08:16 of service area lots of room to . It full of photosynthetic pigments.
08:22 the like okay um Car boxes owns product. Uh Both products are used
08:32 both. For and okay because they CO. Two. And if you
08:41 lots of C. 02 then you of have a structure that is full
08:46 the enzyme that fixes C. Okay and that's this romesco, this
08:52 the shorthand name for it. It means uh remember by phosphate is the
09:03 it's the enzyme, if you recall Calvin cycle, that's the enzyme that
09:07 brings C. 02 in from the and combines. It with a
09:11 Right? So you basically begin making organic molecules by fixing C.
09:16 Okay so a other trophy that's very in this activity um can form these
09:25 which is basically a protein bound ethical full of that enzyme. Right?
09:32 again not an organ l it's not by their surrounding it. It's a
09:36 layer surrounding this this thing full of . Okay Biscoe so um now gas
09:45 als our uh typically a function or feature in photo troughs. Okay.
09:56 so the total truth and of course would be a aquatic photo trophy.
10:01 that's where many of them are Fresh water, marine water. Um
10:06 if you absorb light you absorb specific of light. Right? Like plants
10:12 algae absorb blues. Reds. Okay bacteria. There's something that do that
10:19 of bacteria. Same same light others point is where you're at in the
10:27 column determine if you are in the level to absorb light energy your optimal
10:35 . Okay so you can adjust in water column up and down. So
10:39 just gets back to the airfield so kind of just put some out or
10:43 some more in and kind of goes and down suggesting. Okay so again
10:50 gonna be a feature you'll see in photo tropes aquatic. So uh so
10:58 these all all of these relate to some way directly indirectly to auto trophy
11:07 . Okay um Any questions about. so yeah it's so yeah it's gonna
11:24 somewhere in the filled with gas air . Um. Alright lease on this
11:34 are all all it's one are well wouldn't call the other one the same
11:40 energy storage food, food slack energy . So many chromatic Granules gets the
11:47 kind of of their appearance under a . So Karen bacterium which you see
11:53 here is one of those you stained methylene blue. And this particular genus
12:01 known to produce lots of these um basically a phosphate polymer, phosphate and
12:06 string it together. Okay. And very thick with this material. The
12:12 will stay intensely purple like you see . Okay. And so what is
12:19 just a quick store of energy. you take 80 these phosphate polymers,
12:24 take one off and added to ADP your form 18. That's all it
12:29 . So it's a quick way to some marriage right somewhat. Our own
12:33 have creatinine, right? That kind serves a similar function. Okay.
12:40 Now actually if you go through these of storage Granules, they're not going
12:45 be an all bacteria. Some have don't it kind of just various also
12:50 on their metabolism. Um Place So you're familiar with this like login
12:56 , starch and plants we contain glycogen an animal storage form but bacteria you'll
13:01 both types like login and um starts just glucose units strung together in the
13:10 . Okay. Um And so if need to use it they'll just cleave
13:14 of glucose and then metabolize it. energy right? Um sulfur Granules.
13:20 these uh depending on bacterial type, granule itself. So these are types
13:28 can um utilized hydrogen sulfide and inform that to elemental sulfur. Okay.
13:38 can actually take that and oxidize that to other sulfur compounds. Okay.
13:45 in this type in the picture you the yellow blobs inside the cell
13:49 Okay, these are sulfur sulfur elements of sulfur Granules. And so
13:55 have used this. The end products their metabolism is kind of just sits
13:59 the cell. Okay. Other cell have the same metabolism and they released
14:04 Granules. So you can actually it's way to kind of differentiate the two
14:07 here. Um Others can can use S. O. And use it
14:12 a food source. So you can some variations. Um The Liberty
14:20 So these um are represented by poly . There's also P. H.
14:30 . Which is probably hydroxy acetate, hydroxy acetate. Uh regardless. So
14:36 a kind of a little bit form form the yellow, what's higher than
14:43 yellow or the units that are stuck together. Um And so in bacillus
14:49 can see the white blobs are all b all of these here. So
14:56 known to be one that produced lots these storage components. So of course
15:00 are a good source of energy, energy rich. And so when it
15:05 to it can hide realize these and get energy from it. Um
15:10 several years ago this was developed this was developed for use as a it
15:20 not to be the next to make bags, right, biodegradable.
15:28 By using by using this material to them make bags out of it.
15:34 they can certainly make the grocery bags that material. And they did it
15:38 taking I think they took bacillus anytime have a micro that can make some
15:45 of a product for this or a of some sort like an enzyme.
15:52 had lots of lots of developed bio technology developments that center on this.
15:59 , and so you've got to basically commercialize that you have to make the
16:05 , make lots of it. You're commercialize something, You can't deal with
16:09 quantities. You need buckets, we're make money. Okay. And so
16:13 do that. This relates to Chapter , growing up in ways that will
16:18 it make lots of the material genetically . Right? Oftentimes you do both
16:23 it in a way that makes that more of it plus kind of genetically
16:28 to make it express more of the . So different ways you can tinker
16:32 it, but it turned out that was not as successful. Okay,
16:38 what might be the obvious thing why bag didn't work? Right, get
16:43 bag put your stuff in it. doesn't work. It's probably probably because
16:50 want you to your car and get on the ground values. Hold
16:55 Okay, so it turns out this was not as robust. Okay,
17:02 hold up to the stress. So ended up making your variation which actually
17:07 plastic stuff in it. So it of, you know the purpose of
17:10 something completely biodegradable, but nonetheless I they're still working on this to perfect
17:15 . Um So you biotech majors out , these are the kind of things
17:20 work on. Okay, if you're in the pharmaceutical industry. Okay,
17:25 let's look at this question and we're cover these next. Okay. Um
17:31 there any questions about the storage? . B. I think that so
17:49 can use uh Yeah. Yeah Yeah. But yeah you're right.
18:03 would be to be a some kind autotrophs. Any other. Okay,
18:14 . Put the timer on here. any type of motion. We were
18:20 talking about the silver from point To point B. Could it be
18:32 ? Alright, cutting down from 10 . So you tie between F.
18:50 G. Okay. Um G. . F. Which which one do
19:07 ? Yeah. Yeah it's G. . S. G. They all
19:17 so again just so point A. point B. Certainly can. I
19:21 we can agree on that is a . Right? So that actually can
19:26 a kind of motion because it attracts attraction. You draw, it actually
19:31 to magnetic north or south putting on they're at in the world. Um
19:36 pilots can make this kind of weird that's called twitching motility. We'll talk
19:41 that. And the gas back you kind of adjust it up and down
19:44 waterfall photo so they can. All , some kind of motion. Um
19:52 um Okay, magnetism. So these any kind of taxes is kind of
19:58 magneto taxes, Chemo taxes uh photo . Right. So these contain um
20:07 magnetite Granules. Okay, it literally it a compass for this.
20:13 so helps it orients itself and its . These are aquatic organisms I
20:21 Uh Maybe found in freshwater environments But certainly in marine environments. Um
20:27 so the movements toward the pole. it's also down so it's down and
20:33 the pole, The north and south the northern and southern chemistry.
20:38 So what does that mean? Well does that it relates to its
20:43 Right, so anaerobic Or micro Let's talk about this in Chapter
20:49 But um so bacteria can have an have a wide range of responses to
20:59 presence of oxygen. Okay. It it can be toxic to them.
21:05 can be required for them to live be somewhere in between. I can
21:10 with or without it. Um Or may have a requirement. That's micro
21:15 . Filic actually there's a lot more have that are like this that aren't
21:20 era files kind of remember atmospheric levels CO two are like 2021%. So
21:26 micro profile can only handle not maybe by 1% somewhere in that range because
21:33 high levels it's toxic to them. the point here is that um by
21:39 this magna magnetite and they organize them their environment such that they move down
21:46 the pole. They can move to level where the oxygen is either low
21:54 very low and that's where they'll adjust because that's optimal for their growth.
21:59 so they think that's why what this them do. Okay. Um So
22:05 not again it's not something that it's a food storage thing. It's really
22:09 of a orient myself in the environment I can get my right level to
22:12 to kind of thing, compass really of it that way. Um Okay
22:18 brad collide and stuff. We talked stocks and just start with that.
22:22 talked about that earlier in the context pools of the cell. And so
22:29 is a nutrient driven stocks. So can you can switch between the stock
22:38 the. Okay so the stock enables to um find two rocks or whatever
22:47 the environment that keeps them stationary. presumably in a nutrient rich environment they
22:52 to remain there and then that's optimal their growth. Um Once nutrients decline
22:59 it reverts to a gentleman. It away to find a more favorable environment
23:04 that's kind of what's going on The pill and difference there they may
23:11 the same material but the tend to more numerous and more plentiful around the
23:20 coming out of the cell. attachment is what it's for um biofilm
23:27 that do they have uh for attachment the surface to initiate the biofilm
23:34 Um pill I'm are tend to be specialized functions, less numerous and more
23:42 . Everything from what you see A sex pilots for conjugation we'll talk
23:48 the next unit. So in this I pilots singular D. N.
23:55 . Or segments of DNA can be between cells. Um There's other pillai
24:00 can be involved in in transformation transformation the uptake of DNA fragments from the
24:08 . There's types that can have a that bind to the fragments and bring
24:11 in itself. Um Other types can this twitching motility we'll talk about.
24:18 again tend to be more specialized functions fewer of the. Okay so let's
24:25 at twitching motility. Okay so um the movement relates to the lengthening or
24:38 shortening of the pilots. Okay and lengthening occurs by just adding more units
24:45 pilot protein to make it longer um . Okay Diploma rising, taking units
24:53 makes it shorter and so it just between these two tops. Okay so
25:01 other thing twitching motility is all about . Okay? It happens on a
25:08 . Not like a flagellum were swimming in this matrix. Ok. In
25:13 dimensions, this is movement on along . Okay? Because the pill I
25:19 . And so it attaches to a . Right? And so if we
25:21 here, here is our pilots and can see a diagram that we hear
25:26 well where the modern reform. And we prelim arise to lengthen it.
25:32 , so it will lengthen see here then attached to the surface.
25:39 So if you look where it so it starts here. Alright and
25:44 moves this distance. Okay. And does So by this then Diploma
25:53 So it attaches. Then Diploma rises then lose towards that point of
25:59 Okay. And so uh then it detach and then extend again. So
26:06 kind of like a stop start Right? It'll extend then like
26:18 So it's kind of a jerky herky motion. Which is what I call
26:22 , twitching motility. Okay, so , t is it's on the
26:27 Okay. Not free swimming. And so you see this if you
26:34 maybe lab you did a you look the plate called from an organism called
26:43 . I think I cannot plate. a normal colony looks something like
26:49 right on the plate. But this will do that. But then you
26:53 see like concentric rings around it. so and that's because peter uses a
27:04 . Okay. And sell to begin move okay along the surface and that's
27:13 to this twitching motility. Okay, along the surface. Very big.
27:20 kind of hard to work with Proteus I said it comes from a colony
27:25 early that you have the swarming motion of all runs together. Okay,
27:30 it's really due to this kind of that can do okay on this again
27:34 the surface. Okay. Yeah, , the retraction is cutting off the
27:49 . The extension is the additional Yes, yes, it's going
27:56 There's even variations of this, there's part of something that rolling, humble
28:00 this and in addition to the So there's a lot of weird things
28:05 happen on the surface, so to in their emotion wise. Uh you
28:10 , it's warm, so I think certainly has food has had something to
28:14 with that moving towards more and more . So um any questions with
28:23 Uh let's see. So now to . So um basically just extensions inside
28:29 that contact each other so it can through these little tunnels. Um I'm
28:36 say a relatively new phenomenon in the five years, they've seen these um
28:42 not super well characterized although in some than others Vasilis spoiler we looked at
28:49 is one of these types that can it. Um and so presumably,
28:54 know, lots of things can pass you know, you know materials in
28:57 cytoplasm proteins salute. Um They even EM RNA. So that means that
29:05 know if you pass an M. . N. A. So can
29:08 explain one. So they sell receiving express it. Okay. Uh they've
29:13 seen anybody resistance in some types uh acquired this way. So it's still
29:20 to be fully figured out phenomenon but um interesting. I've never heard of
29:28 when I was studying this stuff so but you know it has a lot
29:33 implications in terms of transfer material and . N. A. And so
29:38 . Okay. Um so last is jell O. Okay so remember this
29:50 emotional for gel but a eukaryotic Um Okay e uh protozoan sperm
30:00 right? It's gonna be kind of undulating mode. Okay. Like a
30:08 almost. Okay. Um that's due the how the tubular, right?
30:14 micro tubules works. The mechanism works like motion. Okay, so bacterial
30:20 rotates. Okay, propeller propeller. , very different. And so the
30:29 of the is much simpler, precarious basically just combining these flagellum proteins
30:37 But um so the H engine so body can can if can stimulate the
30:47 response in the body an engine. the engine first with the jell
30:54 The remember was the Opie Sacha right the in the gram negative right?
30:59 LPS layer. And so again, the Elwood H engine. These things
31:05 developed decades ago as a way to they found out that these structures could
31:12 a new response. Among the gram . Important pathogens are foodborne pathogens like
31:21 , E. Coli which are There is kind of the same
31:25 Um and so it's kind of developed those types and so you know the
31:31 70 colon. The always for there's some they have the H designation or
31:36 designations. It's away. Uh we antibodies to different H and O
31:43 It's a way for us to identify quickly. So if there is an
31:47 of 157 we can probably identify it quickly to the use of these um
31:52 NH antibodies to the uh one H . Okay, so um morphology these
32:00 what these pictures showing you here. you can have different arrangements of the
32:05 . It's gonna be this is what call and don't worry about writing this
32:09 . This is called Polar Polar someone one end. Um this is I
32:16 right and fee trikus I think is name. Um we have several at
32:23 end. Um No this is para trikus means for jell O. Perry
32:30 all around. Okay. And then this this is the one this this
32:38 uh this metric is Cameron, this Anthony trikus. This 11 on both
32:45 . Forget what that one's called? not important. Anti trikus on both
32:52 . Okay, now you can visualize it's on one end or around the
32:57 . They can kind of come together swim in unison secularized in unison.
33:03 empty track is one is a right? That's not very common.
33:06 uh Either one or the other is at a given time. They kind
33:11 alternate between uh not uncommon for the common ones are like, are these
33:17 three? But um structure of the ? Okay, this is a gram
33:26 uh The part is the rotational This facilitates the rotation of the uh
33:34 other parts basil body etcetera. Are anchored in the membrane. Okay,
33:40 grand positives can of course too. , but they're just showing a picture
33:45 a gram negative here. Okay, is obviously energy requiring. So um
33:51 then the motion itself. Okay So being a rotary motion right?
33:58 can deduce that you can move one two ways, either clockwise or counterclockwise
34:03 that's exactly what happened. So the comes down to the proportions of counterclockwise
34:12 clockwise rotations, what's occurring more counterclockwise clockwise, that determines kind of
34:18 Okay, so let's look here. right, so the counter clockwise.
34:25 if you're a type that has multiple this and they're all rotating in the
34:32 way counterclockwise. Um they kind of in unison. Okay. And they
34:39 basically a straight line motion or Okay, the tumbles occur when you
34:47 you have um clockwise counterclockwise straight clockwise, tumbling, basically spinning in
34:59 is kind of what they do. like so and so you also have
35:04 , Okay so the question is what whether you go one way or the
35:10 ? Okay and that's where these receptors in. Okay so you have,
35:16 specifically looking here at chemo attraction, taxes movement based on the presence of
35:23 chemicals, right? That's where the of chemicals that bacteria archaea would be
35:31 in, that would help them move that chemical things that they would
35:36 right nutrients like amino acids, um of different kinds, right? These
35:41 things they can use as nutrients and would actually move for. Okay so
35:48 that's so it's the presence of these of chemo attractants. If of course
35:55 had to respect the form that that influence whether it's more clockwise motion,
36:00 counter clockwise or clockwise. Okay so know in the in the situation where
36:06 is maybe not a lot of chemo around, okay, it'll likely do
36:12 like this okay. Which is basically of random meandering movement, right?
36:18 any purpose to it, so to . Okay so all these little points
36:24 , right, these would be So these will be tumbles and the
36:32 in between of course run here so interspersed with tumbles in between.
36:43 , so if you had a brain might think okay what's going on
36:48 Well it's kind of by by going a tumble it can kind of just
36:54 set it off in one direction once begins to run to expand and as
37:00 goes. So perhaps the logic here let me kind of go and random
37:09 here and there because maybe I'll run a chemo attractive market. Okay?
37:15 so if it does then that can and then maybe increase the proportion of
37:23 um counterclockwise rotation. So going from completely random walk one that bios towards
37:32 it's attracted to. Okay so then become less less meandering like this is
37:40 to a more of a purposeful motion movement we can see going towards something
37:46 ? And this level of attractive right greater and greater and greater as it
37:53 in that direction. Okay So it it's filling up the receptors on its
37:59 are finding more and more attractive and creating more and more counter clockwise rotations
38:06 means more straight runs chemical. Okay so um so of course in a
38:14 like this on the on the right have a lower tumbling frequency you don't
38:19 as much this way that it's more run because it's binding that attractive and
38:27 what influences the having more counterclockwise Okay so um and it's not an
38:36 that these pictures what you see arrived cells rule of thumb is bacteria are
38:46 are more time overwhelming. There are few examples of cock side of motor
38:55 very few very few and far between rod shaped cells that motel types.
39:03 um Any questions about that. Again all influenced by. Is the chemical
39:11 there and that's what influences I'm gonna that's clockwise rotations. Okay that's really
39:18 drives the whole thing. Okay. um That closes out chapter three.
39:26 so let's flip to chapter four. so for um it's about growth.
39:36 not gonna go through these bullet by . But basically in part one we
39:43 um here's what here's what we grow grow here's what they need. Okay
39:54 grow we can take those components and them together in a growth medium.
40:00 then we find out there can be types of growth media and then I
40:06 one. So before we get to point it's okay here's the metabolic
40:12 Here's the nutritional type it is. let's put the components together that will
40:18 it to grow right so we'll go different nutritional types and then here's the
40:22 medium here are the types of growth and then um kind of finish up
40:29 the dynamics of growth. So here's we grow them. Here's how we
40:32 measure growth. Here's how quantitative growth then it becomes here is what it
40:38 like. Here's the profile is what looks like when we inoculate something
40:44 And then you go to a Okay? You're gonna see a particular
40:49 of growth curve. Okay. And has different features to it. You
40:58 the same general shape. So so inflections maybe less or greater. But
41:07 always see a lag a log phase death phase are stationary than death,
41:14 ? You see all four of those it can vary depending on growth
41:19 vitriol type et cetera. Okay. talk about that next lecture but the
41:24 two is actually relatively small really covering things. And that's biofilms and In
41:33 sport. Okay so part one is commodity. Here's what growth is and
41:39 etc. So uh of all the in this course I know most about
41:48 one because I did this for like years in biotech grew cells for commercial
41:52 . So um so I've also some that you don't need to be tested
41:58 . But if you're a biotech major may be familiar with, you will
42:02 encounter these things when you're on the . Okay. Anyway so let's start
42:08 I think a question. No, yet. After this one. So
42:13 why grow microbes? Well there's lots reasons to do that campus here.
42:19 likely um Main purposes are likely let's let's isolate D. N. A
42:26 soulless organism because I want to sequence to you know, see what the
42:32 related to. Maybe I want to growing up to isolate the protein of
42:37 sort that I'm studying um is an or something like that. I wanna
42:43 enzyme activity, these kind of Okay um lab this kind of lab
42:49 growth. We're talking small buying. . And it could very well be
42:55 if you're in a molecular biology lab you're doing you know work in cloning
43:01 and plasmas and you're using maybe an really care so much about the nuts
43:08 bolts and details of how he collides . You just inoculate it, let
43:12 go overnight, come in the next and bam bam. Do your
43:15 Okay. But you may want to more about it. Okay. Not
43:20 much but maybe something else. You're your study, you want to get
43:23 growth curve, how's it grow, they grow. Let's go best
43:26 Okay um if you're doing something industrial right? You have got to know
43:35 it grows from the very beginning from you're on the bench and small volumes
43:40 you take it up to 100,000 Okay? You've got to know all
43:44 ins and outs of how it grows what makes it increasing growth. Okay
43:51 can you know lots of lots of you use and buy these days when
43:55 enzymes and laundry detergent and what these are grown you know in these commercial
44:02 . So anyway, okay if you to study uh effects of antibiotic
44:08 Uh it's in my criminal agent. start with a culture see what
44:14 So growth knowing how to grow things is essential. And so of course
44:22 nature versus laboratory. Right? In lab of growing things pretty much in
44:27 culture, right? That allows us ability to control everything. Um We
44:35 uh and that's what allows us to really high cell densities. Very very
44:41 thick with cells in culture because we control it. And they're not competing
44:45 anybody, right? They're not in competing with thousands and hundreds of thousands
44:51 other micro objects impeding with right growth nature is limiting right? Everybody's grabbing
44:56 the same stuff a lot of nitrogen phosphorus, et cetera. And
45:01 to limit growth you can have sports and there. But Atlanta you control
45:06 the parameters that control growth. And can really get lots I cell densities
45:12 . So it all boils down to right? C. H.
45:16 M. P. S. And course we're talking about it in the
45:19 . You as well. You need . H. O. M.
45:23 . S. So uh let's look this question. All right. I
45:30 this will be an easy one for bacteria increasing the amount of this nutrient
45:37 X. In a growth medium typically not quite but almost a two
45:45 Increase in cell yield. Oh don't attention to this yet, stretch it
45:53 . So which nutrient would this likely ? Hmm. Okay, count down
46:34 And I pause and here we Okay. So of course it's
46:41 Absolutely. It's all about the Alright. Um because as we know
46:51 , this served as a framework making molecules the fake acids, lipids,
47:00 , proteins, right? Have that the core. Right? Then you
47:06 different atoms side groups, et cetera make your various biomolecules types.
47:12 So it all starts with having that . So um that's why we're carbon
47:18 life forms. Right? And so which of these is this isn't a
47:24 question. Which of these is an nutrients. Which of those is
47:34 Yeah, all of them. They're essentially um Now the forms of
47:42 Right? So we add these of to because the soul can't can't make
47:49 elements, right? So we provide in different forms. Okay. For
47:55 sulfur. Okay. Um nitrogen and like ammonium, phosphate or something.
48:05 regardless. So um if a cell make it, you have to provide
48:10 . And that makes it the Okay, so um macro and micro
48:18 usually divide these by quantities I call like grams per liter micro nutrients micro
48:26 or less per liter. Right. it's you know some things are needed
48:31 among essential nutrients because they're they're used larger amounts of carbon essentially is gonna
48:39 oftentimes the most in terms of quantity add, Right, because the amount
48:45 carbon pretty much dictates how much cells gonna get now. Yeah, there
48:51 a hierarchy, you know, carbons in terms of influencing growth, What's
48:56 number 2? Not good, but get a long ways before you get
49:04 limited, you get karma limited pretty quicker than you do. Not
49:08 But there can be really high cell growth of things um that you might
49:15 in industrial scale, you certainly may to a point where you're gonna have
49:19 add in more nitrogen but um in case. Okay, so let's take
49:26 look at some of these things Okay, so we just talked about
49:29 . So remember, of course right, the form of the
49:34 right, It's gonna be C. or it's gonna be something like this
49:39 that depends on what's the what is metabolic type of cell you're dealing
49:44 Right, that determines that. So the other things, I'm sure you
49:49 this stuff, you know what you not not acids, right? Uh
49:58 is in uh take acid, Um as sulfur is in a couple
50:05 metal acids. So um cat So these potassium magnesium, these are
50:11 parts of of enzymes uh iron is uh important elements. Lots of your
50:19 transfer proteins have iron in them. . Among others. And so certainly
50:25 your own bodies. Right. Iron hemoglobin. Right, so anyway the
50:31 are all considered macronutrients. So macronutrients these And so I should say the
50:40 you definitely or off off the chef you add to make your media these
50:49 here like cobalt, copper, I've even seen where w anybody know
50:58 w is right periodic tried. So aren't even very small amounts. And
51:05 you don't even bother adding them as an off the shelf thing into your
51:10 . You can find them as contaminants the water. Micro contaminants in
51:15 So I've I've never had these things I was doing some kind of
51:21 Study to see what how much copper it need. Right. Uh It's
51:25 how long you have to let the grow before it actually runs out of
51:28 . It's insane. But again, water contains the contains these things and
51:35 amounts which is enough, particularly for of these things. So a lot
51:38 these micronutrients you see are parts of or co factor. All right um
51:50 factors. So growth factors. Um you may find that uh the organism
52:01 deficient in a pathway or something to make something. So maybe you have
52:07 add vitamins to help it. Maybe have to add new acids or certain
52:12 um blood and serum are very common pathogens. Um there are factors and
52:20 lots of stuff in blood. And different types of proteins and things.
52:26 so oftentimes you don't bother figuring out it is actually the blood or steer
52:31 enhancing growth or providing growth. You know it works. And so you
52:36 add the whole thing. Right? so anything that's in that category is
52:41 we call it. Growth factors have supply that for these particular types because
52:46 deficient typically. And so deficient So that speaking of that term
52:53 Okay, so that's um those are any division in some kind of
53:00 Right? Very often it's emilio acid . So allen een but you
53:06 just think of it as you see says blank. Oxy trophy. What
53:11 means is whatever is in that you have to add it,
53:18 You have an add it as part the media as a growth factor.
53:25 So that's an awful business deficient. add for the growth. Okay,
53:30 the prototype Total trophy. Excuse So I'm sure you've probably heard of
53:34 type. Um you've been through genetics and dealt with the fruit flies.
53:40 ? You have wild type flies. , mutant types. And so wild
53:45 is typically the the the one that all the features of that species,
53:51 ? There's a wild type e right? Um and then you can
53:56 have variations of that that may be or have different features. Okay,
54:01 so proto trophy is another term for . More prototype was more microbiology
54:08 Um Okay so let's look at this . Alright. And let me start
54:16 saying first read start here. Not . Start here and read down.
54:27 . So you're gonna see different right? There's energy source.
54:35 There's carbon source. Right? And some other descriptors. Right? Electronic
54:44 doesn't use water or C. To reduce CO. Two. So
54:48 the point is read from the top . Okay. And so A through
54:52 . Are your choices? So let's at that one. Which box represents
54:59 Auto trophy. Okay top down from top down. Yeah your choice is
55:37 be a B. C. E. F. G.
55:42 Look at the term chemo autotrophs and . Okay. Where might it
55:58 All right let's count down from Alright, I'll remember that. So
56:09 go back. Let's go the next then we'll kind of do it all
56:12 here. Okay. Next one box a plant or algae. Okay.
57:00 10 seconds. Mhm. Right so consensus here was D. And this
57:19 F. And both of those are . So introduce chemo autotrophs.
57:25 So first cut is chemo trophy. gonna go on this side.
57:30 Autotrophs. Ceo to bang right Okay. Planet allergy. Well you
57:37 it's a foot of water trove. . So we're gonna go this route
57:42 then auto trove. This route. ? And then hopefully remember that
57:49 algae and cyanobacteria use water. And so all right. So um
57:57 this next one is not a clicker . So just somebody throw me an
58:01 on this one. Which box represents aerobic. Hello? Trust you which
58:08 you is you gonna pick this G. In C R. U
58:21 . B. Hey anybody agree with ? I disagree with that. It
58:30 a right You're all A's grenade. . Um So of course we are
58:38 autotrophs. Right? And we do were not autotrophs. We do eat
58:43 complex organic compounds. And we of reduction turn electronics sector. Okay.
58:51 um Oh just if you didn't already . So that was the boxes of
58:56 headed probe. So these are the types, right? So if you
59:04 this then you can kind of go how I have to make my growth
59:07 to satisfy their requirements. Okay. you have to summarize this So you
59:14 you can base this on carbon. ? Which I've tried to hammer in
59:19 heads. Right. So the hetero autotrophs thing defines the carbon source
59:23 02 autotrophs. Something more complex. carbohydrate and fat behavior. Okay.
59:31 . Right? Relying on light energy chemical energy Or are you strictly you
59:37 use light and you rely on chemical of material. Okay? Um electron
59:44 . Right? Let's go organic. . So um the I didn't I
59:52 my prop I had an apple for first class. All I got,
59:55 I see is somebody left behind these off cock drops. Okay. Um
60:04 was a life. I I would a whole lot of nutrients,
60:09 My throats are pretty good. But that's about it. But
60:14 there's likely sugar in here. For . Okay, but what do I
60:19 can you look at this as and ? And get some atomic on
60:38 Oh, what? You have peace ease and ends? What's the E
60:49 source of electrons? Okay, that's it is, ultimately, um
60:56 you know, it's not sexy. . Alright. Think of uh if
61:02 a if you're a carnivore, if more carnivore than vegan, okay.
61:08 think of a baked potato, steak all? You put a baked
61:13 right, butter and sour cream and and maybe like sauce or something on
61:18 steak, right? Oh my you're already getting hungry, Right?
61:24 says give me my electrons. That's how it looks at. Okay,
61:28 that ultimately is what happens, carbon . Okay, so we are fortunate
61:34 that we can um, get this this and this from one thing,
61:46 of the stuff we can get all of those, right? Eat a
61:50 potato, you're gonna get carbon energy . All right, but not the
61:58 . Right? Autotrophs has to have separate, Right? Because it relies
62:04 c. 0. 2. Can't see. Oh too as a Well
62:09 a carbon source. We can't use as a as an energy source or
62:13 source of electrons. Okay. Um there's something can and let's not worry
62:19 those yet. But the point is auto trope has to have a
62:23 And energy and using energy at So that's quite separated. Okay.
62:28 hetero tropes like us we can get lot of Bang for our buck.
62:33 so the terms here, right? terms are also interchangeable. Right?
62:37 autotrophs. Chemo autotrophs synonymous. Chemo a trove. Chemo autotrophs. Same
62:44 . I can I can call you organic trove. There's nothing wrong with
62:48 . That's correct. Alright, I call you ahead of obviously. Right
62:52 in these terms there's a lot of between these terms. These are are
62:57 . Okay. Photo photo photo auto . And the question here about can
63:06 Got it and a foot ahead of feel too. He says no.
63:19 come on you. c. 2. What's the operative term that
63:30 anything can I cannot use. Okay why it's a better trophy.
63:38 If it could what would you call ? So and we'll look at next
63:47 but it can it can use light light to produce energy but it doesn't
63:53 the energy to fix CO two because can't it uses complex organic materials.
63:58 . Okay so um Alright so now got a medium but we know the
64:05 . Let's put together a medium. then when we do that depending on
64:10 we have it we can call it things. Okay so here we've got
64:16 choices defined. Complex selective differential. own. Alright let's see. We
65:25 okay so who answered B. White . We had what What? Yeah
65:42 this is a complex meeting because of appearance of of Pepitone and beef
65:51 Okay. If we were only to and the constituents above here and nothing
66:00 that would be defined Okay because we take a calculator a periodic chart we
66:08 know all the amounts of each element here. Okay that's the essence of
66:18 defined medium. You know every single that's in there, every atom that's
66:22 there. And how much? Right when you by adding something like these
66:29 nutrients we call it, okay these we know that they have this.
66:40 I was thinking of the which is come from cows. It's me what's
66:48 me, carbohydrates, fats, lipids etcetera. Right so it's gonna
66:54 that stuff. Okay but we just know the exact quantities of everything.
66:59 . Hence complex medium. Okay so so here's an example of some more
67:09 . Okay um and so just to these terms. So you know we're
67:16 together the things we talked about H. O. M.
67:19 S. Right macronutrients. Micronutrients make medium. Okay it can be solid
67:23 can be liquid and even semi Generally solid liquid or choice is usually
67:32 complex or rich media. Right? rich is another term we use for
67:37 . Um So these things like beef casing is milk protein. Right?
67:44 can have sort so it can be soy protein. Um We've got things
67:48 East extract if you want to give a boost of B vitamins and B
67:53 used in like clauses and restoration um factors of course. And so these
68:01 providing preform. Alright so if you're beef extract you're basically providing amino acids
68:11 many kind of preformed nutrients. Okay nutrients if you're a lab. Right
68:17 use this all the time. That's a complex medium. Right?
68:23 it will supply the needs of you many it's what they call a general
68:29 profile media support the growth of every of bacteria. Okay. Nothing.
68:35 one medium supplies the needs of ending every of every bacteria. Okay For
68:42 . But this will supply the needs many head across like us.
68:46 Nonetheless the defined medium or synthetic or medium used interchangeably. Okay again you
68:55 everything that's in there. Okay. it um it requires the bacteria growing
69:03 it to synthesize their own materials. so here's an example of a defined
69:10 . Okay and you can see all of course glucose is C. Six
69:14 . 12 06. And so you see all the constituents in here.
69:19 the atoms of everything and the amount you can see that if you're gonna
69:24 an amino acid you're gonna have to that yourself using these building blocks.
69:30 if you have something on a rich you don't have many of those amino
69:34 supplied to. You need to do . So if you had to guess
69:38 the bacteria to grow faster on a medium or a defined complex and you
69:45 a lot of stuff made for you have to make it yourself. Remember
69:48 you make stuff, takes energy, time, right? It's just being
69:53 to you on a silver platter. gobble it up and go right,
69:57 rich medium will always be one that faster growth. Okay and in all
70:04 I mean something like this where you a couple of complex nutrients. Yes
70:09 can supply generally. It's not something will allow you to get the highest
70:15 . Okay, you get faster growth maybe not necessarily the super high numbers
70:19 . So that's why when you make complex medium you don't just you don't
70:24 rely on these alone. Excuse me these alone. You have something like
70:30 this back here like this where you you have kind of a lot of
70:36 ingredients um and then add a couple different um complex nutrients, right?
70:43 what you can do is you can using that, right? You can
70:50 the amount of glucose you at and will keep yourselves going and going and
70:54 right, you add a little bit this to supply them some preformed nutrients
71:00 help boost them but the combination of two together really can increase your
71:07 Okay so um uh fastidious. I mentioned that real quick. So fastidious
71:16 um is okay just in general if if somebody you know is fastidious um
71:27 the person you got a restaurant with they said they were salad chicken salad
71:33 say is your salad iceberg or Is your chicken is farm raised or
71:41 is it have you have read Do you have in other words are
71:45 annoying. We have lots of requirements what they keep them happy.
71:51 You probably know people like this. you're one of those people.
71:55 I am sometimes. So that's that's fastidious. Okay. Very exact,
72:02 demanding. Okay and that's what they . Okay. And you can tell
72:08 away if you're dealing with a fastidious jump ahead because they have a medium
72:18 this laundry list of ingredients. All , you have to make that media
72:29 for this. It's about all day . Okay so that's something very
72:35 It's a lot of requirements for lots growth factors etcetera. Okay, very
72:40 . Okay. That's where fastidious bacteria compared to something that can grow on
72:49 . Right. That's not that's that's effort at all. Right. Easy
72:53 do that. If you have to 50,000 different ingredients that's not fun.
72:59 your fastidious one requires that. Okay any questions? Let's go and we're
73:08 . We'll see you next
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