this is really helpful. we usually have like 40 to 45 students in class and i feel like i don't get much in class. however, this lecture is so helpful and i will always go through your lecture. thank you so much for all your videos.
Absolutely wonderful - Can I please ask what application you are using that allows you to use a pointer as well as write on the slides that you have used?
+hammadshams I use ScreenFlow to record, PowerPoint to make the slide show, and a Wacom Bamboo tablet to write. But instead of the PPT pen function, I use a separate free app called OmniDazzle because I think it works better and it keeps the pointer while you write. Thanks! I am glad you liked the video!
Thank you so much ma'am.... Ur teachings are awesome & helps me understand a lot better now 😊 Hope u continue with such great lessons on Biology and especially Botany 😁 🌸Lots of love & respect from - India 🇮🇳
Thank you for your comment and cited resources, but my channel and videos are made for high school students taking biology. My videos are not made for college-level biology/biochemistry majors. The content I teach to my students is at the appropriate level for them. Fermentation is anaerobic, which is the main idea they need to know.
Your lectures are very detailed and interesting. I hope you don't mind that I posted a link of this video in our class tutorial to help my other class mates understand cell physiology better. Thanks you for helping more students!!!!
Mariana--great little review for a retired physician to enjoy--BTW where were you when I needed this a hundred years ago in medical school!! yea yea--I know you weren't even though of-----thanks really enjoyed it.
plain and simple...the way I like it. I would hear you again and again and again and not get bored. Thank you!
Thanks
You are the best teacher ever met.👍 You have plenty of knowledge 👍👍👍
You should be a medschool entrance exam tutor for biology, your videos rock!
Thank you for taking the time to make these videos!
Very excellently explained, Good Work,Keep posting more such easy techniques to learn and nice presention.. :)
This is powerful madam keep up with the good work 👏👏
this is such a great video! Ive been studying this for a while now, and this just made everything make sense!
this is really helpful. we usually have like 40 to 45 students in class and i feel like i don't get much in class. however, this lecture is so helpful and i will always go through your lecture. thank you so much for all your videos.
Your notes are so detailed and organized :D
Very helpful!!!! Please keep making more videos.
wow! I find your work exemplary cool and well informative
Thanks, I can understand everything the way you explain and break it down👍
Thank you so much for your lecture video it is much easier to study from those videos.
Concise, refreshing, Thank you Marlana
very very nice explanation.........:)
Absolutely wonderful - Can I please ask what application you are using that allows you to use a pointer as well as write on the slides that you have used?
+hammadshams
I use ScreenFlow to record, PowerPoint to make the slide show, and a Wacom Bamboo tablet to write. But instead of the PPT pen function, I use a separate free app called OmniDazzle because I think it works better and it keeps the pointer while you write. Thanks! I am glad you liked the video!
did i get this video?
Great explanation👍 I've learned a lot👏👏
Thank you so much for your lecture ma’am
You saved my life❤️
i dont like reading and you just explained everything perfectly! thank youu!
thank mrs malarna you realy help student thank u ones again
You're a fantastic teacher
Thank you so much ma'am....
Ur teachings are awesome & helps me understand a lot better now 😊
Hope u continue with such great lessons on Biology and especially Botany 😁
🌸Lots of love & respect from - India 🇮🇳
thankyouuu….. Mam.... huge respect. this video helped me alot
that was a hell of an explanation thank u !!!
21:40 Fermentation is not anaerobic respiration, and anaerobic respiration is not fermentation: they are two very different processes.
Respiration - both aerobic and anaerobic - involves a "respiratory chain" - what we usually refer to as an electron transport chain or electron transport system: it uses energy released by the flow of electrons from one carrier to another in a membrane in order to pump hydrogen ions unidirectionally across the membrane to form an electrochemical proton gradient. In fact, the protein complexes in the electron transport system are called “respiratory complexes”. The protons then flow back across the membrane through ATP synthase, which allows it to form ATP from ADP + Pi.
The key difference between aerobic respiration and anaerobic respiration is that in aerobic respiration the electron transport system's terminal electron acceptor is oxygen, whereas in anaerobic respiration the terminal electron acceptor is something other than oxygen, such as nitrate, nitrite, fumarate, DMSO, etc.
On the other hand, fermentation does not use a respiratory chain, does not generate an electrochemical proton gradient, and does not use ATP synthase to make ATP, so it is not a form of respiration. Fermentation and anaerobic respiration are two entirely different processes.
You don't have to take my word for it ...
"Anaerobic respiration and fermentation are two distinct forms of oxygen-independent energy metabolism. In anaerobic (and also aerobic) respiration, organisms channel electrons from an electron donor to a final electron acceptor through an electron transport chain, which converts the chemical energy into an electrochemical gradient. The energy stored in this gradient is then used in a second reaction by ATP synthase to generate ATP. In fermentation, ATP is directly synthesized from phosphorylated intermediates of metabolized compounds without the involvement of an electron transport chain. As there is no external electron acceptor in fermentation, cells have to produce their own electron acceptor to maintain their redox balance."
( en.wikipedia.org/wiki/Anaerobic_respiration retrieved 10/15/2011)
“Anaerobic Respiration: A Unique Process
Fermentation and aerobic respiration occur in prokaryotes and eukaryotes. Additionally, some prokaryotes have a variation of aerobic respiration called anaerobic respiration, by which they synthesize ATP. This process, which is unique to prokaryotes, is similar to aerobic respiration; the major exception is that the terminal electron acceptor in the electron transport chain is a chemical compound other than molecular oxygen. A wide variety of substances can serve as alternate electron acceptors to oxygen (Table 6.5) [which listed nitrate, nitrite, sulfate, and fumarate].”
(Microbiology: 3rd Edition, Daniel Lim, Kendall/Hunt Publishing Company, 2002, p197)
“Anaerobic Respiration
The last few sections have talked extensively about aerobic respiration. What defines it as aerobic is its use of oxygen as the terminal electron accepter. Since this is very similar to the type of respiration that humans use, our bias is obvious. Now let me fill you in on a little secret. Microbes are capable of using all sorts of other terminal electron accepters besides oxygen. Below we talk about a few examples of anaerobic respiration. The one thing that they all have in common is the use of an electron transport system in a membrane and the synthesis of ATP via ATP synthase.”
(©2000 Timothy Paustian, University of Wisconsin-Madison
lecturer.ukdw.ac.id/dhira/Metabolism/RespAnaer.html
retrieved 10/15/2011)
“Anaerobic Respiration
Under anoxic conditions, electron acceptors other than oxygen support respiration in certain prokaryotes. This is called anaerobic respiration. … As in aerobic respiration, anaerobic respirations require electron transport, generate a proton motive force, and employ ATP [synthase] to make ATP (Sections 3.10 - 3.12).”
(Brock Biology of Microorganisms: Fourteenth Edition, Michael T. Madigan, et al., Pearson Education, Inc., 2015, p95, 96)
“Cellular respiration, or simply respiration, is defined as an ATP-generating process in which molecules are oxidized and the final electron acceptor is (almost always) an inorganic molecules. An essential feature of respiration is the operation of an electron transport chain.
There are two types of respiration … In aerobic respiration, the final electron acceptor is O2; in anaerobic respiration, the final electron acceptor is an inorganic molecule other than O2 or, rarely, an organic molecule.”
(Microbiology: An Introduction. 9th Edition. Gerard Tortora, Berdell Funke, and Christine Case. Pearson/Benjamin Cummings. 2007. p129)
“ANAEROBIC RESPIRATION
In anaerobic respiration, the final electron acceptor is an inorganic substance other than oxygen (O2). Some bacteria, such as Pseudomonas and Bacillus, can use a nitrate ion (NO3-) as a final electron acceptor; the nitrate ion is reduced to a nitrite ion (NO2-), nitrous oxide (N2O), or nitrogen gas (N2). Other bacteria, such as Desulfovibrio (de-sul-fo-vib-re-o), use sulfate (SO42-) as the final electron acceptor to form hydrogen sulfide (H2S). Still other bacteria use carbonate (CO32-) to form methane (CH4). Anaerobic respiration by bacteria using nitrate and sulfate as final electron acceptors is essential for the nitrogen and sulfur cycles that occur in nature. The amount of ATP generated in anaerobic respiration varies with the organism and the pathway. Because only part of the Krebs cycle operates under anaerobic conditions, and since not all the carriers in the electron transport chain participate in anaerobic respiration, the ATP yield is never as high as in aerobic respiration.”
(Microbiology: An Introduction. 9th Edition. Gerard Tortora, Berdell Funke, and Christine Case. Pearson/Benjamin Cummings. 2007. p134)
Thank you for your comment and cited resources, but my channel and videos are made for high school students taking biology. My videos are not made for college-level biology/biochemistry majors. The content I teach to my students is at the appropriate level for them. Fermentation is anaerobic, which is the main idea they need to know.
Very helpful i Thank you so Much 😍
Your lectures are very detailed and interesting. I hope you don't mind that I posted a link of this video in our class tutorial to help my other class mates understand cell physiology better. Thanks you for helping more students!!!!
+Adeyinka Adeyemi
Not at all! I make the videos to help my students but am glad others can benefit from them too! Thanks!
I have spent months researching into anatomy and discovered a great resource at Sebs Study Crammer (check it out on google)
She’s good an excellent teacher !
Mariana--great little review for a retired physician to enjoy--BTW where were you when I needed this a hundred years ago in medical school!! yea yea--I know you weren't even though of-----thanks really enjoyed it.
Thank you so much you explained better than my teacher
Thank you so much. I actually understand this now : )
very helpful. thank you!
really helpful, loved it.
thank you
I'm not sure what your secret is but your explanations are very easy to understand.
awesome
very good
amazing!!.... thanks so much
wow. i love this
Thanks, A lot. it's really helpful
Thank you so much.Marlana.
Thanks! explained very well
Very helpful thank you
Great.
THANK YOU!!!!!
hello mam kindly explain the cell junctions
Love it
Thanks you very much
🥰
Tysm😊
Genetics is the most difficult in the NS
thanks
Great video ! I will subscribe.
EXO mentioned
🥰
thank you