Excellent explanation! I learned more in six minutes than I learned in class! Thank you for helping me finally understand Cyclin, MPF, CDK and checkpoints! Your help is greatly appreciated
Thank you so much for this explanation of Cell Cycle. Our Campbell Biology book did not present this topic as well as you did. Really helps me understand the phases of cell cycle and better under the damages/ repair mechanism for cells of hereditary disease and cancer cell. Thank for taking the time to prepare and share with us...
@chookie026 Most people don't defer to TH-cam for detailed biochemistry lectures. For a 6 minute summation video, it does a good job. There's neither time nor need for tons of enzyme names for the basic understanding of cell cycle regulation
Nice video. I would have preferred more detail on checkpoint proteins, than a brief soiree into DNA repair, so I was going to ask if you have a video that details the checkpoint proteins. I'm sure you know, but for those that don't, there are short cascades triggered at the checkpoints, if necessary. p53 and p21 are just 2 of those proteins. But I like your video. Thanks!
Awesome supplement. Although there are a few details left out, this does amazingly for helping understand the main idea behind this mechanism. If you want more details people, do more "YouTubing"/"Googling" or grab a book.
The cells of an organism must be able to accurately duplicate and pass on its genetic material to its daughter cells in order to exhibit proper functioning and survival. However, the genomic stability of a cell is constantly being pressured by extrinsic DNA damaging agents as well as intrinsic stresses caused by regular metabolic processes. Eukaryotic cells have developed a complex system of regulatory mechanisms called cell cycle checkpoints to ensure that certain cellular processes are completed before downstream cell cycle events can occur by delaying or arresting cell cycle progression. The many proteins and processes involved in the checkpoint response often overlap and function interdependently with the mechanisms of DNA damage repair, and apoptosis. The cell cycle checkpoints regulate entry of cells into S-phase, progression through S-phase, and entry into and exit out of mitosis in response to DNA damage. Due to the importance of cell cycle checkpoints in maintaining genetic stability, defects in this system can contribute to diseases such as cancer. -Creative BioMart
Excellent explanation! I learned more in six minutes than I learned in class! Thank you for helping me finally understand Cyclin, MPF, CDK and checkpoints! Your help is greatly appreciated
same here man , so I skipped my class directly not to waste time
Thank you so much for this explanation of Cell Cycle. Our Campbell Biology book did not present this topic as well as you did. Really helps me understand the phases of cell cycle and better under the damages/ repair mechanism for cells of hereditary disease and cancer cell. Thank for taking the time to prepare and share with us...
These videos make me realize that I 'm not the only one having to learn all this now..
Great work!
@chookie026 Most people don't defer to TH-cam for detailed biochemistry lectures. For a 6 minute summation video, it does a good job. There's neither time nor need for tons of enzyme names for the basic understanding of cell cycle regulation
I like this video. It was very thorough in explaining the major points of cell cycle regulation. Thank you.
Thank-you. This was a great supplement to our text and lecture.
Great video that helps to visualize the major concepts. P27 is also another growth factor.
Nice video. I would have preferred more detail on checkpoint proteins, than a brief soiree into DNA repair, so I was going to ask if you have a video that details the checkpoint proteins. I'm sure you know, but for those that don't, there are short cascades triggered at the checkpoints, if necessary. p53 and p21 are just 2 of those proteins. But I like your video. Thanks!
our professor put this video in his slides, in the university of Hong Kong :)
hi
thank you!it helped me understand cell cycle's regulation.
Very nice, very nice, though I agree with biotech; it would be nice if you would go into the cascades involved with the cell cycle.
Awesome supplement. Although there are a few details left out, this does amazingly for helping understand the main idea behind this mechanism. If you want more details people, do more "YouTubing"/"Googling" or grab a book.
TH-cam decided that I needed to see this.
I have no idea what any of this is.
The cells of an organism must be able to accurately duplicate and pass on its genetic material to its daughter cells in order to exhibit proper functioning and survival. However, the genomic stability of a cell is constantly being pressured by extrinsic DNA damaging agents as well as intrinsic stresses caused by regular metabolic processes. Eukaryotic cells have developed a complex system of regulatory mechanisms called cell cycle checkpoints to ensure that certain cellular processes are completed before downstream cell cycle events can occur by delaying or arresting cell cycle progression. The many proteins and processes involved in the checkpoint response often overlap and function interdependently with the mechanisms of DNA damage repair, and apoptosis. The cell cycle checkpoints regulate entry of cells into S-phase, progression through S-phase, and entry into and exit out of mitosis in response to DNA damage. Due to the importance of cell cycle checkpoints in maintaining genetic stability, defects in this system can contribute to diseases such as cancer.
-Creative BioMart
Great explanation.
Nice video
That was really helpful! thank you so much
thanks. very simple and informative!
interesting video and very informative
nice work ... thank u
good information
I thought that MPF stood for "mitosis-promoting factors". That's what my bio book says.
Que pesar esta en inglés y yo halo español
This is the shit.
Anyone else here from Greene's bio?
Are you talking into a potato?!
NotInMyShop lmao
Obama was here