Oh god I finally understand! I don’t know how you did it in less than 7 minutes when several books and a whole bunch of demonstrations and videos couldn’t. Thank you so much
Thank you! I really like the analogies which made it very easy to understand and remember. I like the "zip locks", "Santa claudin occludes tight chimneys", velcrow, channel, and anchor
Thank you so so much for this!!! It's so well and simply explained from the important context of compartmentalization up to the cell junctions itself! I love the mnemonic "santa claudin occludes tight chimneys" it gets funnier the more i think about it lol 😆 Really enjoyed watching this, thank you again!!! 🫀
This is amazing.. Very clear and concise explanations with amazing visualizations. Not many videos can cover material like this! Did you do all the visualizations yourself??
Hi! I am interested in using some of your videos in my research instruments. Is that okay with you? May I ask for your email so I can formally ask permission? Thank you!
You mentioned in the video that there would be chaos if there was no lysosome membrane. It actually wouldn't. The lysosome enzymes work at just the right Ph value. The pH of cytoplasm is higher than that optimal value so they would have been inactivated.
The only source in the entire internet that was able to teach me what tight and gap junctions are. Thank you so much!
Oh god I finally understand! I don’t know how you did it in less than 7 minutes when several books and a whole bunch of demonstrations and videos couldn’t. Thank you so much
I'm so so glad to have helped!!
Sameee
thank you for keeping it simple and in the same informative
Thank you! I really like the analogies which made it very easy to understand and remember. I like the "zip locks", "Santa claudin occludes tight chimneys", velcrow, channel, and anchor
Thank you so so much for this!!! It's so well and simply explained from the important context of compartmentalization up to the cell junctions itself! I love the mnemonic "santa claudin occludes tight chimneys" it gets funnier the more i think about it lol 😆 Really enjoyed watching this, thank you again!!! 🫀
This video has turned out to be the most helpful resource on this topic. 💯🔝🔝
Aww! :-D I'm so glad!!!
This video is really helpful for me to clear my concept that i can't understand for so many times.
I love the videos you make, thank you!
AWESOME INFORMATIVE KEEP IT SIMPLE! Great Job! I'm watching again!
Awesome! Thank you so much to make this topic so easy to understand!
Great video 📹...
This....is....GOLD!!!!!
Thank You this made so much sense
Amazing video! Really helped explain some questions I still had !!
It took my teacher 45 minutes to explain what you told me in 7 minutes.
best video ive seen on this topic
Super helpful, the examples are the best! Santa Claudin, I will never forget that now
Amazing . saved me a headache in less than 10 mins
Amazing video the zip lock example was helpful
Love and request for many more videos from India
Can you make videos on biomolecules
Time saving and very effective video..... Thnx a lot... 👌👌👌💖💖💖Plss make more videos
Many thanks for this Great work
santa claudin occuldes tight chimneys loll cracked me up at a coffee shop lol
Okay I had the wrong idea about all of these until I saw where and it all clicked lol
Fantastic video!
This is amazing.. Very clear and concise explanations with amazing visualizations. Not many videos can cover material like this! Did you do all the visualizations yourself??
Sure did :-) Animated everything! So glad it was helpful!
Thank you so much you helped me a lot 😍😍❤❤
IMPRESSIVE!!
Thank u it helps me so much 💓
Fantastic
Great description!
straight fire
Thank u so much for helping :-)
thank you very much
Thank you!
Nice
Hi! I am interested in using some of your videos in my research instruments. Is that okay with you? May I ask for your email so I can formally ask permission? Thank you!
Thanks🤩🤩
It is not 6 connexions it is 2 connexions and 6 connexins
SKIP TO 3:04
You mentioned in the video that there would be chaos if there was no lysosome membrane. It actually wouldn't. The lysosome enzymes work at just the right Ph value. The pH of cytoplasm is higher than that optimal value so they would have been inactivated.
that's if we are talking about 1 lysosome but if all of them are without membranes it would be sufficient amount for the enzymes to work
@@brajesh388 that makes sense. Is there a paper that you are refering to? I want to know more.
THANKK UUUU
-thankssssss
STEM PA
thank you !