I'm an 11th grader Indian student and your content is extremely relevant to our studies here, thank you, Joao ❤Also it's so sweet that you reply to each and every comment 😊 you're a great teacher, seriously you deserve millions of views❤
bruh this channel is too underrated. But i care about the information much more than the views on the channel. I had to specifically type Joao's lab in the search tab to find this video.
thank you so much, genuinely helped a lot!! just to clarify, what did you exactly mean by the precise activation of the enzymes within the lysosome? do the enzymes basically become effective to work as soon as theyre contained within the acidic environment inside the lysosome?
You are very welcome! 😊 When I mentioned the "precise activation of enzymes within the lysosome," I was referring to how lysosomal enzymes, called acid hydrolases, become fully active only within the acidic environment of the lysosome. These enzymes are designed to function optimally at a low pH, which is much more acidic than the rest of the cell. In the cytoplasm, where the pH is neutral, these enzymes are mostly inactive, preventing them from accidentally digesting important cellular components. Once they are inside the lysosome, the acidic environment activates them, allowing them to break down waste materials, cellular debris, and other substances safely and efficiently. This pH dependency acts as a safety mechanism, ensuring that these powerful enzymes only function where they are needed, preventing potential damage to the rest of the cell. I hope this helps clarify the point I made in the video.
Hi Joel, While it is possible to create micelle-like structures within micelles in a laboratory setting, this is not a typical arrangement found in biological cells. Cells use more complex and stable lipid structures for compartmentalization and function. I hope this answers your question! 😊
We are currently working on it. Videos take a bit of time to produce, and we are a very small team, we will do our best to publish it in the next weeks. So stay tuned! 😊
I'm an 11th grader Indian student and your content is extremely relevant to our studies here, thank you, Joao ❤Also it's so sweet that you reply to each and every comment 😊 you're a great teacher, seriously you deserve millions of views❤
Happy to hear that! Thank you so much for the kind words ❤
Same here 🙋🏻♀️
0:24 So grateful that I found this amazing, in short, concept based introduction to cell organelles!
Glad it was helpful! 😊
Loved it!! Do u have a video on the Nervous system? Lots of love btw!
That's a great idea! Thank you! ❤
لا يمكنني تصفح القناة كاملة لمعرفة اذا يوجود شرح "لعلم الوراثة" ام لا
لكن ارجوا أن لم يكن هناك أن تبدأ بالشرح به
وشكرًا جزيلًا 💖.
Will keep that in mind! Thank you! ❤
beautiful video so helpful!!
Amazing...thank you so much for this detailed explanation
You are very welcome! ❤
The best teacher ever thanks a bunch ❤❤
this was extremely helpful !
so glad to hear! 🙌
Subscribed!❤
Welcome to the channel! ❤
Thank God I found your channel!Thank you so much🩷
You are very welcome! ❤
I am in 9 class and from Pakistan I really like your techniques to clear our concept good work joao's keep it up!
Thank you so much! ❤
bruh this channel is too underrated. But i care about the information much more than the views on the channel. I had to specifically type Joao's lab in the search tab to find this video.
So glad you found it! Thank you for the kind words!
Amazing lecture! The explanation was crystal clear. Thank you so much for sharing your knowledge!"
Love from Pakistan 💞
شكرًا لك شرحك جميل جدًا
Thank you so much! ❤
thank you
You're welcome!
How you do this montage ? Wich application you use?
This is so cute 🥺🥺
Thank you! ❤
thanks
You're welcome!
thank you so much, genuinely helped a lot!! just to clarify, what did you exactly mean by the precise activation of the enzymes within the lysosome? do the enzymes basically become effective to work as soon as theyre contained within the acidic environment inside the lysosome?
You are very welcome! 😊 When I mentioned the "precise activation of enzymes within the lysosome," I was referring to how lysosomal enzymes, called acid hydrolases, become fully active only within the acidic environment of the lysosome. These enzymes are designed to function optimally at a low pH, which is much more acidic than the rest of the cell.
In the cytoplasm, where the pH is neutral, these enzymes are mostly inactive, preventing them from accidentally digesting important cellular components. Once they are inside the lysosome, the acidic environment activates them, allowing them to break down waste materials, cellular debris, and other substances safely and efficiently.
This pH dependency acts as a safety mechanism, ensuring that these powerful enzymes only function where they are needed, preventing potential damage to the rest of the cell.
I hope this helps clarify the point I made in the video.
@@JoaosLab thank you so so much for the clarification!!
Can you please do centrioles ?
That's a great suggestion! Thank you!🙌
yesss ANOTHER ORGANELLE!
the crack was strangly hilarious 3:46
Covering them all! 😊🙌
Hey Joao, is it possible to have Micelles within Micelles? In other words, are there Micelles in Micelles in my cells?
Hi Joel, While it is possible to create micelle-like structures within micelles in a laboratory setting, this is not a typical arrangement found in biological cells. Cells use more complex and stable lipid structures for compartmentalization and function. I hope this answers your question! 😊
Awesome 👍☺️... Sir kindly make a video on peroxysomes!!
Great idea! We are actually working on that topic. So stay tuned! 😊
Zambia☝️
❤️
Yeah im doing that everything im writing down ❤❤❤btw the stuff are so cutee and nice
Perfect! That’s the best way. So glad you enjoyed our products at Crafty Science. We have so much fun making those! 🥰
1st 😁
❤
🎉🎉🎉🎉🎉
Sir I am not getting mitochondria video
We are currently working on it. Videos take a bit of time to produce, and we are a very small team, we will do our best to publish it in the next weeks. So stay tuned! 😊
new topics is funji
sport me