You are the reason I received an A in Biochemistry, and now you will help me in Advanced Molecular Bio. I cannot thank you enough, you are amazing. Thank you immensely, signed a PhD student who had forgotten her previous undergrad biochem/molecular knowledge.
YOU "understand" the materials that you are presenting while at the same time spreading that understanding to your audiences. Your knowledge is so contagious. I adore so so so much! Thank you.
Feedback: Would of been nice to include some of the types of intermediate filament proteins e.g. desmin and keratin found in muscle and epithelia, respectively. Also, I think the definition of cytoplasmic streaming is a little off. Other than that man, a very clear and well thought out explanation. Keep up the great work! :-)
Microtubule design is likely intended for much more than strength. Hollow shapes are more efficient in providing bending strength and torsion resistance. Bending strength is really what provides greater compression & carrying capacity as a column in direct compression. Long columns don’t fail in compression. They fail in bending. And, when considering eukaryotic flagella, it makes more sense to view the microtubule as a superior design for bending as opposed to compression strength. Peace. (Edit: I’m a structural engineer.)
Thank you so much, AK Lectures. Your way of describing things are very much engaging. And trust me it helped me a lot during my masters semesters. Keep up the good work. :)
Does the 23nm width of the microtubules refer to the width of the tubes or the fiber that coils to make up the tube? If the later, how wide are the tubes? Does the width vary?
I cannot thank you enough.. God bless you and your family
I will mention ur name in my speech when I graduate
You are the reason I received an A in Biochemistry, and now you will help me in Advanced Molecular Bio. I cannot thank you enough, you are amazing. Thank you immensely, signed a PhD student who had forgotten her previous undergrad biochem/molecular knowledge.
YOU "understand" the materials that you are presenting while at the same time spreading that understanding to your audiences. Your knowledge is so contagious. I adore so so so much! Thank you.
a million thanks for helping me through med school!
Watched you as a pre-med, still watching during M1 of med school lol. You must be the most popular guy in your study group!
:-) Good luck in med school, work hard!
You must be almost graduating by now!
Thank you so much, this was very helpful! Explained it much better than my lecturer :)
Anson Vo you're welcome :)
You're helping me a lot through vet school. Thanks a lot! :)
I literally love you, I got an A on my exam because of you
My med school savior... thanks a million
Feedback: Would of been nice to include some of the types of intermediate filament proteins e.g. desmin and keratin found in muscle and epithelia, respectively. Also, I think the definition of cytoplasmic streaming is a little off. Other than that man, a very clear and well thought out explanation. Keep up the great work! :-)
if only university lecturers were like you :)
Wow sir...... great teacher............ thanks alot for such a great lessons u taught.............. thnku.. from India
You're literally saving lives man!! THANK YOUU
Finally someone who explains it normally rather than giving textbook definitions
You explain everything so well!
welcome back to, I only need AK lectures to resume a whole 100 ppt presentation in 11 mins and just 1 board!
it seams you discover biochemistry for the first time and keep it up!!!!
you have the best bio videos period.
I have no words, your lectures are just awesome. Thank you!
This is incredibly useful and comprehensive. I must have a look at your other lectures. Thank you!
This video cleared all my doubts ,, love from Kashmir!❤️
You videos are a blessing. You helped me get into medical school. Thank you so much
am a fan of prof.Andrey👍
Thank you for these amazing lectures ! 💙
well explained thank you
keep up the gud work
Really helpful 😊 great job 👍...love from India ❤️🇮🇳
Microtubule design is likely intended for much more than strength. Hollow shapes are more efficient in providing bending strength and torsion resistance. Bending strength is really what provides greater compression & carrying capacity as a column in direct compression. Long columns don’t fail in compression. They fail in bending.
And, when considering eukaryotic flagella, it makes more sense to view the microtubule as a superior design for bending as opposed to compression strength.
Peace.
(Edit: I’m a structural engineer.)
thanks ... the word thanks wouldn't be enough either
God bless you .. Great man
Thank You for these lectures.
this man does not miss
Such an amazing explanation, Thankssss :) !
Sereen Hany thank you! :)
Thank you so much, AK Lectures. Your way of describing things are very much engaging. And trust me it helped me a lot during my masters semesters. Keep up the good work. :)
THANK YOU SO MUCH!!!! Your videos are so incredibly helpful!! You are a life saver!!!!
My best lecturer ...thanks ..many thanks
thank you very much, this is great lecture all your lectures helped me.
muna ismail you're welcome! glad to hear that :)
i love all your lectures - thank you so much for your time
U are a blessing. I would get a F without all these videos.
Thank you. it is an excellent lecture.
wachaza nkunzi..the video was very helpful, thank you
Thnku for ur video sir...it helps me alot
Thank you! Donation link is now working :-)
thank you so much you made us (me and my friend) understand the topics very well!
Just well explained....
you are an amazing lecturer
Dude, thank you so much. Med school is so damn hard.
you are incredible. i love your explanations, they really resonate with me
Brief and informative. Thank you.
this is the best lecture on cytoskeleton...thank u so much sir...
Natalie Chavula thank you Natalie!
very good explanation, thank you so much
Thank you for your very good explanation! your the man
You are doing god's work thank you thank you
***** Thanks David! :)
Simply the best, andrey
wow. I always enjoy your lecture
Incredible, thank you!
Thanks for helping, you are de real MVP!
This is an exellent explanation, keep it up.
Gordana Sendic Thanks! Will do :)
Thank You Thank You Thank You! I think with your videos I'll pass my exams!!
Recovery Crew You're welcome, best of luck on your exam!
Thanks a lot for ur amazing lecture
incredibly explanation thank you very much sir
Thank you sir. This helped a lot.
God 😇 bless you all😘😇
Thank you so much!
This video is so good thank you
Lovely
Fantastic.
u ar simply the best man..
Does Microfilament do any form of intracellular transport of stuff/movement like the microtubules?
Thanks to help me to better understand how it works! =)
Vive le ak lectures
microtubules be thicc
7:42 *OUR* flagella and cilia 💀💀
Awesome!
best on youtube
Thanks
your awesome! thank you!
u are great sir :-) thank you so much
Don't eukaryotic cells have 2 types of MTOC: centrosome and basal body?
thank you so much you saved my life ♥♥ :)
Haha 5:13 "structaaaare" XD
Thank u king
Thank you
Amazing video - just check your pronunciation of myosin.
THANK YOUUUU!!!!!!!!
Thanks, really helpfull!👍☺️
you're welcome! :)
Thank you, very useful. ;)
Luis Campos You're welcome :)
Does the 23nm width of the microtubules refer to the width of the tubes or the fiber that coils to make up the tube? If the later, how wide are the tubes? Does the width vary?
Thank you :)
Akshay Biradar You're welcome Akshay!
lol go ak lectures!
Great video, but your voice is too fast and maintain high pitch thoughout the whole video
thats fine.
Correction: actin is a globular protein, not linear
🗽
😊
wowo
Why is he so hot?