Congrats on med school. I recommend just watching my vids if you need a fast refresher. Otherwise medical school biochemistry is fairly straightforward
Sir l have a question don't mind please but due to that l am so confused Q: when the ppp oxidised and remove the two "H" so we are called in NADP so that bind with that and make the NADPH2. That's ok but the confessions is there ppp occur in cytoplasm and in cytoplasm also present the NAD & FAD. So when the oxidation is occur of ppp that time why the NAD &FAD bind with that "H" of ppp likewise in glycolysis why where not bind the NADP with the "H " of glycolysis please give my reply must l m weating for u sir
erg, I have one issue. When you used the Glucose 6-Phosphate Dehydrogenase enzyme to produce (from what is now known I guess) 6-Phosphogluconolactone, then that gets hydrolyzed by 6-Phosphogluconolactone Hydrolase to make your 6-Phosphogluconate. All of that gives you ONE NADPH. Then, with your 6-Phosphogluconate, you use the enzyme 6-Phosphogluconate Dehydrogenase to form Ribulose 5-Phosphate, and you make your 2nd NADPH there as well. These are the nonreversible reactions of the Pentose Phosphate Pathway. I understand this is just a quick review, but since you mentioned the NADPH's that were produced, I figured I'd put my 2 cents in. Let me know what you think. -Rob
Have my test tomorrow. You just saved my life! Thank you!!!
Lovely !
Keep up with making such informative videos ! Please
thank you
Nice work! Your videos really help! 👍👍👍
Thanks so much for this. Greatly simplified. Great teacher.
You good man, excellent teaching. Much appreciation!
too nice of you to provide such anice tutorial,thank you.
love it ! great explanation
Really good video, thanks!
God Bless You! #BetterThanMyMedProfessors
Love the videos THANKS!
Well done!
Thank you for your help!
awesome
Good stuff !
Nice!
this vedio helped me alot.
thanq
good video, thanks for sharing!
-MS1
nicely explained
dude youre awesome thanks
God bless!
ur vid is so helpfull
Thank you!!
veryyy good! :)
Thanks for the great video. Could you please explain the non oxidative part of the pathway? I got the oxidative portion that you showed here.
Great video I died when u said bite cells :D
thank you!!
I finally understand this
Is there a specific coenzyme for G-6-PD since i cant seem to find one anywhere. Thanks
nice!
Dude, you're saving my butt in my online biochem pre-req for med school. Any suggestions during first year when this comes back in full swing?
Congrats on med school. I recommend just watching my vids if you need a fast refresher. Otherwise medical school biochemistry is fairly straightforward
+Duncan Grossman Did you get accepted? This stuff is on the MCAT. How did you do on that test?
can you please provide a tutorial video on fatty acid synthesis
Did you discuss the nonoxidative reactions? Or did I possibly skip over it
Sir l have a question don't mind please but due to that l am so confused
Q: when the ppp oxidised and remove the two "H" so we are called in NADP so that bind with that and make the NADPH2. That's ok but the confessions is there ppp occur in cytoplasm and in cytoplasm also present the NAD & FAD. So when the oxidation is occur of ppp that time why the NAD &FAD bind with that "H" of ppp likewise in glycolysis why where not bind the NADP with the "H " of glycolysis please give my reply must l m weating for u sir
your fucking awesomeeeeeeeeeeee
full screen and set it to HD OR FULL HD and thank me later :)
Technically the 2nd NADPH is yielded when we go from 6-p-gluconate to the ribulose. You have it one step early (at least that's what my book shows)
erg, I have one issue. When you used the Glucose 6-Phosphate Dehydrogenase enzyme to produce (from what is now known I guess) 6-Phosphogluconolactone, then that gets hydrolyzed by 6-Phosphogluconolactone Hydrolase to make your 6-Phosphogluconate. All of that gives you ONE NADPH. Then, with your 6-Phosphogluconate, you use the enzyme 6-Phosphogluconate Dehydrogenase to form Ribulose 5-Phosphate, and you make your 2nd NADPH there as well. These are the nonreversible reactions of the Pentose Phosphate Pathway. I understand this is just a quick review, but since you mentioned the NADPH's that were produced, I figured I'd put my 2 cents in.
Let me know what you think.
-Rob
qul
zoom in next time pls :)
These aren't 'basics'. Basics would explain what each compound is...