100% sure.. look at the chemical structure. too many oxygen and nitrogen atoms to be lipid-soluble. Also if functions in the TCA cycle which takes place in a hydrofile environment - so not possible. The only lipid-soluble electron-carrier is ubiquinone, which youll learn about in chapter 19 (Electron transfer reactions in mitochondria).
@MrGigolai are you sure??? because that was one of the points in this video that i took down in my notebook... i don't want to look like a fool on my exam... HELP!
@babyg412 100% sure.. look at the chemical structure. too many oxygen and nitrogen atoms to be lipid-soluble. Also if functions in the TCA cycle which takes place in a hydrofile environment - so not possible. The only lipid-soluble electron-carrier is ubiquinone, which youll learn about in chapter 19 (Electron transfer reactions in mitochondria).
@babyg412 100% sure.. look at the chemical structure. too many oxygen and nitrogen atoms to be lipid-soluble. Also if functions in the TCA cycle which takes place in a hydrofile environment - so not possible. The only lipid-soluble electron-carrier is ubiquinone, which youll learn about in chapter 19 (Electron transfer reactions in mitochondria).
100% sure.. look at the chemical structure. too many oxygen and nitrogen atoms to be lipid-soluble. Also if functions in the TCA cycle which takes place in a hydrofile environment - so not possible. The only lipid-soluble electron-carrier is ubiquinone, which youll learn about in chapter 19 (Electron transfer reactions in mitochondria).
MrGigolai 2 months ago
FADH2 is not lipid-soluble
MrGigolai 4 months ago
@MrGigolai are you sure??? because that was one of the points in this video that i took down in my notebook... i don't want to look like a fool on my exam... HELP!
babyg412 2 months ago
This has been flagged as spam show
@babyg412 100% sure.. look at the chemical structure. too many oxygen and nitrogen atoms to be lipid-soluble. Also if functions in the TCA cycle which takes place in a hydrofile environment - so not possible. The only lipid-soluble electron-carrier is ubiquinone, which youll learn about in chapter 19 (Electron transfer reactions in mitochondria).
MrGigolai 2 months ago
This has been flagged as spam show
@babyg412 100% sure.. look at the chemical structure. too many oxygen and nitrogen atoms to be lipid-soluble. Also if functions in the TCA cycle which takes place in a hydrofile environment - so not possible. The only lipid-soluble electron-carrier is ubiquinone, which youll learn about in chapter 19 (Electron transfer reactions in mitochondria).
MrGigolai 2 months ago
Thank you so much for making these videos! saved my life!!
dmsfid7205 10 months ago
Lol shout out to my bio Hans Krebs!
You my dawg!
jokerflame436 10 months ago
liked the mnemonic
albertplace 1 year ago
I guess at the beginning of the video you meant Pyruvate DEcarboxylase to catalyze fermentation right?
Coz otherwise I'm totally lost
SuperLLL 1 year ago
@SuperLLL Yeah, you are right. Thanks for catching that.
aaronsbiochemvideos 1 year ago
finally understood PDH !
sayuriaccount 1 year ago