We believe you have the power to write your story. ✏️
Whether you’re in high school, university, or just want to learn something new, EKG science wants to be part of your story.
Be a sweet neuron, and subscribe for weekly videos!
Remember, subtract complexity & slow down. 💙
Пікірлер
This video summed up an entire chapter in my pharm book. Thank you! It's a great review for my reading and helps me comprehend better.
well done!
please cross check where you explained the two ways an insurmountable antagonism can be formed. i think you interchange "antagonist" for agonist. you said the higher the affinity of the agonist instead of the higher affinity of the antagonist. please i need a feedback i'm a student and you are fantastic + remarkable and then excellent.
Timestamp for when I said that so I can check?
you are FANTASTIC!!!!!♥. P;EASE DON'T STOP
This is one of the best videos on lipid catabolism. I just love it... suffered a while before chancing upon this. Well-arranged from lipolysis to FA activation through to transport into mitochondrial matrix for B-oxidation.
Glad you found the channel! Thank you
clear and well-explained. Thanks. 😊
Glad it was helpful!
Amazing video thank you!
Thank u EKG science ♥
thank you so much! you explained so much better and simpler than my textbook. this was exactly the pathway a exam-training question was wanting me to explain but my book went into waaay to many details for me to easily gain an overview. your video really helped create that overview!
Amazing to hear!! Thank you for the comment 😊
Nice presentation, I have question about the degradation of glycogen using phosphoric acid. could you please explain if phosphoric acid can degrade glycogen.
You don’t know how much you just helped me. God bless you.
Appreciate you!
Wow, really well explained. Thanks
Can someone please explain what's the use of UTP in the reaction??? 🙏🏼
Hi EKG science, could you consider doing a video on Positive Allosteric modulators (allosteric modulation in general) that goes as in depth as your your video on traditional agonists. I'd love to hear about concepts like cooperativity and affinity and efficacy from the stand point of drugs like these. Benzodiazepine's I believe are an example of a drug like this. I appreciate the videos, great work as usual.
Oh great !!! Been waiting on this 🤗🤗🤗🤗🤗🤗🤗🤗
Tnk u mam
You have covered a huge amount of information in just 14 minutes, this is incredible. Thank you so much for this wonderful work.
Your classes are fantastic. You should carry on with more lectures
Appreciate you!!
Thanks alot. I've been watching your series on Pharmacokinetics. It's very well explained and clear. Keep up the great work.
very helpful
Glad it helped!
5:35 Isn't branching supposed to increase the number of non-reducing ends? Because glycogen only has one reducing end
Pliz keep doing more lectures. You an excellent tutor.
❤❤❤ thank you easy to understand
Happy to help 💙
very helpful lecture, thank you!
Glad it was helpful!
Really good video, thanks a lot. Greetings from Spain
You are a gold and helped me so much!!!! Please keep doing these!!!
Appreciate you! Happy to hear it’s helped you 🙌🏽
I really seek this channel for my every biochemistry sections
Great to hear it’s helped you!
Me too......
Been using your videos on cell biology to study for my course and its saved me, thank you so much!!!
That’s awesome!! Happy to help 🙌🏽
How induction and inhibition affect drug dosing? (Prodrug or convectional drug)❤ Thank you so much
It can cause significant drug interactions; therefore, therapeutic drug monitoring may be necessary to ensure optimal dosing and avoid any adverse effects or treatment failure.
@@EKGScience thank you , I hope elimination will be soon, before my exam 🥰🌹❤
I bave questin- Which phase of metabolism is just before the elimination?
Once a drug enters the body, the process of elimination begins (hepatic, biliary, and urinary). Elimination involves both metabolism and excretion. When considering the sequence of events leading up to the removal of the drug from the body, phase 2 metabolism usually occurs before then. It involves conjugation reactions that make the drug or phase 1 metabolites more suitable for excretion. However, if the metabolites from phase 1 are sufficiently polar, they can be excreted by the kidneys. Many phase 1 metabolites are still too lipophilic so phase 2 occurs. I hope that helps!
I hope you get lots more views and subscribers! Your content is top notch 💎
Appreciate you! Glad you found the channel 🥹
Thank you so much for this
Perfect explanation, thanks for the knowledge share.
Glad it was helpful!
Thank you so much. Excellent content.
❤❤
Hi Can I ask for a copy of your presentation?
You're so good at explaining and thank you for starting from the complete basics before covering it in a perfect amount of detail for uni lvl 4 ❤
I’m glad you found it helpful 💙
Fantastic explanation and overview of PK :) now I just need metabolism and excretion please :)
Tha k this was really helpful !
At 4.47 she says acyl glycerol lipase but on the screen it shows agtl. On other videos people call it adipose tissue lipase. Which is correct ?
Adipose triglyceride lipase (ATGL)
I dont get why your videos have so little views, youre so good at explaining and deserve more views and subscribers 😍
Appreciate you 🥹 Glad you found the channel!!
Okay I just subscribed. I hate that I found your channel late.
You are an amazing teacher, speaker and woman. Much appreciated!!!
Appreciate you! Glad you found the channel 🙌🏽
A very comprehensive lecture from such a young lecturer, thanks for impacting us with your knowledge
Appreciate you 💙
Pretty and smart ❤
This is amazing
It would seem that raising CO2, thus lowering pH would also aid in the inhibitory affects of IF1.
Excellent Video! Just one question: F0 of ATP Synthase is made up of 12 subunits, while F1 has 6 parts but only 3 moving. It takes 4 protons to make 1 ATP, based on the mechanics of the enzyme. If Complex 1 makes 4 protons from 1 NADH, how do we get 2.5, when conventional wisdom would assume just 1 per molecule of NADH?
At 1.09 she says the acetyl coa can enter the ca cycle or turn into ketones? But what determines what happens?
You are saving my life... so happy to find your channel.