Jump to content

pegasus10

Members
  • Posts

    21
  • Joined

  • Last visited

Posts posted by pegasus10

  1. Hello, I was reading a scientific article which reported that oral administration of a mutated form of apolipoprotein A1 (ApoA-I) to mice fed with a high cholesterol diet significantly lowers the rate of formation of atherosclerotic plaques. But I can't understand how this is possible. I mean, if mice are given the protein by mouth, it is digested into single amino acids, isn't it? So, how can it reduce plaque formation in the circulatory system if it is broken down by the digestive system?

    Thanks in advance!

  2. ATP-ADP translocase mediates the exchange of ATP and ADP and this favored by the proton gradient across the inner mitochondrial membrane. But is this transport process an active process? I mean, are ATP and ADP transported against their concentration gradient or not? I don't understand if the function of the proton gradient is just to further favor an already-favorable process (passive transport) or to make possible an unfavorable process (active transport).

    Thanks in advance!

  3. Hello, talking about CO2 transport, we know that the T form of hemoglobin binds more CO2 as carbamate than does the R form, so when the concentration of CO2 is high, the T state is favored and hemoglobin releases its bound O2. This mechanism is pretty clear to me, but I can't understand a statement made by my textbook when explaining this concept: "Although the difference in CO2 binding between the T and R states of hemoglobin accounts for only 5% of the total blood CO2, it is responsible for around  50% the CO2 transported by the blood. This is because only 10% of the total blood CO2 is lost through the lungs in each circulatory cycle".

    Can someone explain this sentence in different words?

    Thanks in advance!

  4. Hello, is muscle glycogen phosphorylase sensitive to glucose? I mean, is glucose an allosteric effector for the muscle isoform of glycogen phosphorylase? My answer would be no, but going through Voet's Biochemistry book I found a diagram in which glucose is depicted as a negative allosteric effector for glycogen phosphorylase in general, without specifying muscle isoform / liver isoform.

    Thanks in advance! 

  5. Hello, in the sentence "insulin stimulates the activity of a phosphoprotein phosphatase that catalyzes removal of the phosphoryl group from the bifunctional protein PFK-2/FBPase-2", the word "stimulates" means that insulin enhances transcription and translation of the phosphoprotein phosphatase or that the signalling pathway activated by insulin stimulates a phosphoprotein phosphatase which is already present in the cytoplasm?

    Thanks in advance!

  6. Hello, is it formally correct to state that anaerobic glycolysis is the exact same thing as fermentation? For example, if I write "In human cells anaerobic glycolysis, starting from one molecule of glucose, gives two molecules of lactate", can I substitute "anaerobic glycolysis" with "lactic acid fermentation"?

    Thanks in advance!

  7. Hello, I read about an autosomal recessive disease called "essential fructosuria", in which the enzyme fructokinase is absent and dietary fructose is phosphorylated by hexokinase to give fructose 6-phosphate. But why is this compound excreted instead of entering the glycolytic pathway? I mean, the third step of glycolysis is the conversion of fructose 6-phosphate (deriving from glucose) into fructose 1,6-bisphosphate, so why can't fructose 6-phosphate deriving from fructose be processed in the same way?

  8. Hello, I'd like to determine the standard free energy for aerobic glycolysis (from glucose to pyruvate). My question is: in order to do it, can I sum the standard free energy values of the 10 reactions involved in the pathway, multiplying by two the standard free energies for the reactions of the harvesting phase? Is it a good method? Am I doing something wrong? 

    Thanks in advance. 

  9. Hello, I read that bacteria that live in our gut are able to synthetize some vitamins. My question is: if we are in poor nutritional status, are they still able to do it? For example, I was thinking about niacin (vitamin B3): in order to produce it, we have to start from tryptophan, so if we don't eat enough tryptophan-containing foods, we are not able to synthetize this vitamin. But are our gut bacteria still capable of doing it?

    Thanks in advance.

  10. Hello, could someone explain me where the energy for the movement of the enzyme DNA polymerase along the DNA comes from? I was thinking about the fact that nucleotides are added as deoxyribonucleosides triphosphates, so this energy could come from the elimination of the pyrophosphate group, but I'm not sure because energy is also required to form the phosphodiester bond, so I don't know if we have enough to power both bond formation and enzyme movement. 

    Thanks in advance! 

  11. Hello, I read that the concentration of proteins in the blood is 14 meq/L (milli equivalents per liter), but what does an equivalent of protein correspond to? I know that, for exemple, an equivalent of a strong acid is the quantity of that acid that supplies one mole of hydrogen ions, but what about proteins? I'm posting this in the organic chemistry section because we are talking about biomolecules. I hope it's the right section.

    Thanks in advance! 

  12. Hello, I was wondering if there is a difference between the value of deltaG° and deltaG°' (with the apex; referring to pH=7 and [Mg2+]=1mM) for a given reaction. For example, the reaction ATP + H2O = ADP + Pi has a deltaG°' of -30.5 kJ/mol (Lehninger), but what is the value of deltaG° for this reaction? Thanks in advance!

  13. Hello, I am studying the allosteric modulation of enzymatic activity and, in the section that deals with cooperativity, my book mentions Hill's equation: I had already learnt about this equation when studying the cooperative binding of oxygen to haemoglobin, but now I'm finding some difficulties relating this equation to enzymes. So, my question is: what is the final form of Hill's equation for enzymes and what are the steps (at least the first ones) we have to follow to get the equation?

    Thanks in advance

×
×
  • Create New...

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.