Triphosphate

Question: what are guanosine triphosphate effects on protein synthesis? knowing that guanosine triphosphate affects protein synthesis' stages of: initiation, elongation, translocation and termination but what are the main features of each? and whats the genetic connections? How would guanosine triphosphate be used like an antibiotic (tool) in inhibiting protein synthesis mechanisms? thankyou for listening

Answer: See the links below. Since GTP is needed as an energy source for translation, something which prevented GTP from being used by the various translation factors would inhibit protein synthesis and kill the cell.

Question: What is deoxyribonucleoside triphosphate and what does it consist of?

Answer: Its glycosamine ... consisting of a base linked to a deoxyribose sugar esterified with triphosphate on its glycose moiety. ( Glucosamine (C6H13NO5) is an amino sugar and a prominent precursor in the biochemical synthesis of glycosylated proteins and lipids.)

Question: What are the products you get when you mix tartaric acid and sodium triphosphate?

Answer: bronicdate

Question: what is the difference between ATP and nucleoside triphosphate?

Answer: Nucleoside triphosphate (NTP) is a nucleotide with three phosphates. Natural nucleoside triphosphates include adenosine triphosphate (ATP), guanosine triphosphate (GTP), cytidine triphosphate (CTP), thymidine triphosphate (TTP) and uridine triphosphate (UTP). So ATP is a kind of nucleoside triphosphate.

Question: can a adenosine triphosphate (ATP) be obsorbed by the blood stream an brain when taken orally as a pill? im wanting to boost my ATP levels. can a ATP pill be properly obsorbed into the blood stream and brain? and what supplements and treatments can stimulate your ATP levels And is ATP a hormone or a enzyme?

Answer: It is not possible to measure your ATP levels and it is not possible to boost them with a pill. ATP occurs inside the cells, inside the mitochondria. It is not something that anyone pays attention to at the clinical level. If someone has told you otherwise, they are misinformed, or trying to sell you a (useless) product.

Question: What happens to a nucleoside triphosphate when it is added to a DNA strand? im think its codes for dna and traits but i need more detail

Answer: DNA is a chain of 4 different kinds of nucleoside triphosphates (ATCG). In a sense it does code for DNA but more like, it IS the DNA itself. There are several other types of NTP in the body as well, such as ATP adenosine triphosphate which is cellular energy. i'm not sure what you are asking but i think you might be talking about DNA replication? DNA is a double sided chain consisting of the 4 NTPs A,T,C and G. Each NTP can only bind to one other NTP in this chain forming a base pair. A binds to T and C binds to G. DNA is able to maintain this double sided chain by having a two rows of NTPs that bind to each other. Example. A A A T T T T C C G G T T T A A A A G G C C This can be a short chain of 11 Base pairs. In order to replicate this DNA in cell replication. Each chain is split of by enzymes to form two seperate strands. Each strand will act as a template on which the a new opposing strand of DNA will be formed. DNA polymerase (an enzyme too) then binds to each strand and begins to add the relevant NTP to its sister NTP. T to A and G to C. This step in the replication process is called extension, where using the original strand as a template, it extends an exactly opposite strand that will bind to the original. After this is done enzymes will check the DNA to make sure there are no mistakes (to prevent mutation). There will be two exactly identical double stranded DNA chains left after replication. Sometimes something will go wrong, and they won't be identical, that is where you get your genetical defects, cancers and various conditions.

Question: Can adenosine triphosphate be synthesized from amino acids?

Answer: Three amino acids are needed to make the adenine base in ATP. We use for purine nucleotides the entire glycine molecule (atoms 4, 5,7), the amino nitrogen of aspartate (atom 1), amide nitrogen of glutamine (atoms 3, 9), components of the folate-one-carbon pool(atoms 2, 8), carbon dioxide, ribose 5-P from glucose

Question: why does removing a phosphate group from the triphosphate tail in a molecule of ATP release energy?

Answer: I'm not the best at this but I'll give it a shot. ATP has "potential" energy. Imagine pumping water into a tank on the top of a tower. It takes a lot of energy to get all the water up there, but once it's there it has potential energy. This energy can be released by opening the tank and letting the water flow/fall down. That would release the water's energy but would waste it. If instead you had the water flow down a channel where there was a water wheel, you could make use of the water's energy to turn the wheel and generate electricity. In much the same way, it takes energy to put that third phosphate group on an ADP (on top of a tower). It creates a high energy bond, so the 3rd phosphate has "a lot" of potential energy. When the bond is severed by hydrolysis, that energy is released (like the water falling down). The cell couples that release of energy to metabolic or other things it needs to do (like turning a water wheel...).

Question: What is insulin an example of...is it an example of a protein, lipid, carbohydrate, or adenosine triphosphate? Insulin is made of lots of amino acid molecules bonded together.

Answer: Insulin is a protein. Proteins are basically just a bunch of amino acids bound together. Lipids are generally a couple string of carbons attached to a "head group", which is usually polar. Carbohydrates are a bunch of sugars bound together. Adenosine triphosphate is nucleotide, one of the building blocks for DNA/RNA. It is also used in a lot of other functions in the cell. Also, it is not an enzyme. It's a hormone.

Question: The product of this process is energy in the form of ATP (Adenosine Triphosphate), by substrate-level phosphor acually that wasent the question, this is. What is substrate level phosphorylation? where is most of the ATP produced and how?

Answer: Glycolysis-Net 2 ATP Krebs Cycle &-NET 2 ATP Electron Transport Chain-NET 34ATP It's all steps of CELLULAR RESPIRATION

Question: Why is ATP called Adenosine Triphosphate? I know that ATP stands for adenosine triphosphate, but what does adenosine triphosphate mean?

Answer: Like many chemicals and compounds, the name tells us what its "ingredients" are. In this case... adenosine (composed of an adenine ring and a ribose sugar) and three phosphate groups (triphosphate) There are many other examples that we use every day, like hydrogen peroxide, propane, and Maalox. All of these names give us a hint as to what they contain.

Question: Which part of adenosine triphosphate molecule is released when it is hydrolyzed to provide energy for bio reac? -phosphate -phosphate -phosphate adenine group ribose sugar

Answer: the ATP molecule has three phosphate groups alpha P beta P gamma P alpha phosphate is nearest to ribose sugar and gamma phosphate is the farthese(terminal phosphate) Gamma phosphate is released during ATP hydrolysis

Question: what is the role of adenosine triphosphate? is it just a molecule that is used in cellular respiration?

Answer: adenosine triphosphate or ATP is the energy currency of the metabolism world, the energy come from the phosphate phosphate bonds due to resonance. know that is is not the only currency, there is GTP, etc. ATP is not only used in Cellular respiration but nearly all Cellular Work.

Question: how many adenosine triphosphate is produced please help? Glycolysis,NADH,FADH2 and Alanine gives how many ATPs? we read total ATP produced in glycolysis is 32 when NADH and FADH2 respectively give 2.5 and 1.5 but in some text total ATP produced glycolysis is 38-2 or 36 when NADH and FADH2 give 3 and 2 ATP respectively which is correct?

Answer: From what I've read glycolosis gives 2 ATPs for every glucose molecule. I think that the other cycles provide the rest. I know that the one with oxygen provides the most. I'm not sure what that is called though, maybe oxidative phosphorilisation? (excuse the spelling)

Question: Which reaction of the citric acid cycle produces a nucleoside triphosphate? Which reaction of the citric acid cycle produces a nucleoside triphosphate? citrate to isocitrate succinyl-CoA to succinate succinate to fumarate fumarate to malate malate to oxaloacetate

Answer: succinyl-CoA to succinate. GTP is produced which is converted to ATP.

Question: Adenosine triphosphate is most commonly used source of WHAT in a cell? THANKS! :D

Answer: It is a source of energy. Adenosine triphosphate is ATP. It is the energy currency of our cells.