DNA actually has 3 forms. A-DNA, B-DNA, and Z-DNA. B-DNA is the kind you are most familiar with and present in most organisms. A-DNA can be found in dehydrated samples while Z-DNA is rare and mostly synthesized in the lab.
In this case the second DNA molecule is identicalor nearly identical to the first DNA molecule.
It's identical or nearly identical to the original DNA molecule
A single enzyme molecule can act on about 1000 substrate molecules per second.
The carbon dioxide and water react to form about 600,000 molecules of carbonic acid per second
produces molecules that carry energy to the second part of celular respiration.
Cellular respiration is a process that releases chemical energy from sugars and other carbon based molecules to make ATP when oxygen is present. It takes place in the mitochondria. :) -Biology Textbook
The first of the two ATP molecules used in glycolysis is in the phosphorylation of free glucose by hexokinase in a cell. It does this to add a negative charge in order to keep the glucose molecules inside the cell regardless of the outside concentrations.The second ATP molecule is consumed in the third step of glycolysis, in the phosphorylation of fructose-6-phosphate to fructose-1,6-biphosphate by the enzyme phosphofructokinase. This is generally considered the most important rate-determining step of glycolysis and is essentially irreversible under metabolic conditions.
The second DNA is an exact duplicate of the first. If not the second will not work correctly. We call this a mutation.
There are quite a few things true about replicated DNA. The most important detail is that replicated DNA is exactly the same as the original copy. When DNA is replicated and the double helix is split, the new bases link with the old ones in the exact same sequence.
A single enzyme molecule can act on about 1000 substrate molecules per second.
in forming molecules of NADPH
Enzymes reaction cycle is so fast that a single enzyme molecule typically act on about thousand substrate molecules per second.
The carbon dioxide and water react to form about 600,000 molecules of carbonic acid per second
The carbon dioxide and water react to form about 600,000 molecules of carbonic acid per second
it goes to the other formed water molecule, there are 2 oxygen atoms in 2 molecules of water
When you heat molecule you give them energy in form of motion.Lets take CO2 molecule. When you heat it its velocity increases. Particles start flying faster. Second thing that happens is that bonds O-C-O starts vibrate more rapidly and stronger (at some point thous vibrations can torn apart molecule)So two things happen to molecule when you heat them:You increase theyr velocityYou increase vibration of bondsthe molecules start moving faster.
produces molecules that carry energy to the second part of celular respiration.
The first messenger is nothing but referred to the molecule that brings information upto the cell surface. Once this molecule transfers signal to cell, it is taken over by the well known second messenger to take it further to nucleus through various other signaling molecules down the cascade.
No. It is neither organic nor a molecule. Silicon dioxide consists only of silicon and oxygen. By definition, an organic compound must contain carbon. Second, silicon dioxide forms a covalent network rather than molecules.