It depends on the length of your four fragments. If the 4 fragments are same in length, you can not distinguis the band on the gel as all the (4x500) molecules run at the same length. If they are different in size let say 100,200,300,400 you can see four distinct bands. The intensity of the bands may be stronger at 400 and drops down to the lower fragments because of the higher molecular mass.
Run them through a gel electrophoresis machine against a standard marker that would tell you the length of the fragments, thus large pieces from smaller pieces.
An un-cut DNA sample would appear as one thick, bright band at the base of the gel (it would be very long - and therefore not travel far).
More gene fragments would be produced.
If you mean in fossils or decomposed bodies, it would be best found in the teeth.
Higher, I suppose.
Run them through a gel electrophoresis machine against a standard marker that would tell you the length of the fragments, thus large pieces from smaller pieces.
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Breccia is a clastic sedimentary rock composed of various sized visible pieces of other rock, cemented together by the processes of lithification.The pieces of rock that are visible are angular fragments, meaning they have somewhat jagged edges. This means that the fragments in the breccia did not travel far before they were deposited. If they had traveled longer and further they would have become rounded, in which case the resulting sedimentary rock would have been called conglomerate.
all the idol fragments would be by in the building by the bridge
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An un-cut DNA sample would appear as one thick, bright band at the base of the gel (it would be very long - and therefore not travel far).
If the fragments had their origin in outer space, the fragments to be found on Earth would be called "meteorites".
Three.To see why, cut a piece of string in two places! Of course, strictly you would not be able to see only three fragments. You would amplify the DNA before carrying out electrophoresis. That way, you would get perhaps 200 million copies of each fragment, and they would show up. Also, you would only be able to distinguish the fragments if they were different lengths. Electrophoresis separates pieces of DNA by length.
How do you suppose we are going to do this.I suppose that would be easy to do.
The little fragments might spin or tumble, but each and every one would take off away from the explosion in a straight line at a constant speed. That includes all the little parts and pieces of anybody who happened to be inside at the time.
Both strands are labeled, but Okazaki's trick was to use T4 bacteriophages that had a mutated ung gene- these viruses didn't produce ligase. Without ligase, the fragments kept accumulating.For example: a 10 second pulse would show lots of fragments in normal and mutant T4 phages (including lagging and short leading strands), whereas a 60 second pulse would show mostly long DNA pieces in normal phages but lots and lots of fragments as well as some longer pieces of DNA in the mutant phages.
A sedimentary rock that is sometimes formed by deposits of shell fragments is LIMESTONE!!