Mutation
When an error occurs in making a copy of DNA, we call it a mutation.
Because if an error is made during protein synthesis, the result is at worst one bad protein. If an error is made during DNA replication, that error will persist for the entire lifespan of that cell and be inherited by every daughter cell it produces. Should the error prove deleterious, the effects can be catastrophic for the cell or the organism. For example, if an error occurs in a protein coding segment of DNA, it is possible that every protein that locus generates will now be defective.
Matthew Meselson and Franklin Stahl show how new DNA is made by copying the old.
A dummy error refers to the error made in an optical level that is used in construction and surveying.
the errors made during the replication can be transmitted to the next generation of cells and will subsequently be a part of the genetic information inherited by these cells. but the error made during translation lead to the creation of a single abnormal molecule of protein that will not be harmful knowing that millions of normal protein molecules are translated at each moment of the cell life.
the errors made during the replication can be transmitted to the next generation of cells and will subsequently be a part of the genetic information inherited by these cells. but the error made during translation lead to the creation of a single abnormal molecule of protein that will not be harmful knowing that millions of normal protein molecules are translated at each moment of the cell life.
Mutation
When an error occurs in making a copy of DNA, we call it a mutation.
A mistake made during copying of genetic information is called a
It is called B. The english B is called H. The origin of this supposedly was a copying error (handwritten) which made an h out of a b.
a mistake made during an expirement is an error.
Yes, your percent error can be over 100%. This means that somewhere during your experiment you made a big error.
Because if an error is made during protein synthesis, the result is at worst one bad protein. If an error is made during DNA replication, that error will persist for the entire lifespan of that cell and be inherited by every daughter cell it produces. Should the error prove deleterious, the effects can be catastrophic for the cell or the organism. For example, if an error occurs in a protein coding segment of DNA, it is possible that every protein that locus generates will now be defective.
Because if an error is made during protein synthesis, the result is at worst one bad protein. If an error is made during DNA replication, that error will persist for the entire lifespan of that cell and be inherited by every daughter cell it produces. Should the error prove deleterious, the effects can be catastrophic for the cell or the organism. For example, if an error occurs in a protein coding segment of DNA, it is possible that every protein that locus generates will now be defective.
Because if an error is made during protein synthesis, the result is at worst one bad protein. If an error is made during DNA replication, that error will persist for the entire lifespan of that cell and be inherited by every daughter cell it produces. Should the error prove deleterious, the effects can be catastrophic for the cell or the organism. For example, if an error occurs in a protein coding segment of DNA, it is possible that every protein that locus generates will now be defective.
Matthew Meselson and Franklin Stahl show how new DNA is made by copying the old.
Yes, you could possibly have errors in your data about the molarity of a vinegar sample during a titration experiment if there was an error made during weighing.
The protein ultimately produced functions abnormally.