Table of Contents
Why is replication such an important process?
Replication is an essential process because, whenever a cell divides, the two new daughter cells must contain the same genetic information, or DNA, as the parent cell. Once the DNA in a cell is replicated, the cell can divide into two cells, each of which has an identical copy of the original DNA.
Why is DNA replication important to the growth and development of a multi organism?
Explanation: Once the DNA in a cell is replicated, it can divide. After that, the daughter cells have the instructions to become more specialized and carry out their function.
What do you think the importance of DNA replication is?
DNA replication ensures that each new cell receives its own copy of the DNA. It is very important that a cells machinery matches the bases correctly so that the sequence remains unchanged / no mutations occur or the cell may not function properly.
What is replication and why is it important?
In statistics, replication is repetition of an experiment or observation in the same or similar conditions. Replication is important because it adds information about the reliability of the conclusions or estimates to be drawn from the data.
Why is replication important in psychology?
When studies are replicated and achieve the same or similar results as the original study, it gives greater validity to the findings. If a researcher can replicate a study’s results, it means that it is more likely that those results can be generalized to the larger population.
Why is DNA replication important to the growth and development of a multi cellular organism quizlet?
Why is DNA replication important to the growth and development of a multi-cellular organism? it passes the genetic information. when DNA replicates itself, produces a new copy of an organism genetic information.
Why is DNA replication important quizlet?
why is it important that exact copies of DNA are produced during replication? producing exact copies ensures that when a cell divides, the offspring cells will receive the same genetic information as the parent cell. cancer can result when errors in the replication of DNA in genes that control how a cell divides.
What is replication in an experiment and why is it important?
Why is replication of a study so important quizlet?
replication is important because the results of a study can vary considerably depending on experimental conditions and the research method used.
Why is the exact replication of DNA important to cells quizlet?
Why is it important that exact copies of DNA are produced during replication? Producing exact copies of DNA ensures that when a cell divides, the offspring will receive the same genetic information as the parent cell. They will always match up with each other in the DNA strands.
Why is understanding the structure of DNA and how it replicated important?
Because, by comprehending how DNA is formed help us know how it is replicated, translated and transcribed. and by knowing how DNA replicates, we can know how it is formed. both of this concepts go hand in hand, allowing us to further identify errors in transcription, or how coding for proteins work.
Why do scientists replicate experiments?
If other scientists had not tried to replicate the research, the truth might never have come out. Getting the same result when an experiment is repeated is called replication. If research results can be replicated, it means they are more likely to be correct.
What is the importance of replication in research?
The replication is so important in science. The replication reduces variability in experimental results. Stop of variability increases their significance and the confidence level. Finally, the researcher can draw conclusions about an experimental.
What is the replication of an experiment?
Replication (statistics) In engineering, science, and statistics, replication is the repetition of an experimental condition so that the variability associated with the phenomenon can be estimated. ASTM, in standard E1847, defines replication as “the repetition of the set of all the treatment combinations to be compared in an experiment.