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Whose rule does base pairing prove?
Base pairing proves Chargaff's rule, which states that in DNA, the amount of adenine equals the amount of thymine, and the amount of cytosine equals the amount of guanine.
What rule is used to join the free nucleotides to the exposed bases of the DNA?
The rule used to join free nucleotides to the exposed bases of DNA is base pairing. Adenine pairs with thymine, and guanine pairs with cytosine through hydrogen bonding. This complementary base pairing ensures the accurate replication of DNA during cell division.
How are DNA bases always paired?
DNA bases are always paired through hydrogen bonding. Adenine pairs with thymine, while cytosine pairs with guanine. This complementary base pairing ensures the stability and accuracy of DNA replication and transcription processes.
What it the rule that explains how nucleotides interact with each other?
Base Pairing Rules
DNA exhibits base pairing?
DNA base pairing refers to the specific hydrogen bonding between adenine and thymine, as well as cytosine and guanine. This complementary base pairing allows for DNA replication and helps maintain the double-stranded structure of DNA. The base pairing ensures the accurate transmission of genetic information during cell division.
What is the rule to join the free nucleotides to the exposed bases of the DNA?
watson-base pairing
How is RNA reflection of DNA?
mRNA makes a complimentary copy of the DNA molecule according to the base-pairing rule.
Whose rule does base pairing prove?
Base pairing proves Chargaff's rule, which states that in DNA, the amount of adenine equals the amount of thymine, and the amount of cytosine equals the amount of guanine.
How does the base pairing rule ensure each copy of DNA is identical to the original?
The base pairing rule ensures that during DNA replication, each base on one strand pairs with its complementary base on the other strand, forming an identical copy. This process maintains the genetic information in the original DNA molecule and results in the production of two identical DNA molecules.
How is complementary base pairing different when pairing DNA to DNA than pairing DNA to mrna?
Complementary base pairing in DNA-DNA pairing involves adenine (A) pairing with thymine (T) and cytosine (C) with guanine (G), following the rules of Watson-Crick base pairing. In DNA-mRNA pairing, uracil (U) replaces thymine, so adenine (A) pairs with uracil (U) in mRNA instead of thymine (T).
What the base pairing rule for RNA?
A goes to U and G goes to C. DNA its A=T G=C.
What are the correct base-pairing rules of DNA?
The correct base-pairing rules in DNA are adenine (A) pairing with thymine (T) and guanine (G) pairing with cytosine (C). This forms complementary base pairs that contribute to the double-helix structure of DNA.
What rule is used to join the free nucleotides to the exposed bases of the DNA?
The rule used to join free nucleotides to the exposed bases of DNA is base pairing. Adenine pairs with thymine, and guanine pairs with cytosine through hydrogen bonding. This complementary base pairing ensures the accurate replication of DNA during cell division.
When did erwin chargaff discover the base pairing rule?
Erwin Chargaff discovered the base pairing rule in the late 1940s while studying the ratios of nucleotides in DNA from various species. This finding was a key contribution to understanding the structure of DNA and laid the foundation for Watson and Crick's model of the DNA double helix.
How are DNA bases always paired?
DNA bases are always paired through hydrogen bonding. Adenine pairs with thymine, while cytosine pairs with guanine. This complementary base pairing ensures the stability and accuracy of DNA replication and transcription processes.
What it the rule that explains how nucleotides interact with each other?
Base Pairing Rules
In a DNA molecule what base pair could normally be composed of?
A DNA molecule can have base pairs composed of adenine (A) pairing with thymine (T), and guanine (G) pairing with cytosine (C). This is known as complementary base pairing in DNA.
