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So essentially the difference is that in DNA-DNA base pairs thymine bonds with adenine while in DNA-RNA base pairs thymine bonds to uracil.
Yes. It's always six-base pairs long. :)
They are always six base pairs long.
Thymine.
Adenine pairs with thymine (A-T); guanine pairs with cytosine (G-C) The mRNA transcribed from the antisense DNA strand is not identical to that DNA strand; it is complementary. -the mRNA has the 'partners' of the bases on the DNA template (remembering that RNA uses U instead of T) -it IS identical to the sense strand; therefore, it carries the code for the protein. -if the DNA says ACC, the mRNA says UGG.
So essentially the difference is that in DNA-DNA base pairs thymine bonds with adenine while in DNA-RNA base pairs thymine bonds to uracil.
A (Adenine) always pairs with T (Thymine).
Yes. It's always six-base pairs long. :)
They are always six base pairs long.
In a regular watson-crick double helix base pairing DNA, guanine always pairs opposite cytosine. However this rule holds good only for double helical DNA, as, it is seen in tRNA that guanine (in the anticodon) pairs with cytosine as well as uracil of the corresponding codon in mRNA.
In a DNA molecule cytosine always pairs with guanine, the same is true for an RNA molecule.
Uracil replaces Thymine as a base in mRNA.
Adenine always pairs with thymine in a DNAmolecule.
Thymine.
Thymine.
When pairing DNA to DNA - A binds to T and C binds to G. However, in RNA, the T is replaced with U. Therefore when DNA pairs with mRNA - A binds to U, C binds to G and T binds to A.
Adenine pairs with thymine (A-T); guanine pairs with cytosine (G-C) The mRNA transcribed from the antisense DNA strand is not identical to that DNA strand; it is complementary. -the mRNA has the 'partners' of the bases on the DNA template (remembering that RNA uses U instead of T) -it IS identical to the sense strand; therefore, it carries the code for the protein. -if the DNA says ACC, the mRNA says UGG.