Match each statement with one of the choices (A-E)
A.) Uracil N-glycosidase B.) AP repair C.) SOS repair D.)Nucleotide excision repair E.) Proof-reading
21.) Deficits in this system account for the UV-sensitivity ofaptients with Xeroderma pigmentosum.
22.) When this "repairs" DNA damage that reuslts from aparticular deamination, it creates an AP site which must besubsequntly repaired by the AP repair system
23.) This inducible, post-replication" repair system is errorprone because it allows DNA polymerase to "bypass" or read-throughthe replication blocks that occur wherever DNA damage precludes thepossibility of normal base-pairing.
24.) This repairs the damage that results from spontaneousdepurination of DNA
25.) In wild type E.coli, most of the replication errors thatresult from tautomeric shifts are repaired by this
I think 21 is D, 22 is A, and 24 is B, but I'm not completelysure. Please help!!
Match each statement with one of the choices (A-E)
A.) Uracil N-glycosidase B.) AP repair C.) SOS repair D.)Nucleotide excision repair E.) Proof-reading
21.) Deficits in this system account for the UV-sensitivity ofaptients with Xeroderma pigmentosum.
22.) When this "repairs" DNA damage that reuslts from aparticular deamination, it creates an AP site which must besubsequntly repaired by the AP repair system
23.) This inducible, post-replication" repair system is errorprone because it allows DNA polymerase to "bypass" or read-throughthe replication blocks that occur wherever DNA damage precludes thepossibility of normal base-pairing.
24.) This repairs the damage that results from spontaneousdepurination of DNA
25.) In wild type E.coli, most of the replication errors thatresult from tautomeric shifts are repaired by this
I think 21 is D, 22 is A, and 24 is B, but I'm not completelysure. Please help!!