You are working with a chromosome that it 10 7 base pairs long, and want to cut

Question

You are working with a chromosome that it 107 base pairs long, and want to cut it into blunt-ended fragments in the range of 103-104 base pairs. Which restriction endonuclease would you choose from the list below? (Note that “^” indicates the site of cleavage)

PmeI     (GTTT^AAAC)

BamHI   (G^GATCC)

EcoRV   (GAT^ATC)

BstUI     (CG^CG)

BstKTI   (GAT^C)

I thought the answer was C, because EcoRV is used as a restriction enzyme. EcoRV creates blunt ends when it cuts, so I now know this cannot be the answer because I want to actually cut into the blunt ends, not create them. I know the answer is Pmel because Pmel cuts leaves 4 base pairs on the 3’ end.

How many EcoRI sites are there in the plasmid?

0

1

2

3

Cannot be determined

I know the first answer is pmel. But I don't know how many ECORI are there. could someone help me and tell me why it is that many?

Explanation / Answer

The probability of presence of PmeI restriction site is for every 48 = 65536 base pairs.

Therefore, the number of PmeI restriction sites in 107 base pairs long sequence = 152.58

The probability of presence of BamHI restriction site is for every 46 = 4096 base pairs.

Therefore, the number of BamH restriction sites in 107 base pairs long sequence = 2441.406

The probability of presence of EcoRV restriction site is for every 46 = 4096 base pairs.

Therefore, the number of EcoRV restriction sites in 107 base pairs long sequence = 2441.406

The probability of presence of BstUI restriction site is for every 44 = 256 base pairs.

Therefore, the number of BstUI restriction sites in 107 base pairs long sequence = 39062.5

The probability of presence of BstKTI restriction site is for every 44 = 256 base pairs.

Therefore, the number of BstKTI restriction sites in 107 base pairs long sequence = 39062.5

Thus, there are 2441.406 EcoRV restriction sites.

We can use either EcoRV or BstUI to get blunt ends in the range of 103 to 104 base pairs.

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