Why are some colonies blue in my T-vector self-ligation experiment?

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The discussion revolves around a transformation experiment involving a linearized T-vector used for blue-white screening of bacterial colonies. The goal was to insert a DNA fragment with A overhangs into the lacZ gene, leading to white colonies if successful. However, the presence of blue colonies raised questions about potential self-ligation of the T-overhangs or issues during vector preparation. The individual conducting the experiment noted that they were unsure of the linearization process of the T-vector, which was provided without explanation. They performed a ligation reaction without an insert for a control, resulting in no growth in a blank colony, suggesting that self-ligation might not be occurring. Responses indicated that the T-overhangs should prevent self-ligation, and the blue colonies likely resulted from issues in the preparation steps. The conversation highlighted the importance of understanding vector preparation and the implications of blue/white screening in confirming successful insertions.
nobahar
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Hello!

I conducted a transformation experiment and plated the bacteria on antibiotic agar with blue-white screening. The plasmid I used was a linearized T-vector. The insert with A overhangs would insert into the lacZ gene. If it is successfully inserted, white colonies should form. However, apparently it's possible to get blue colonies. I don't understand why. Can the T overhangs self-ligate somehow? Or would it be something in the preparatory steps for constructing the vector - say, the prep was not complete and some circularized plasmids remained or the t overhangs were not added successfully? I was also thinking that maybe the bacteria could remove overhangs?
I included a circularized control, is it merely to cover the possibility of contamination? I personally don't think so, I had a 'blank' colony (no insert included but t-vector was), on which nothing grew. Although this doesn't actually tell me much.

Anyone got any ideas.
Many thanks.
 
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How did you linearize your T-vector? For your blank control, did you perform the ligation reaction or did you just transform the linearized vector without a ligation step?
 
Ygggdrasil said:
How did you linearize your T-vector? For your blank control, did you perform the ligation reaction or did you just transform the linearized vector without a ligation step?

Hi Ygg, thanks for the response. Thats the thing, I was simply given a linearized vector, no explanation, so I don't know the process for it. For the control, I subjeted iot to the ligation as if there was some insert, but I just didn;t include an insert in the mix. It went through all the same processes otherwise. he blue colonies have to be self-ligation, since its the only way for the bacteria to survive and the colonies to be blue, so it must be in the prep step that I din;t do. Can they even self-ligate once the overhangs are on?

Thanks for the response.
 
Yes, the vector should not be able to self-ligate once it has the t-overhangs on it. The fact that you see no colonies in your blank is also a good indication that no self-ligation is going on. Blue/white screening is useful for distinguishing re-circularized vectors from plasmids containing inserts, and so the screening seems unnecessary because your vector is designed to prevent self-ligation.
 
Thanks Ygg, it must be in the prep step then. I haven't been taught how that works so I wasn;t aware of the procedure. Thanks again!
 

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