Sanger Sequencing: Two ddNTPs and Electrophoresis Bands

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Discussion Overview

The discussion revolves around the Sanger sequencing method, specifically focusing on the effects of using two different ddNTPs in the sequencing process and the interpretation of electrophoresis gel results. Participants explore the implications of band formation on the gel and the directionality of DNA strands in relation to sequencing.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • One participant inquires about the expected bands on an electrophoresis gel when using two different ddNTPs, suggesting that the bands could be considered independently and then combined.
  • Another participant agrees, stating that the bands would be a combination of those produced by each ddNTP.
  • A clarification is made regarding the terminology, correcting "dNTPs" to "ddNTPs." This correction is acknowledged and fixed in the original post.
  • Some participants note that the Sanger method is considered outdated, with modern techniques favoring single-tube reactions with dye-labeled nucleotides, though traditional methods are still taught.
  • A participant poses a hypothetical scenario involving a DNA sequence and questions the directionality of the DNA strand in relation to the Sanger method, specifically whether the sequence reflects the template strand's direction.
  • Another participant responds, explaining that the lowest bands on a gel correspond to the 5' end of the DNA fragment, emphasizing the importance of understanding the direction of synthesis and whether the sequence represents the template or coding strand.

Areas of Agreement / Disagreement

Participants generally agree on the basic mechanics of band formation with two ddNTPs and the interpretation of gel results, but there is some uncertainty regarding the implications of sequencing directionality and the relevance of traditional methods in current practice.

Contextual Notes

There are unresolved questions regarding the feasibility of primer length in the hypothetical example and the implications of sequencing the template versus coding strand. Additionally, the discussion reflects a mix of traditional and modern sequencing techniques without a consensus on their relative importance.

Who May Find This Useful

This discussion may be useful for students and professionals interested in molecular biology techniques, particularly those studying DNA sequencing methods and their applications.

Soaring Crane
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For sequencing using the Sanger model, what types of bands on an electrophoresis gel would be produced if two different ddNTPs instead of just one ddNTP were added to a tube of DNA polymerase, template, and dNTPs? Would it be correct to think of which bands would be produced by each ddNTP independently of the other, and, then, these bands from each different ddNTP can be collectively represented on the gel?

Thank you.
 
Last edited:
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Yes. The bands in the lane with the two ddNTPs would basically just be the combination of band from ddNTP 1 and bands from ddNTP 2.
 
Last edited:
Do you mean "ddNTPS" (in place of where you typed "dNTPS")?

Thank you again.
 
Yes, I meant ddNTPs. I've fixed the post. Thanks.
 
Yes, but keep in mind that this method is rather antiquated and really no longer used. These days, the reactions are all done in a single tube with dye-labeled nucleotides.
 
BoomBoom said:
Yes, but keep in mind that this method is rather antiquated and really no longer used. These days, the reactions are all done in a single tube with dye-labeled nucleotides.

This is true, the way is paved by high-throughput sequencers :smile: That doesn't mean that students still don't have to learn more "traditional" techniques!
 
I have a question regarding direction of a DNA strand and sequencing. Suppose I have the following imaginary DNA fragment (which could actually exist in a species but I do not really know). This fragment was sequenced by the Sanger method.

GATTACCCAGCCTAATTC

A primer with a labelled 5' end is introduced, and it binds to the first eight bases. (I do not know if the primer length is feasible or if it is too short. I am just attempting to set up a hypothetical example.)

What exactly is the direction of the above DNA fragment? Normally, when I see a DNA sequence, the left end is the 5' side and the right is the 3' side. However, since the above fragment was sequenced by the Sanger method, is the direction really reflective of the complementary strand's direction, 3' to 5'? in other words, the above fragment is not the template, and, therefore, it is not in the 5' to 3' direction?

Thank you.
 
If you were looking at it on a gel, the lowest bands would correspond to the 5' end. Which should make sense if you think about it as they would be the shortest and migrate the farthest on the gel (Remember DNA poly can only add to the free 3'-OH, so synthesis must go 5'→3', so the first nucleotide added to the primer will be the shortest band). So if your hypothetical is written in the 5'-3' direct, on a gel it would actually look like;

3'
C
T
T
A
A
T
C
C
G
A
C
C
C
A
T
T
A
G
5'Also make sure you are careful to know if you've sequenced the template or coding strand. As we typically want to write the coding strand, left to right (5'-3').

(Edit: although remember they would be spread out in 4 lanes, so it wouldn't be a straight line like that)
 

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