Troubleshooting Common Sanger Sequencing Problems

Learn more about common causes of Sanger sequencing issues and how to overcome them in order to get good, clean data.

Failed Reactions
Noisy/Background Peaks
Double Peaks
Mixed PCR Data
Repetitive Sequence
Hard to Sequence/Short Reads
High Intensity Data

Characterized by low base confidence levels, usually lacking in any base-calling or having bases that do not match the expected sequence. Signal may be too low to accurately distinguish individual base pairs.

Potential CausePossible Solution

Poor DNA Quality

Confirm by checking samples via nanodrop and agarose gel. The A260/A280 value should be around 1.7-1.9. The A260/A230 value should be at around 2.0 – 2.2. Anything higher or lower than these values may indicate an issue with the purity of your DNA.

Re-prepare DNA if contamination is suspected. If your purity ratios are not within the recommended ranges, you may need to add an additional wash step to your protocol, prior to elution.

Incorrect Elution

We recommend using nuclease-free water to elute your DNA, instead of buffers as recommended by certain kits. Some buffers may contain sequencing inhibitors, such as EDTA.

Template or Primer Concentration Too Low or Too High

Make sure your DNA concentration is consistent with our Sample Submission Guidelines for the service level chosen.

If you are unable to check the concentration in your lab, submit your samples under the Premium service and we will perform QC checks prior to sequencing to ensure the correct amount of DNA is used.

Lack of Primer Binding

Double check that the primer binding site is present, and that the primer is designed/selected properly. Sometimes, primers that are good for PCR are not the best for sequencing. Sequencing primers should be about 18-23 bases in length with a Tm of 56-62 °C. GC content should be between 40-60%.

If you have chosen a primer that does not have a binding site along the template, you will need to choose or design a new one.

Primers may also degrade over time. We do not recommend using primers that are older than 2 years. 

Seconday Structure Near Primer Binding Site

Our Hairpin protocol is designed to help sequence templates with tendencies to form hairpins or other secondary structures.

Characterized by loss in signal quality or messy peaks prior to 750 bps or by background noise throughout the sequence. Part of the sequence may be clear and usable but may need to be closer examined to determine where quality becomes unreliable.

Potential CausePossible Solution

Poor DNA Quality

Confirm by checking samples via nanodrop and agarose gel. The A260/A280 value should be around 1.7-1.9. The A260/A230 value should be at around 2.0 – 2.2. Anything higher or lower than these values may indicate an issue with the purity of your DNA.

Re-prepare DNA if contamination is suspected. If your purity ratios are not within the recommended ranges, you may need to add an additional wash step to your protocol, prior to elution.

Incorrect Elution

We recommend using nuclease-free water to elute your DNA, instead of buffers as recommended by certain kits. Some buffers may contain sequencing inhibitors, such as EDTA.

Template or Primer Concentration Too Low or Too High

Make sure your DNA concentration is consistent with our Sample Submission Guidelines for the service level chosen.

If you are unable to check the concentration in your lab, submit your samples under the Premium service and we will perform QC checks prior to sequencing to ensure the correct amount of DNA is used.

Dye Blobs

Dye blobs are very common in Sanger sequencing, and may most often occur within the first 100 bases of the sequence. These are often caused by the sequencing chemistry interacting with an unknown contaminate in the DNA or too high ethanol concentration used in cleanup. Resequencing can be requested if this occurs in a critical region.

High GC Content

Our High GC protocol is designed to help sequence templates with GC-rich content (either across the template or concentrated in a particular region)

Characterized by overlapping bases or visible presence of multiple PCR product ends.

Potential CausePossible Solution

Multiple Primer Binding Sites

Check sequence to see if there are multiple places that the primer could be binding to. You may need to redesign the primer to make it more specific to the region you are trying to read.

You can try designing a primer from the opposite direction to bypass this issue as well.

Contamination or Presence of Multiple PCR Products in the Sample

You may need to re-prepare the sample if there is potential contamination.

Double check your gel picture to make sure that there is only one band present for the sample. If there are multiple bands, you may need to perform gel extraction for the desired product size.

Repetitive Sequences and Homopolymeric Regions

With repetitive sequences, the polymerase can “slip”, creating double peaks after the poly-A, -G, -C, or -T region. The signal may drop dramatically or become completely unrecognizable after the repeat region.

In this case, it may be best to design a primer in the opposite direction and align the sequences.

You can also try using an anchored primer that will bind to the repetitive region (for example, our universal primers 21TA, 21TC, and 21TG)

Characterized most often by an abrupt loss in signal, but may also appear as a gradual decline in signal or quality. Best determined by looking at the raw data.

Potential CausePossible Solution

High GC Content

Our High GC protocol is designed to help sequence templates with GC-rich content (either across the template or concentrated in a particular region)

Hairpin / Secondary structures

Our Hairpin protocol is designed to help sequence templates with tendencies to form hairpins or other secondary structures.

Characterized by electropherogram peaks that are much higher in signal, causing a compression of bases near the beginning of the sequence. Reads may clear up after the first 100-200 or so bps in plasmids and longer PCR products or may remain oversaturated throughout shorter fragments. Depending on the intensity, this can render results partially or completely unusable.

Potential CausePossible Solution

Template Concentration Too High

Too much sequencing product can oversaturate the capillaries of the sequencing instrument.

Make sure your DNA concentration is consistent with our Sample Submission Guidelines for the service level chosen. 

If you are unable to check the concentration in your lab, submit your samples under the Premium service and we will perform QC checks prior to sequencing to ensure the correct amount of DNA is used.

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