The MAFFT algorithm is for gene level alignment of either protein or nucleotide sequences. To run a MAFFT alignment, select two or more sequences and choose Align > (Re)Align Using MAFFT.

If you wish to change method options, instead choose Align > Align with Options. Options vary depending whether the sequences are protein or nucleotide (nucleotide version shown below).

Change settings as desired:

  • In the Using drop-down menu, choose Clustal W.
  • Specify the Gap open penalty, the numerical penalty for introducing a gap of any length when calculating alignments. This penalty does not take into account the size of the gap. The default is -2.0.
  • Gap extension penalty – This option affects the lengths of gaps, and must be zero or a negative number. Lowering the magnitude of the gap extension penalty may allow for longer gaps. The default is 0.
  • In the Algorithm drop-down menu, either retain the default of Choose algorithm depending upon size [auto], or specify a particular alignment algorithm.
Description Name No. of Seqs Strategy
Choose algorithm depending upon size [auto] (default)
Very slow global homology < 200 g-ins-i
Very slow one conserved domain < 200 l-ins-i
Very slow multiple conserved domains < 200 e-ins-i
Slow iterative refinement, iterations specified by user N/A fft-ns-i
Medium Iterative refinement, two iterations N/A N/A
Fast Progressive N/A fft-ns-2
Very fast Progressive > 2000 fft-ns-1
  • in the Scoring matrix drop-down menu, choose the desired matrix:
Matrix name Description
Nucleotide sequences
1PAM / k=2 For closely related sequences.
20PAM / k=2 For moderately related sequences.
200 PAM / k=2 For distantly related sequences.
Protein sequences
BLOSUM30, 45, 62, 80 (Henikoff & Henikoff, 1992). The BLOSUM series of matrices contain the same values as in some of MegAlign Pro’s other alignment methods, except that the protein ambiguity codes B, Z, and X are excluded in this case. These matrices are ideal for carrying out similarity searches. Choose a larger number BLOSUM matrix for less divergent sequences.
JTT100, 200 (Thorne JL et al., 1998) These matrices are similar to PAM matrices and were generated using an algorithm similar to the approach of Dayhoff et al. (1978), but based on a larger set of protein sequences.

After making your changes:

  • Choose Align to use the entered options to perform a multiple sequence alignment.
  • Use the Reset to Default button if you would like to reset all values to the MegAlign Pro defaults.
  • Select Cancel to leave the dialog without saving any changes.

Need more help with this?
Contact DNASTAR

Thanks for your feedback.