MyHits has reached its end of life and no longer provides data or services. Thank you for your support and trust for more than 23 years!
However, the webserver will remain online in its present form at least until end of March 2025.
To ensure the future of MyHits, we would be happy if a person or community would take over the resource or parts of it. Interested? Please contact us (myhits [at] sib.swiss).
Pagni M, Ioannidis V, Cerutti L, Zahn-Zabal M, Jongeneel CV, Hau J, Martin O, Kuznetsov D, Falquet L.
MyHits: improvements to an interactive resource for analyzing protein sequences.
Nucleic Acids Res. 2007 Jul; 35(Web Server issue):W433-7
However, the webserver will remain online in its present form at least until end of March 2025.
To ensure the future of MyHits, we would be happy if a person or community would take over the resource or parts of it. Interested? Please contact us (myhits [at] sib.swiss).
Pagni M, Ioannidis V, Cerutti L, Zahn-Zabal M, Jongeneel CV, Hau J, Martin O, Kuznetsov D, Falquet L.
MyHits: improvements to an interactive resource for analyzing protein sequences.
Nucleic Acids Res. 2007 Jul; 35(Web Server issue):W433-7
This tool uses the EMBOSS transeq program to translate a DNA sequence into the corresponding peptide sequence.
It can translate in any of the 3 forward or three reverse sense frames, or in all three forward or reverse frames, or in all six frames.
It can also translate specified regions corresponding to the coding regions of your sequences. The START and STOP codons are color coded.
It can translate in any of the 3 forward or three reverse sense frames, or in all three forward or reverse frames, or in all six frames.
It can also translate specified regions corresponding to the coding regions of your sequences. The START and STOP codons are color coded.