Describe the Problem
EF_TZ in the EPET collection is patented. Description in Benchling is:
Triple Terminator signal, composed of UUCG-TΦ + rrnBT1 + TΦ.
It is reported to stop 99% RNAPT7 readthrough.
Sequence obtained and developed from this work:
Preventing T7 RNA Polymerase Read-through Transcription—A Synthetic Termination Signal Capable of Improving Bioprocess Stability
Juergen Mairhofer, Alexander Wittwer, Monika Cserjan-Puschmann, and Gerald Striedner
ACS Synthetic Biology
2015 4 (3), 265-273
DOI: 10.1021/sb5000115
Searching for Gerald Striedner on lens.org shows a patent has been granted in several jurisdictions:
https://www.lens.org/lens/patent/151-531-468-988-834/family?l=en
Follow-Up Actions (Assignees, Labels)
Remove this part from the next distribution.
Describe the Problem
EF_TZ in the EPET collection is patented. Description in Benchling is:
Triple Terminator signal, composed of UUCG-TΦ + rrnBT1 + TΦ.
It is reported to stop 99% RNAPT7 readthrough.
Sequence obtained and developed from this work:
Preventing T7 RNA Polymerase Read-through Transcription—A Synthetic Termination Signal Capable of Improving Bioprocess Stability
Juergen Mairhofer, Alexander Wittwer, Monika Cserjan-Puschmann, and Gerald Striedner
ACS Synthetic Biology
2015 4 (3), 265-273
DOI: 10.1021/sb5000115
Searching for Gerald Striedner on lens.org shows a patent has been granted in several jurisdictions:
https://www.lens.org/lens/patent/151-531-468-988-834/family?l=en
Follow-Up Actions (Assignees, Labels)
Remove this part from the next distribution.