Veranstaltung
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Veranstaltung
Semester:
Wintersemester
2016
Back-Scattering Interferometry workshop -
Veranstaltungstermin | Raum
- Donnerstag, 9.3.2017 10:00 - 16:00 | 10-12 W3-1-152; 13-16 Uhr BSI Lab
- Freitag, 10.3.2017 10:00 - 14:00 | BSI Lab
Beschreibung
The course will be given by Amanda Kussrow, Bornhop research group, Vanderbilt University, Nashville, Tennessee, USA
Date 09/10.03.2017
Programme
09.03.2017
10:00 – 12:00, room W3-1-152, Group I and II: Seminar on theoretical background of BSI
Lunch
13:00 - 16:00, BSI lab, Group I: hands on – practical course in the lab, Questions, Problems
10.03.2017
10:00 – 12:00, BSI lab, Group II: hands on – practical course in the lab
Lunch
13:00 – 14:00, BSI lab, Group II: hands on - – practical course in the lab / Questions, Problems
Back-Scattering Interferometry (BSI) is a free-solution, label-free molecular interaction assay technology that is based upon a highly sensitive micro-scale interferometer. BSI enables conformation-sensitive detection to characterize complex drug targets and small molecule interactions in a native-like environment. BSI has significant advantages over conventional methods for membrane preparations and other complex protein targets including allosteric target-compound direct binding assays with radiolabel sensitivity.
Please register via Stud IP until 07.03.2017
Date 09/10.03.2017
Programme
09.03.2017
10:00 – 12:00, room W3-1-152, Group I and II: Seminar on theoretical background of BSI
Lunch
13:00 - 16:00, BSI lab, Group I: hands on – practical course in the lab, Questions, Problems
10:00 – 12:00, BSI lab, Group II: hands on – practical course in the lab
Lunch
13:00 – 14:00, BSI lab, Group II: hands on - – practical course in the lab / Questions, Problems
Back-Scattering Interferometry (BSI) is a free-solution, label-free molecular interaction assay technology that is based upon a highly sensitive micro-scale interferometer. BSI enables conformation-sensitive detection to characterize complex drug targets and small molecule interactions in a native-like environment. BSI has significant advantages over conventional methods for membrane preparations and other complex protein targets including allosteric target-compound direct binding assays with radiolabel sensitivity.
Please register via Stud IP until 07.03.2017
lecturer
TutorIn
Lehrsprache
deutsch