RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @DrBoddey: This looks like it could be really useful, especially for Plasmodium liver research. https://t.co/8IioBOA8HL
RT @DrBoddey: This looks like it could be really useful, especially for Plasmodium liver research. https://t.co/8IioBOA8HL
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @DrBoddey: This looks like it could be really useful, especially for Plasmodium liver research. https://t.co/8IioBOA8HL
RT @DrBoddey: This looks like it could be really useful, especially for Plasmodium liver research. https://t.co/8IioBOA8HL
This looks like it could be really useful, especially for Plasmodium liver research.
Excellent sensor for apoptosis cells in live animals 👍
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
これは面白い発想。split GFPのとして使われる10番目11番目 βstrandの立体配置を逆向きにして、protease依存性に元に戻るようにした。 https://t.co/X4u5fpP6wB
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @SantiNonell: Wonderful piece of work. Great to be part of it through a student exchange. International collaboration is the way. https:…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @stroud_lab: Looks like a v powerful system for monitoring apoptosis in vivo. Not sure if feasible but would it be possible to create a…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @MikePiacentino: Very inventive new GFP reporter! I'd love to get my hands on the construct to give it a try in chicken! https://t.co/En…
RT @SantiNonell: Wonderful piece of work. Great to be part of it through a student exchange. International collaboration is the way. https:…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @stroud_lab: Looks like a v powerful system for monitoring apoptosis in vivo. Not sure if feasible but would it be possible to create a…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
Looks like a v powerful system for monitoring apoptosis in vivo. Not sure if feasible but would it be possible to create a version that #photoconverts upon cleavage? @ShuLab2010 #microsopy #fluorescence #gfp
RT @Furanosaurus: I know a lot of Apoptosis researchers @WEHI_research who’d love this https://t.co/ajfENswROQ
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
This is cool protein engineering!
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @SantiNonell: Wonderful piece of work. Great to be part of it through a student exchange. International collaboration is the way. https:…
What a cool tool
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
@m_ssaavedra @thecocodium
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
Great to see your continued successes Xiaokun @ShuLab2010. As someone who published a fair amount in the apoptosis domain earlier in my career, I'm excited to see where this leads for the field!
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
Interesting tool!
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…
RT @ShuLab2010: FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designe…