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 @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
I know a lot of Apoptosis researchers @WEHI_research who’d love this
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 @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 @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
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 @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…
Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imaging apoptosis in animals | #Drosophila #apoptosis #reporter https://t.co/Y85kaiNDYu
RT @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
RT @CarolynBertozzi: This is a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imag…
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 a really cool idea. Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imaging apoptosis in animals - Journal of the American Chemical Society (ACS Publications) https://t.co/NM3XDVv2MX
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…
Designing a green fluorogenic protease reporter by flipping a beta strand of GFP for imaging apoptosis in animals #Drosophila #gfp
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…
Very inventive new GFP reporter! I'd love to get my hands on the construct to give it a try in chicken!
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…
Cool!!!
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 @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 @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…
Wonderful piece of work. Great to be part of it through a student exchange. International collaboration is the way.
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…
@oilcanoyler
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…
For those with interest in cell death... this is an amazing mandatory paper to take a look at... lucky you if you use flies or fish... !
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…
FlipGFP: a GFP-based protease reporter that achieves 100-fold fluorescence increase upon protease activation. It is designed by flipping a beta strand of GFP. FlipGFP visualizes caspase activity and apoptosis in Drosophila and zebrafish. Thanks @J_A_C_S! h