Paper
2
Plants with genetically encoded autoluminescence
Authors
Tatiana Mitiouchkina,Alexander S. Mishin
Louisa Gonzalez Somermeyer,Nadezhda M. Markina,Tatiana V. Chepurnyh,Elena B. Guglya,Tatiana A. Karataeva,Kseniia A. Palkina,Ekaterina S. Shakhova,Liliia I. Fakhranurova,Sofia V. Chekova,Aleksandra S. Tsarkova,Yaroslav V. Golubev,Vadim V. Negrebetsky,Sergey A. Dolgushin,Pavel V. Shalaev,Dmitry Shlykov,Olesya A. Melnik,Victoria O. Shipunova,Sergey M. Deyev,Andrey I. Bubyrev,Alexander S. Pushin,Vladimir V. Choob,Sergey V. Dolgov,Fyodor A. Kondrashov,Ilia V. Yampolsky,Karen S. Sarkisyan,Alexander Mishin,Louisa Somermeyer,Nadezhda Markina,Tatiana Chepurnyh,Elena Guglya,Tatiana Karataeva,Kseniia Palkina,Ekaterina Shakhova,Liliia Fakhranurova,Sofia Chekova,Aleksandra Tsarkova,Yaroslav Golubev,V.V. Negrebetsky,S. Dolgushin,Pavel Shalaev,Olesya Melnik,Victoria Shipunova,Sergey Deyev,Andrey Bubyrev,Alexander Pushin,V. Choob,Sergey Dolgov,Fyodor Kondrashov,Ilia Yampolsky
+49 authors
,Karen SarkisyanJournal
Published
Apr 27, 2020
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Abstract
Autoluminescent plants engineered to express a bacterial bioluminescence gene cluster in plastids have not been widely adopted because of low light output. We engineered tobacco plants with a fungal bioluminescence system that converts caffeic acid (present in all plants) into luciferin and report self-sustained luminescence that is visible to the naked eye. Our findings could underpin development of a suite of imaging tools for plants.
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