engineered gray mold resistance, antioxidant capacity
Engineered gray mold resistance, antioxidant capacity,
Gray mold resistance in tobacco plants engineered for betalain production. (A, Top row) Leaves of wild-type and pX11 tobacco plants were infected with droplets of B. cinerea conidial suspension and photographed 3 d postinfection. (Bottom row) Fungal staining with aniline blue, 3 d postinfection.
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1. Proc Natl Acad Sci U S A. 2017 Aug 22;114(34):9062-9067. doi: 10.1073/pnas.1707176114. Epub 2017 Jul 31. Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals.
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Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals Guy Polturak a, Noam Grossman , David Vela-Corcia b, Yonghui Dong , Adi Nudelc, Margarita Plinera, Maggie Levy , Ilana Rogacheva, and Asaph Aharonia,1 aDepartment of Plant and Environmental Sciences, Weizmann Institute of Science, Rehovot 76100, Israel; bDepartment of Plant ...
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Engineered Gray Mold Resistance, Antioxidant Capacity and Pigmentation in Betalain-Producing Crops and Ornamentals Article in Proceedings of the National Academy of Sciences 114(34):1 · July 2017 ...
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The study showed that resistance to gray mold rose by a whopping 90 percent in plants engineered to make betalains. The scientists had produced versions of betalain that do not exist in nature. "Some of these new pigments may potentially prove more stable than the naturally occurring betalains," says Polturak.
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The study showed that resistance to gray mold rose by a whopping 90 percent in plants engineered to make betalains. The scientists had produced versions of betalain that do not exist in nature.
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Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals. Proceedings of the National Academy of Sciences , 2017; 201707176 DOI: 10.1073/pnas.1707176114
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Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals. Proceedings of the National Academy of Sciences 2017 , 114 (34) , 9062-9067.
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Further trials demonstrated a disease resistance in the tobacco plant as they found the pigment’s protective qualities applied to grey mould (Botrytis cinerea ), a plant pathogen responsible for major crop losses. The study showed that resistance to the mould rose by 90% in plants engineered to make betalains.
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Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals. Proceedings of the National Academy of Sciences 2017, 114 (34) , 9062-9067. DOI: 10.1073/pnas.1707176114.
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Vertical axes are linked. Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals.Gray mold resistance in tobacco plants engineered for betalain production. (A, Top row) Leaves of wild-type and pX11 tobacco plants were infected with
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Publication Analysis. Top Keywords. gray mold.Please type a message to the paper's authors to explain your need for the paper. Paper: Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals.
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Combinatorial expression of betalain-related genes also allowed the engineering of tobacco plants and cell cultures to produce a palette of unique colors. Furthermore, betalain-producing tobacco plants exhibited significantly increased resistance toward gray mold ( Botrytis cinerea ), a pathogen
Send Inquiry[PDF] Engineered gray mold resistance, antioxidant capacity,
@article{Polturak2017EngineeredGM, title={Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals.}, author={Guy Polturak and Noam Grossman and David Vela-Corc{\'i}a and Yonghui Dong and Adi Nudel and Margarita Pliner and
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41. 2016. Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals. G Polturak, N Grossman, D Vela-Corcia, Y Dong, A Nudel, M Pliner
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Engineered Gray Mold Resistance, Antioxidant Capacity and Pigmentation in Betalain-Producing Crops and Ornamentals.Furthermore, betalainproducing tobacco plants exhibited significantly increased resistance toward gray mold (Botrytis cinerea), a pathogen responsible for major losses in
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Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals, Proceedings of the National Academy of Sciences (2017).
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The study showed that resistance to gray mold rose by a whopping 90 percent in plants engineered to make betalains.Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals.
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(2017) Engineered gray mold resistance, antioxidant capacity, and pigmentation in betalain-producing crops and ornamentals. Proceedings of the National Academy of Sciences of the United States of America 114 (34):9062-9068. Semercioz AS, Gogus F, Celekli A, Bozkurt H (2017)
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The antioxidant capacity was measured according to Miller et al.The antioxidant capacity of blood increases after consuming coffee and tea because antioxidants present in both are absorbed from the gastrointestinal tract and such compounds can be detected in blood.
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