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Expression of Designed Antimicrobial Peptides in Theobroma cacao L. Trees Reduces Leaf Necrosis Caused by Phytophthora spp.

机译：设计抗微生物肽在Cacao L.树木中的表达减少了植物酞菁菌引起的叶坏死。

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Antimicrobial peptides naturally occur in a wide range of life forms including bacteria, fungi, plants and animals and represent an important component of their innate immunity systems. These peptides can inhibit the growth of animal and plant pathogenic bacteria and fungi. Designed synthetic peptides based on the structure of naturally occurring peptides have been shown to inhibit the growth of animal and plant pathogenic bacteria and fungi. In this chapter we report the engineering of T. cacao plants to express synthetic peptides and the in planta effects on the damage (necrosis) caused by two important oomycete pathogens of this crop. Theobroma cacao transgenic lines expressing synthetic peptides D5C and pD4El exhibited less foliar damage by pathogen Phytophthora capsici and P. palmivora than wild type cacao. We discuss the potential effects of antimicrobial peptides on non-pathogenic symbiotic microorganisms of plants e.g. mychorrizae and endophytes.

机译：抗微生物肽在包括细菌，真菌，植物和动物的各种寿命中，抗微生物肽在包括细菌，真菌，植物和动物的各种形式中，并且代表其先天免疫系统的重要组成部分。这些肽可以抑制动物和植物病原细菌和真菌的生长。已经显示了基于天然存在的肽结构的设计的合成肽抑制动物和植物病原菌和真菌的生长。在本章中，我们将T. Cacao植物的工程报告以表达合成肽和植物植物对这种作物的两个重要oomycete病原体引起的损伤（坏死）的影响。表达合成肽D5C和PD4EL的神经罗马可可转基因素呈较少的叶面损伤，植物植物植物病原体损伤而不是野生型可可。我们探讨了抗微生物肽对植物非致病共生微生物的潜在影响。 mychorrizae和condophytes。

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《National meeting of the American Chemical Society》|2012年||共17页
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Luis C. Mejia; Mark J. Guiltinan; Zi Shi; Lena Landherr; Siela N. Maximova;
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4. Expression of Designed Antimicrobial Peptides in Theobroma cacao L. Trees Reduces Leaf Necrosis Caused by Phytophthora spp. [C] . Luis C. Mejia, Mark J. Guiltinan, Zi Shi, National meeting of the American Chemical Society . 2012

机译：设计抗微生物肽在Cacao L.树木中的表达减少了植物酞菁菌引起的叶坏死。
5. Studies of Mesoamerican tropical trees: Trees of the Maya region and a case study on the ethnobotany and phylogeography of cacao (Theobroma cacao L.). [D] . Ogata, Nisao. 2002

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7. Resistance to Phytophthora palmivora (Butler) Butler Assessed on Leaf Discs of Cacao (Theobroma cacao L.) Hybrid Trees [O] . M.J. Akaza, J.A.K. N`Goran, S-P.A. N`Guetta, 2009

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Expression of Designed Antimicrobial Peptides in Theobroma cacao L. Trees Reduces Leaf Necrosis Caused by Phytophthora spp.

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