Boissy G, de La Fortelle E, Kahn R, Huet J C, Bricogne G, Pernollet J C, Brunie S
Unité de Recherche Biochimie & Structure des Protéines, INRA, Jouy-en-Josas, France.
Structure. 1996 Dec 15;4(12):1429-39. doi: 10.1016/s0969-2126(96)00150-5.
Elicitins form a novel class of plant necrotic proteins which are secreted by Phytophthora and Pythium fungi, parasites of many economically important crops. These proteins induce leaf necrosis in infected plants and elicit an incompatible hypersensitive-like reaction, leading to the development of a systemic acquired resistance against a range of fungal and bacterial plant pathogens. No crystal structures of this class of protein are available. The crystal structure determination of beta-cryptogein (CRY), secreted by Phytophthora cryptogea, was undertaken to identify structural features important for the necrotic activity of elicitins.
The structure of CRY was determined using the multiwavelength anomalous diffraction technique and refined to 2.2 A resolution. The overall structure has a novel fold consisting of six alpha helices and a beak-like motif, whose sequence is highly conserved within the family, composed of an antiparallel two-stranded beta sheet and an omega loop. This motif is assumed to be a major recognition site for a putative receptor and/or ligand. Two other distinct binding sites seem to be correlated to the level of necrotic activity of elicitins.
The determination of the crystal structure of a member of the elicitin family may make it possible to separate the activity that causes leaf necrosis from that inducing systemic acquired resistance to pathogens, making it feasible to engineer a non-toxic elicitin that only elicits plant defences. Such studies should aid the development of non-toxic agricultural pest control.
激发素构成了一类新型的植物坏死蛋白,由疫霉属和腐霉属真菌分泌,这些真菌是许多经济上重要作物的寄生物。这些蛋白质在受感染的植物中诱导叶片坏死,并引发类似过敏的不相容反应,从而导致对一系列真菌和细菌植物病原体产生系统获得性抗性。目前尚无这类蛋白质的晶体结构。为了确定对激发素坏死活性重要的结构特征,我们对隐地疫霉分泌的β-隐地蛋白(CRY)进行了晶体结构测定。
利用多波长反常衍射技术确定了CRY的结构,并将其精修至2.2埃分辨率。其整体结构具有一种新颖的折叠方式,由六个α螺旋和一个喙状基序组成,该基序在家族内序列高度保守,由一个反平行的双链β折叠片和一个ω环组成。这个基序被认为是假定受体和/或配体的主要识别位点。另外两个不同的结合位点似乎与激发素的坏死活性水平相关。
确定激发素家族成员的晶体结构可能使区分导致叶片坏死的活性与诱导对病原体的系统获得性抗性的活性成为可能,从而使设计一种仅引发植物防御的无毒激发素成为可行。此类研究应有助于无毒农业害虫防治的发展。
