Interactions between rye (Secale cereale) root border cells (RBCs) and pathogenic and nonpathogenic rhizosphere strains of Fusarium culmorum

Jolanta Jaroszuk-Ściseł , Ewa Kurek , Beata Rodzik , Krystyna Winiarczyk
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引用次数: 19

Abstract

Interactions of rye (Secale cereale) root border cells (RBCs), generated during plant growth and surrounding the root cap, with nonpathogenic rhizosphere Fusarium culmorum isolates: DEMFc2 (PGPF) and DEMFc5 (DRMO), and a pathogenic strain DEMFc37 were studied in test tube experiments. The effect of water-suspended RBCs released from the rye root cap on the rate of macroconidia germination and hyphae (mycelial) growth of F. culmorum strains was also examined. It was found that root caps of 3-d-old rye seedlings (with the root length of 20 mm) were surrounded with a layer of RBCs generated in a number specific for this plant species of 1980 ± 30. Introduction of the macroconidia of the tested F. culmorum strains into the root zone of 3-d-old seedlings resulted, after 3 d of incubation, in the formation of mantle-like structures only in the rhizosphere of plants inoculated with the pathogenic DEMFc37 strain. The macroconidia were suspended in (1) water, (2) a water mixture with root caps deprived of RBCs, (3) Martin medium, (4) malt extract broth, and (5) a water mixture with rye RBCs, and their percentage germination was determined during 96-h incubation at 20 °C. Germination of the macroconidia of all the tested F. culmorum strains suspended in the rich growth media (Martin and malt extract broth) and in the mixture with RBCs was significantly speeded up. While only an average of 16.6 % of macroconidia suspended in water germinated after 96-h incubation, more than 90 % of those suspended in the growth media or in the mixture with RBCs germinated after 24 h of incubation. In all the treatments, the highest rate of macroconidia germination was found in suspensions of the pathogenic strain and the lowest in macroconidial suspensions of the PGPF strain. The stimulatory effect of RBCs was not specific to the pathogenic strain. Nevertheless, microscopic observation revealed that it was only in the suspension containing a mixture of rye RBCs and macroconidia of the pathogenic strain that after 48-h incubation compact clusters of hyphae and RBCs, resembling mantle-like structures found in the root zone of plants inoculated only with the pathogenic strain but not inoculated with DRMO and PGPF strain, were formed.

黑麦(Secale cereale)根缘细胞(红细胞)与镰刀菌致病和非致病根际菌株的相互作用
在试管实验中,研究了黑麦根冠周围生长过程中产生的根缘细胞(rbc)与非致病性根际枯殖镰镰菌分离株DEMFc2 (PGPF)和DEMFc5 (DRMO)以及致病菌株DEMFc37的相互作用。研究了黑麦根冠释放的水悬浮红细胞对黑麦镰刀菌大孢子萌发率和菌丝生长的影响。研究发现,黑麦3龄幼苗(根长为20 mm)的根冠周围有一层红细胞,其数量为1980±30。将试验菌株的大分生孢子引入3 d龄幼苗的根区,培养3 d后,只在接种致病菌株DEMFc37的植株根际形成了地幔状结构。将大分生孢子悬浮于(1)水、(2)除去红细胞的根冠水混合物、(3)马丁培养基、(4)麦芽提取物肉汤和(5)与黑麦红细胞的水混合物中,在20℃条件下培养96 h,测定其发芽率。在丰富的培养基(马丁和麦芽提取物肉汤)和与红细胞混合的培养基中,所有被试菌株的大孢子萌发速度都显著加快。悬浮在水中的大分生孢子孵育96 h后平均萌发率为16.6%,而悬浮在生长培养基或红细胞混合物中的大分生孢子孵育24 h后萌发率超过90%。在所有处理中,病原菌的大孢子萌发率最高,而PGPF菌的大孢子萌发率最低。红细胞的刺激作用并不局限于致病菌株。然而,显微镜观察发现,只有在含有黑麦红细胞和致病菌株大分生孢子混合物的悬浮液中,在孵育48小时后,菌丝和红细胞才会形成致密的簇状结构,类似于只接种致病菌株而未接种DRMO和PGPF菌株的植物根区出现的衣状结构。
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