Degani Ofir, Maor Rudy, Hadar Ruthi, Sharon Amir, Horwitz Benjamin A
Department of Biology, Technion, Haifa 32000, Israel.
Appl Environ Microbiol. 2004 Aug;70(8):5005-9. doi: 10.1128/AEM.70.8.5005-5009.2004.
Conserved eukaryotic signaling proteins participate in development and disease in plant-pathogenic fungi. Strains with mutations in CGA1, a heterotrimeric G protein G alpha subunit gene of the maize pathogen Cochliobolus heterostrophus, are defective in several developmental pathways. Conidia from CGA1 mutants germinate as abnormal, straight-growing germ tubes that form few appressoria, and the mutants are female sterile. Nevertheless, these mutants can cause normal lesions on plants, unlike other filamentous fungal plant pathogens in which functional homologues of CGA1 are required for full virulence. Deltacga1 mutants of C. heterostrophus were less infective of several maize varieties under most conditions, but not all, as virulence was nearly normal on detached leaves. This difference could be related to the rapid senescence of detached leaves, since delaying senescence with cytokinin also had differential effects on the virulence of the wild type and the Deltacga1 mutant. In particular, detached leaves may provide a more readily available nutrient source than attached leaves. Decreased fitness of Deltacga1 as a pathogen may reflect conditions under which full virulence requires signal transduction through CGA1-mediated pathways. The virulence of these signal transduction mutants is thus affected differentially by the physiological state of the host.
保守的真核信号蛋白参与植物病原真菌的发育和疾病过程。玉米病原菌玉米小斑病菌(Cochliobolus heterostrophus)的异源三聚体G蛋白Gα亚基基因CGA1发生突变的菌株,在几种发育途径中存在缺陷。CGA1突变体产生的分生孢子萌发形成异常的、直生的芽管,形成的附着胞很少,且这些突变体雌性不育。然而,与其他丝状真菌植物病原菌不同,CGA1功能同源物对于其完全致病力是必需的,而这些突变体仍能在植物上引起正常病斑。在大多数但并非所有条件下,玉米小斑病菌的Δcga1突变体对几个玉米品种的侵染力较低,因为在离体叶片上其致病力几乎正常。这种差异可能与离体叶片的快速衰老有关,因为用细胞分裂素延缓衰老对野生型和Δcga1突变体的致病力也有不同影响。特别是,离体叶片可能比附着叶片提供更容易获得的营养源。Δcga1作为病原菌适应性降低可能反映了完全致病力需要通过CGA1介导的途径进行信号转导的条件。因此,这些信号转导突变体的致病力受到宿主生理状态的不同影响。
