Arabidopsis thaliana GOLDEN2-LIKE (GLK1 and 2) transcription factors regulate chloroplast development in a redundant manner. Overexpression of AtGLK1 (35S:AtGLK1) in Arabidopsis also confers resistance to the cereal pathogen Fusarium graminearum. To further elucidate the role of GLK transcription factors in plant defence, the Arabidopsis glk1 glk2 double-mutant and 35S:AtGLK1 plants were challenged with the virulent oomycete pathogen Hyaloperonospora arabidopsidis (Hpa) Noco2. Compared with Col-0, glk1 glk2 plants were highly resistant to Hpa Noco2, whereas 35S:AtGLK1 plants showed enhanced susceptibility to this pathogen. Genetic studies suggested that AtGLK-mediated plant defence to Hpa Noco2 was partially dependent on salicylic acid (SA) accumulation, but independent of the SA signalling protein NONEXPRESSOR OF PATHOGENESIS-RELATED 1 (NPR1). Pretreatment with jasmonic acid (JA) dramatically reversed Hpa Noco2 resistance in the glk1 glk2 double mutant, but only marginally affected the 35S:AtGLK1 plants. In addition, overexpression of AtGLK1 in the JA signalling mutant coi1-16 did not increase susceptibility to Hpa Noco2. Together, our GLK gain-of-function and loss-of-function experiments suggest that GLK acts upstream of JA signalling in disease susceptibility to Hpa Noco2. In contrast, glk1 glk2 plants were more susceptible to the necrotrophic fungal pathogen Botrytis cinerea, whereas 35S:AtGLK1 plants exhibited heightened resistance which could be maintained in the absence of JA signalling. Together, the data reveal that AtGLK1 is involved in JA-dependent susceptibility to the biotrophic pathogen Hpa Noco2 and in JA-independent resistance to the necrotrophic pathogen B. cinerea.
A five parent diallel cross in flue-cured tobacco (Nicotiana tabacum L.) was grown over a 2-year period at the Delhi Research Station. Griffing's (1956) and Hayman's (1954) analyses indicated that general combining ability explained a high proportion of the variability of most of the agronomic characters, suggesting that additive gene action was the major component in determining the expression of these characters. This was substantiated by high narrow-sense heritability estimates. Specific combining ability components were small suggesting that dominance, if any, played a minor role. The WrVr graphic analysis of Hayman indicated a general lack of nonallelic interaction. Phenotypic, genotypic, and additive genetic correlations explained covariation among pairs of characteristics in an almost analogous manner. Implications of the genetic nature of variation in terms of practical utilization by the breeder are discussed.
among and between agronomic, chemical, physical and smoke characteristics in' flue-cured tobacco (Nicotiana tabacumL.). Can t3-TL denotes three top leaves after topping.
A simple, yet effective selection system was used to produce fertile somatic hybrids betweenNicotiana tabacum andN. debneyi. This approach utilized transgenic antibiotic-resistantN. tabacum andN. Debneyi as donor plants for mesophyll protoplast fusions. Thirteen somatic hybrid plants were regenerated from calli capable of growth on medium containing both antibiotics. The majority of the hybrids displayed a range of leaf and floral morphologies and growth habits that were intermediate to those of the parental species, and had chromosome numbers varying from amphidiploid (2n = 96) to hypoaneuploid (2n = 60). Isoenzyme and RFLP analysis demonstrated the presence and expression of nuclear genes from both parents in all of the hybrids. Most plants are fully fertile. Thus, these plants differ from the malesterile tobacco 'cybrids' and alloplasmic lines produced by transferring theN. debneyi cytoplasm to tobacco. A nonrandom pattern of cytoplasmic segregation in the fusion products occurred with a bias towards the presence ofN. debneyi cp and mtDNA. Evidence for the presence of rearranged or recombinant cp and mtDNA in some of the hybrids was obtained. The somatic hybrids were successfully backcrossed to theN. tabacum parent and are now being tested for immunity to black root rot, a trait specific toN. debneyi, but not existent in theN. tabacum parental line.
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