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Surrogate transformation of perennial ryegrass,Lolium perenne, using genetically modifiedAcremonium endophyte (1992)

Murray, Fiona R. ; Latch, Garrick C. M. ; Scott, D. Barry

Springer

Molecular genetics and genomics 233 (1992), S. 1-9

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ISSN: 1617-4623

Keywords: Acremonium sp. ; Transformation ; Chromosomal karyotype ; Surrogate grass transformation ; uidA andhph genes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Conditions have been developed for transforming protoplasts of the perennial ryegrass endophyteAcremonium strain 187BB. Unlike most other ryegrass endophytes, this strain does not produce the lolitrem B neurotoxin and is therefore suitable as a host for surrogate introduction of foreign genes into grasses. Transformation frequencies of 700–800 transformants/μg DNA were obtained for both linear and circular forms of pAN7-1, a hygromycin (hph) resistant plasmid. Up to 80% of the linear transformants were stable on further culturing but only 25% of the circular transformants retained hygromycin resistance. Integration of pAN7-1 into the genome was confirmed by Southern blotting and probing of genomic digests of transformant DNA. Both single and tandemly repeated copies of the plasmid were found in the genome and both the number and sites of integration varied among the transformants. At least 13 chromosomes were identified in 187BB using contour-clamped homogeneous electric field (CHEF) gel electrophoresis. Probing of Southern blots of these gels confirmed that pAN7-1 had integrated into different chromosomes. The β-glucuronidase (GUS) gene,uidA, was also introduced into 187BB by co-transformation of pNOM-2 with pAN7-1. GUS activity was detected by growing the transformants on plates containing 5-bromo-4-chloro-3-indolyl β-D-glucuronic acid and by enzyme assays of mycelial extracts. Severalhph- anduidA-containing transformants were reintroduced into ryegrass seedlings and expression of GUS visualized in vivo, demonstrating that 187BB can be used as a surrogate host to introduce foreign genes into perennial ryegrass. Molecular analysis of fungal isolates from the leaf sheath confirmed that the pattern of pAN7-1 and pNOM-2 hybridizing fragments was identical to that observed in the fungus used as inoculum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00587554

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Expression of the Talaromyces flavus glucose oxidase gene in cotton and tobacco reduces fungal infection, but is also phytotoxic (1999)

Murray, Fiona ; Llewellyn, Danny ; McFadden, Helen ; [et al.]

Springer

Molecular breeding 5 (1999), S. 219-232

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ISSN: 1572-9788

Keywords: disease resistance ; glucose oxidase ; Gossypium hirsutum ; Nicotiana tabacum ; Talaromyces flavus ; transgenic plant

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Glucose oxidase secreted by the fungus Talaromyces flavus generates, in the presence of glucose, hydrogen peroxide that is toxic to phytopathogenic fungi responsible for economically important diseases in many crops. A glucose oxidase gene from T. flavus, was modified with a carrot extensin signal peptide and fused to either a constitutive or root-specific plant promoter. T1 tobacco plants expressing the enzyme constitutively were protected against infection by the seedling pathogen Rhizoctonia solani. Constitutive expression in tobacco was associated with reduced root growth, and slow germination on culture medium, and with reduced seed set in glasshouse conditions. Several independent transformed cotton plants with a root-specific construct expressed high glucose oxidase activity in the roots, excluding the root tip. Selected T3 homozygous lines showed some protection against the root pathogen, Verticillium dahliae, but not against Fusarium oxysporum. High levels of glucose oxidase expression in cotton roots were associated with reduced height, seed set and seedling germination and reduced lateral root formation. If this gene is to be of value for crop protection against pathogens it will require precise control of its expression to remove the deleterious phenotypes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009625801909

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