Sequence and distribution of the Neotyphodium lolli peptide synthetase gene lpsA

Damrongkool, Prapassorn,

January 2003

Thesis (Ph. D.)--West Virginia University, 2003. / Title from document title page. Document formatted into pages; contains ix, 134 p. : ill. (some col.). Vita. Includes abstract. Includes bibliographical references.

Untersuchungen zur Physiologie und Biochemie von Lolinalkaloiden in der Festuca-pratensis-Neotyphodium-uncinatum-Assoziation

Justus, Matthias.

Unknown Date

Techn. Universiẗat, Diss., 2000--Braunschweig.

COEVOLUTION AND GENETIC DIVERSITY IN GRASS-ENDOPHYTE SYMBIOSES

Craven, Kelly D.

01 January 2003

Symbioses between cool-season grasses (Subfamily Pooideae) and endophytic fungi in the genera Epichlo and Neotyphodium straddle a continuum of interactions from antagonistic to highly mutualistic. Although these two genera of endophytes are closely related, Neotyphodium endophytes are strictly seed-transmitted and provide many physiological and defensive benefits to their hosts, while Epichlo spp. have an obligately sexual contagious stage wherein host inflorescences are replaced by fungal sexual structures (stromata), effectively sterilizing the plant. Between these two extremes of interactions are Epichlo spp. with a mixed strategy, where some grass tillers are sterilized while others develop normally and yield healthy endophyte-infected seeds. These symbioses offer a unique opportunity to dissect evolutionary mechanisms that may drive movement along this continuum. The research presented characterizes distinct hybridization processes in endophytes and grasses that result in the generation of astounding genetic diversity for the symbiosis. Interspecific hybridization via hyphal anatomosis is a common feature of Neotyphodium endophytes, and may promote mutualism by combining suites of defensive alkaloid genes and ameliorating the adverse evolutionary effects of an asexual lifestyle. My results demonstrate that several genetically distinct hybrid endophytes infect grass species in tribe Poeae. Further, I show that a highly mutualistic asexual endophyte infecting tall fescue (=Festuca arundinaceum Schreb.), Neotyphodium coenophialum, also infects two closely related and interfertile relatives of this host. My findings suggest that this seed-borne endophyte may have been introgressed into these grasses through sexual grass hybridization events. These findings highlight interspecific hybridization as a means of generating tremendous genetic variability in both endophytes and their hosts, thus magnifying the adaptive evolutionary potential of these symbioses. Further, I establish a phylogenetic framework for grasses naturally harboring Epichlo and Neotyphodium endophytes. I show that patterns of genetic divergence among grass lineages are emulated by those of their fungal symbionts. These results suggest that endophytes have co-evolved with grasses in subfamily Pooideae, and may have played a critical role in the evolutionary success and radiation of this group of grasses.

Ergot alkaloids and herbivory in model animals and variation in an ergot alkaloid biosynthesis gene

Sedlock, Andrea B.

January 2003

Thesis (M.S.)--West Virginia University, 2003. / Title from document title page. Document formatted into pages; contains viii, 62 p. : ill. (some col.) Vita. Includes abstract. Includes bibliographical reference.

The development of new inoculation techniques and viability tests for Neotyphodium endophytes

Gillanders, Timothy James

January 2007

Neotyphodium endophytes (Claviceptaceae) are asexual filamentous fungi found living between the cells of many cool season forage grasses including tall fescue, meadow fescue and perennial ryegrass. They produce a range of alkaloids, including ergovaline and lolitrem B, which have been shown to be directly associated with the livestock disorders fescue toxicosis and ryegrass staggers syndrome, while others, including peramine and the lolines, have been linked to increased insect and drought resistance of the grass host. In the past decade, the Neotyphodium strains AR1, MaxQ and MaxP were selected because they did not produce the alkaloids associated with livestock disorders. Subsequently, artificial associations were established between them and commercial forage grass cultivars. The slow growth rate of Neotyphodium endophytes in vitro and the low success rate of the present methods for establishing artificial associations between endophytes and grass hosts are limiting the rate at which new novel endophytes can be incorporated into plant breeding programs and eventually commercialised. In this thesis, the type and concentration of the growth medium was shown to affect radial growth rate, colony appearance and mycelial morphology of three strains of Neotyphodium endophytes. The floret inoculation of meadow fescue with the U2 strain of N. uncinatum using several techniques involving liquid culture was attempted but was unsuccessful in creating any artificial associations. Neotyphodium endophytes are unstable in stored seed. In New Zealand, it is critical that pastures are infected with protective Neotyphodium endophytes to ensure that they will not be destroyed by exotic pests. The present methods for determining the percentage of viable endophyte infection of a seed lot are too slow for efficient use in the commercial seed industry. In this thesis, primers specific to the â-tubulin gene of N. coenophialum, N. lolii and N. uncinatum were designed and successfully used to detect these species in planta. However, using these primers to develop a method to accurately determine the viable endophyte infection rate of a seed lot using RT-qPCR was unsuccessful.

Neotyphodium

Festuca

RT-PCR

Fungi

Lolium

The development of new inoculation techniques and viability tests for Neotyphodium endophytes

Gillanders, Timothy James

January 2007

Neotyphodium endophytes (Claviceptaceae) are asexual filamentous fungi found living between the cells of many cool season forage grasses including tall fescue, meadow fescue and perennial ryegrass. They produce a range of alkaloids, including ergovaline and lolitrem B, which have been shown to be directly associated with the livestock disorders fescue toxicosis and ryegrass staggers syndrome, while others, including peramine and the lolines, have been linked to increased insect and drought resistance of the grass host. In the past decade, the Neotyphodium strains AR1, MaxQ and MaxP were selected because they did not produce the alkaloids associated with livestock disorders. Subsequently, artificial associations were established between them and commercial forage grass cultivars. The slow growth rate of Neotyphodium endophytes in vitro and the low success rate of the present methods for establishing artificial associations between endophytes and grass hosts are limiting the rate at which new novel endophytes can be incorporated into plant breeding programs and eventually commercialised. In this thesis, the type and concentration of the growth medium was shown to affect radial growth rate, colony appearance and mycelial morphology of three strains of Neotyphodium endophytes. The floret inoculation of meadow fescue with the U2 strain of N. uncinatum using several techniques involving liquid culture was attempted but was unsuccessful in creating any artificial associations. Neotyphodium endophytes are unstable in stored seed. In New Zealand, it is critical that pastures are infected with protective Neotyphodium endophytes to ensure that they will not be destroyed by exotic pests. The present methods for determining the percentage of viable endophyte infection of a seed lot are too slow for efficient use in the commercial seed industry. In this thesis, primers specific to the â-tubulin gene of N. coenophialum, N. lolii and N. uncinatum were designed and successfully used to detect these species in planta. However, using these primers to develop a method to accurately determine the viable endophyte infection rate of a seed lot using RT-qPCR was unsuccessful.

Neotyphodium

Festuca

RT-PCR

Fungi

Lolium

Loline alkaloid biosynthesis in neotyphodium uncinatum, a fungal endophyte of lolium pratense

Blankenship, Jimmy Douglas.

January 2004

Thesis (Ph. D.)--University of Kentucky, 2004. / Title from document title page (viewed Sept. 14, 2004). Document formatted into pages; contains ix, 97 p. : ill. Includes abstract and vita. Includes bibliographical references (p. 86-96).

Effect of nitric oxide donors on thermoregulation and performance of rats and cattle experiencing fescue toxicosis during heat stress /

Al-Tamimi, Hosam J.

January 2002

Thesis (Ph. D.)--University of Missouri-Columbia, 2002. / Typescript. Vita. Includes bibliographical references (leaves 291-317). Also available on the Internet.

Effect of nitric oxide donors on thermoregulation and performance of rats and cattle experiencing fescue toxicosis during heat stress

Al-Tamimi, Hosam J.

January 2002

Thesis (Ph. D.)--University of Missouri-Columbia, 2002. / Typescript. Vita. Includes bibliographical references (leaves 291-317). Also available on the Internet.

STUDIES OF ERGOT ALKALOID BIOSYNTHESIS GENES IN CLAVICIPITACEOUS FUNGI

Machado, Caroline

01 January 2004

Neotyphodium species, endophytic fungi associated with cool-season grasses, enhance host fitness and stress tolerance, but also produce biologically active alkaloids including ergot alkaloids associated with fescue toxicosis in grazing animals. One approach to reduce fescue toxicosis is to manipulate genes in the ergot alkaloid pathway. The gene, dmaW, encoding the first pathway-specific step in ergot alkaloid biosynthesis, was cloned previously from Claviceps spp. and its function was demonstrated by expression in yeast. Putative homologs have been cloned from Neotyphodium coenophialum (from tall fescue) and Neotyphodium sp. Lp1 (from perennial ryegrass). In order to confirm the function of dmaW in ergot alkaloid production, dmaW in Neotyphodium sp. isolate Lp1 was knocked out by gene replacement. The dmaW knockout mutant produced no detectable ergovaline or simpler ergot alkaloids. Complementation with Claviceps fusiformis dmaW restored ergovaline production. These results confirmed that the cloned endophyte gene was dmaW, and represented the first genetic experiments to show the requirement of dmaW for ergot alkaloid biosynthesis. Neotyphodium coenophialum, endophyte of the grass tall fescue (Lolium arundinaceum) has two homologs of dmaW. Considering the possible field applications in future, the Cre/lox site-specific recombination system was chosen because of the potential to sequentially knock out both homologs and obtain marker-free dmaW mutants of N. coenophialum. One homolog, dmaW-2, was disrupted by marker exchange, and the marker was eliminated by Cre, thus demonstrating the application of Cre/lox system in N. coenophialum to eliminate a marker gene. The dmaW-2 knockout did not eliminate ergovaline production, indicating that the dmaW-1 was probably also active in N. coenophialum. A putative ergot alkaloid biosynthesis gene cluster was identified in Claviceps purpurea and C. fusiformis. C. purpurea and C. fusiformis produce different subsets of ergot alkaloids. Identification of nine common genes between them suggests the possible role of these genes in the early part of the ergot alkaloid biosynthetic pathway.