Research Opportunity at the Department of Agriculture and Agri-Food of Canada (aafc)

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  Graduate students / étudiants des cycles supérieurs:
  

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  Visiting Scientist from a university or a research organisation/Chercheur visiteur provenant d’une université ou d’un organisme de recherche.
  

Horticulture Research and Development Centre, AAFC

Website : http://www.agr.gc.ca/science

Saint-Jean-sur-Richelieu, Québec

Phone/Téléphone : 1-450-515-2058

Other AAFC scientists/Autres chercheurs d’AAC : Yoland Dalpé, M. T. Charles, Odile Carisse, AAFC,

University partners/Partenaires universitaires : Danielle Donnelly, McGill University, Chritian Charest, University of Ottawa

Industry partners/Partenaires industriels : Fraise d’Ile d’Orleans & Lareault Nursery

Determine the effects of AMF infection on vegetative growth and root morphology of selected strawberry cultivars under different levels of salinity

(a) to evaluate the affect of AMF on vegetative growth and yield of selected strawberry lines under stress (drought/salinity).

(b) to evaluate if salinity and water stress can be overcome by selected AMF.

(c) to determine the affect of AMF on fruit quality and chemical composition including the polyphenols and a range of antioxidant.

Stress is an ever-increasing threat to agro-ecosystems due to climate change and industry pollution worldwide. Arbuscular mycorrhizal fungi (AMF) have been used as a biological and practical way to ameliorate the adverse effects of stress and improve plant productivity by many researchers. The aim of proposed research is to evaluate the potential use of selected AMF from the existing population and to study their effect on stress mainly drought and salinity on selected strawberry lines.

The candidate should have a MSc, PhD degree or post Doc (researcher) or being completing their graduate studies from a University with knowledge of tissue culture, plant breeding and laboratory experience willing to do a part of the work in field. The candidate will gain immense experience in plant improvement techniques including crossing, selection, and release of a new cultivar while studying the physiology and interaction of the plants, adverse environmental factors and AMF. He/She will be engaged in writing manuscript articles and presenting the work in different international conferences. The candidate will work on part of a large breeding program and learn how to do the crossing and selections and look for characteristics helping to breed a new line. The candidate will also have the opportunity to visit and work with other Centers and universities with whom we will collaborate during her/his internship.

The investigators (Khanizadeh and Dalpé) already have experience in evaluation of AMF in a range of crops including strawberries (Didier et al 2003; Fan et al 2010 and Khanizadeh el at 1995) and apples (Granger et al. 1995). The use of Glomeromycota collections, support and collaboration with industry and researchers will strengthen the existing competency and assure the outcome while help to train graduate student in the field biological control.

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  Graduate students / étudiants des cycles supérieurs:
  

• 
  Visiting Scientist from a university or a research organisation/Chercheur visiteur provenant d’une université ou d’un organisme de recherche. X
  

December 1^st , 2012

Saskatoon Research Centre, AAFC

Website : http://www.agr.gc.ca/science

Saskatoon, Saskatchewan

Phone/Téléphone : 1-306-956-2831

Other AAFC scientists/Autres chercheurs d’AAC : Dr. Steve Haber – Cereal virology laboratory, CRC, Winnipeg

University partners/Partenaires universitaires :

Industry partners/Partenaires industriels :

Research carried out at the Cereal Research Centre has identified, through careful selection, wheat lines possessing a stably inherited improvement to Fusarium head blight (FHB) resistance by interfering with the epigenetic information systems using viral infection. This improved phenotype was observed from among lines that originated from a single doubled-haploid seed eliminating the possibility that the phenotype is caused by genetic segregation and the high frequency with which this phenotype was observed indicate that it can not be explained by simple mutation. These data strongly suggest that the viral infection has altered the organisation of the epigenetic code from a state in which the resistance phenotype was silent to a state in which resistance is expressed, by inducing alleles already present in the doubled-haploid parent.

This project will confirm that these observations are due to epigenetic changes and will identify the genes controlling this valuable trait. Additionally, the underlying molecular mechanisms regulating those genes will be characterised. The project will assess the changes in gene expression patterns using bulked-segregant analysis to target the underlying genes responsible for this phenotype. The extent of the variation in the patterns of epigenetic marks among individuals within this population will be assayed along with the degree to which these patterns affect the resistance phenotype and the extent to which the epigenetic marks linked to the superior phenotype are inherited.
Value of the Opportunity (issue, results, outcomes)/Valeur de l’opportunité (problème, résultats, retombées):

The successful candidate will join an epigenetics laboratory to study the underlying molecular factors regulating gene expression causing resistance to Fusarium head blight (FHB) in wheat. The candidate will work closely with experts in the Cereal virology laboratory at the Cereals Research Centre, Winnipeg. FHB causes tremendous losses by reducing grain yield and quality in many wheat producing regions and is one of the most serious diseases affecting wheat in Canada. There is a dearth of resistance sources available to breeders and where they have been identified they are associated with poor agronomic and quality traits required by the industry. The use of novel approaches to modify the level of gene expression from existing alleles present within a single seed from a Canadian doubled-haploid wheat cultivar has, after careful selection, generated germplasm with an increased resistance to FHB. This variation has been fixed and transmitted through meiosis to successive generations. This improvement in FHB resistance has been achieved along with the maintenance of the valuable quality traits originally selected for by breeders in this line. The selected candidate will utilise the latest genomics technologies to identify the genes involved and investigate the changes in the epigenetic landscape that have resulted in the uncovering of this hitherto hidden trait. This will allow the identification of the genomic regions controlling FHB resistance and ultimately the nature of the epialleles that have been stably inherited. The characterisation of this phenomena has profound implications to future strategies employed towards crop improvement

The candidate should be highly self-motivated, possess excellent communication and interpersonal skills and provide evidence of their research accomplishments. It is essential for the candidate to be proficient in the English language, being able to communicate effectively in written and orally form. Ideally, the candidate would have recently completed their Ph.D. working in the field of botany, plant molecular genetics, molecular biology or genetics. However, candidates that wish to pursue the research components of their graduate studies will be considered for this two year position.