Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
under the R&D project “BacterYeas2HORT: Bacteria/yeast-loaded microparticles for non-toxic biofertilization and increased tolerance to abiotic stress: adapting horticulture to climate change
-
interaction methods like the split ubiquitin yeast-two hybrid method and SIM microscopy training will be needed. The individual will report directly to the laboratory Principle Investigator (PI). The position
-
form, available at: https://uoft.me/CUPE-3902-Unit-3-Application-Form ; 2) a cover letter; and 3) a c.v. that includes evidence of expertise in genome sequencing, analysis, and yeast biology, as
-
Pol I and Pol III assembly in yeast by a putatively co-translational mechanism. To explore this, we will first use a top-down approach extracting material from living cells to characterize the targeted
-
of the software infrastructure for harmonized information about model organisms (yeast, C. elegans, fruit flies, zebrafish, mouse, rat). The individual will work in a nimble team to develop new software and will be
-
Scientist for a NIH R01 funded project. The group’s research focuses on the effect of host iron on microbial pathogenesis and innate immunity during oropharyngeal candidiasis caused by the pathogenic yeast
-
-conventional microorganisms such as Pseudomonas spp. , Streptomyces spp. , oleaginous yeast such as Yarrowia lipolytica , black yeast (e.g. Exophiala viscosa ), or Fusarium graminearum Species Complex. Python
-
biochemistry techniques routinely used in MPMI studies (i.e. protein expression, yeast two hybrids, and Co-immunoprecipitation studies) demonstrated by publications. Additional work experience or knowledge about
-
utilizing biocatalysts such as bacteria, algae, yeasts, fungi, animal cells, and enzymes, and building upon a strong combination of core process engineering, (synthetic) biology and computational expertise
-
an exciting opportunity to work at the intersection of microbial genomics, plant pathology, and sustainable agriculture. The project aims to identify elite strains of the yeast-like biocontrol fungus