Project Goals definition

Project Goals means the general objectives and particular needs to be met through the construction of the project.

Project Goals. The schedule, budget, physical, technical and other objectives for the Project shall be defined.

Project Goals means, with respect to a particular Project, the specific design goals with respect to binding affinity and specificity of the Antibodies to be generated and characterized by AnaptysBio in such Project, as set forth in the applicable Research Plan.

Examples of Project Goals in a sentence

• A minor weakness has a slight negative influence on the Proposer’s ability to meet the Project Goals, while a significant weakness has a considerable negative influence on the Proposer’s ability to meet the Project Goals.

• A Minor Strength has a slight positive influence on the Proposer’s ability to meet or exceed the Project Goals while a Significant Strength has a considerable positive influence on the Proposer’s ability to meet or exceed the Project Goals.

• This section shall include and be completed in the following sequence:• Project Goals and Objectives- Specifically describe how the proposed project will address the watershed goals identified in the River Basin Restoration Plan (RBRP) applicable to the project area, and the objectives that will be used to accomplish those goals.

• A minor strength has a slight positive influence on the Proposer’s ability to meet or exceed the Project Goals, while a significant strength results when a Proposer clearly demonstrates a benefit, advantage or value added that has a considerable positive influence on the Proposer’s ability to meet or exceed the Project Goals.

• It is expected that the team as proposed, should be able to deliver the Project but may not be able to meet some of the Project Goals.

More Definitions of Project Goals

Project Goals means the following goals adopted by City for the Project:

Project Goals. Identification of a [*] against [*] that blocks biological function ([*]).

Project Goals. Project is multi-benefit with the primary focus on restoration of Santa Xxxx Sandhills habitat along with the secondary benefit of fuels reduction. Treatments will remove invasive plants and reduce vegetation density to increase areas of open habitat for sand parkland species, promote disturbance-adapted species, and reduce the risks of catastrophic fire. The Sandhills are a unique ecosystem found only on outcrops of Zayante soils―a poorly developed coarse sand soil in central Santa Cruz County that supports unique assemblages of plants and animals that include seven endemic plants and animals found nowhere else in the world. Only about half of Sandhills remain undeveloped and the remaining habitat has been degraded due to invasion of exotic plants and the exclusion of a natural fire regime. These and other factors threaten the persistence of this unique ecosystem, communities, and endemic species. Project site is a 180-acre property in Felton, Santa Cruz County which is owned by the San Xxxxxxx Valley Water District (SLVWD). Site-specific project goals include: 1) the removal of invasive shrubs and trees including black locust, Portuguese broom, and French broom; 2) removal of biomass by either off-hauling or onsite processing using an air curtain burner.

Project Goals. The Master Project Schedule, Project Schedule, budget, physical, technical and other objectives for the Project shall be defined.

Project Goals. The following goals have been discussed and agreed upon in the initial meeting with the CISER statistician. The hourly quote below has been calculated according to the stated outcomes. Provide a description of the project goals CISER will be assisting with and/or completing. If you think there might be more goals beyond this initial quote, please leave them off for now.

Project Goals. The long-term goal of research in the PI’s group is to develop alternative strategies for controlling FHB and mycotoxin accumulation that complement existing control measures in wheat and barley. While breeding efforts target host genes to enhance resistance, host-induced gene silencing (HIGS) provides a parallel in planta strategy to silence expression of fungal genes to control infection and toxin accumulation. The goal of the proposed work is to test the hypothesis that HIGS of Fusarium graminearum effector-encoding genes, which are required for virulence, will adversely impact pathogenicity and thus promote resistance against F. graminearum. Two secretory protein-encoding genes will be targeted; (i) FGL1, which encodes a lipase that is required for spread of the infection on wheat, and (ii) FgNahG, which encodes an enzyme that is predicted to breakdown the defense signaling metabolite salicylic acid. The specific objectives of the project are to:

Project Goals. The long-term goal of this project is to identify native xxxxx xxxx variants that improve FHB resistance and/or reduce DON accumulation. Wheat genes that facilitate fungal growth, development and virulence provide excellent targets for controlling disease. With previous support from the USWBSI, the PI’s lab has identified 9-lipoxygenases (9-LOXs) as susceptibility factors, which when knocked down by RNA-interference (RNAi) technology in the hexaploid wheat cv Bobwhite, enhance FHB resistance. Resistance in the Lpx3-RNAi lines was characterized by lack of spread of infection from the inoculated spikelet. The goals of the proposed work are to establish whether (i) the FHB resistance promoting effect of Lpx3 knockdown is also effective in wheat backgrounds other than Bobwhite, (ii) one or more Lpx3 homeolog(s) in wheat contribute towards susceptibility to Fusarium graminearum, and (iii) nonsense and/or missense Lpx3 variants can provide a non-GMO strategy that in the future can be utilized by breeding programs to enhance FHB resistance in wheat. As a first step in this direction, several TILLING mutants that cover all three Lpx3 homeologs on chromosomes 4A, 4B and 4D have been identified in the hexaploid and tetraploid wheat varieties Cadenza and Kronos, respectively. Mutations in these TILLING lines are predicted to yield prematurely truncated Lpx3 protein, or strong missense alleles. The specific objectives of the project are to: