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| Web URL(s): | http://archive.lib.msu.edu/tic/ressum/2018/2018.pdf#page=16
Last checked: 05/01/2019
Requires: PDF Reader
Notes: Item is within a single large file |
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| Publication Type:
| Report |
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| Author(s): | Luo, Hong |
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| Author Affiliation: | Department of Genetics and Biochemistry, Clemson University |
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| Title: | Genetic engineering of turfgrass for enhanced multi-stress resistance |
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| Section: | Genetics and breeding
Other records with the "Genetics and breeding" Section
Cool-season grasses
Other records with the "Cool-season grasses" Section
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| Source: | Turfgrass and Environmental Research Program: 2018 Research Summaries. 2018, p. 8-9. |
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| Publishing Information: | [New York, New York]: The United States Golf Association Green Section |
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| # of Pages: | 2 |
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| Keywords: | TIC Keywords: Genetic engineering; Genetic transformation; Stress tolerance; Transgenic turfgrasses
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| Language: | English |
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| References: | 0 |
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| See Also: | Other Reports from this USGA research project: 2016-25-575 |
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| Note: | Pictures, color |
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| USGA Summary Points: | Three representative transgenic lines harboring the chimeric gene construct, p35SAVP1/Ubi-OsSIZ1/Ubi-FNR:Fld/p35S-bar, and expressing high level of the three stressrelated genes, AVP1, OsSIZ1 and Fld were grown in greenhouse and asexually multiplied for performance evaluation. Conducted drought and heat stress tolerance test with the three transgenic lines in comparison with wild type control plants and transgenic plants outperformed wild type controls, exhibiting enhanced tolerance to the stress conditions tested (examples shown in Fig. 1). Evaluation of plant response to additional abiotic stresses including salt and oxidative stress as well as P and N starvation are currently being conducted. In addition, we are also preparing to simultaneously test plant response to a combination of several different stress conditions, including salt, drought, heat, oxidative stress, P and N starvation. This would reveal how transgenic plants tolerate various environmental adversities, potentially providing new turf cultivars or foundational breeding materials for products of wide environmental adaptation. |
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| ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete):
Luo, H. 2018. Genetic engineering of turfgrass for enhanced multi-stress resistance. USGA Turfgrass Environ. Res. Summ. p. 8-9. |
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| Web URL(s):
http://archive.lib.msu.edu/tic/ressum/2018/2018.pdf#page=16
Last checked: 05/01/2019
Requires: PDF Reader
Notes: Item is within a single large file |
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MSU catalog number: b3609415 |
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