Switchgrass ( Panicum virgatum L.) cell suspension cultures: Establishment, characterization, and application

▶ Switchgrass cell suspension cultures from genotype Alamo 2 are developed. ▶ They are with different cell type morphologies: sandy, fine milky, and ultrafine cultures. ▶ The cell type culture sizably impacts the efficiency of protoplast isolation. ▶ The difference between these cell type cultures i...

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Bibliographic Details
Published in:Plant science (Limerick) 2011-12, Vol.181 (6), p.712-715
Main Authors: Mazarei, Mitra, Al-Ahmad, Hani, Rudis, Mary R., Joyce, Blake L., Stewart, C. Neal
Format: Article
Language:English
Subjects:
Biofuels
Cell Culture Techniques
Cell suspension cultures
Cell wall
Cells, Cultured - ultrastructure
Panicum - cytology
Protoplasts
Protoplasts - cytology
Scanning electron microscopy
Switchgrass
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Summary:▶ Switchgrass cell suspension cultures from genotype Alamo 2 are developed. ▶ They are with different cell type morphologies: sandy, fine milky, and ultrafine cultures. ▶ The cell type culture sizably impacts the efficiency of protoplast isolation. ▶ The difference between these cell type cultures is related to cell wall properties. ▶ These cell type cultures would augment switchgrass cell wall research. Switchgrass ( Panicum virgatum L.) is a warm-season perennial grass that has received considerable attention as a potential dedicated biofuel and bioproduct feedstock. Genetic improvement of switchgrass is needed for better cellulosic ethanol production, especially to improve cellulose-to-lignin ratios. Cell suspension cultures offer an in vitro system for mutant selection, mass propagation, gene transfer, and cell biology. Toward this end, switchgrass cell suspension cultures were initiated from embryogenic callus obtained from genotype Alamo 2. They have been established and characterized with different cell type morphologies: sandy, fine milky, and ultrafine cultures. Characterization includes histological analysis using scanning electron microscopy, and utility using protoplast isolation. A high protoplast isolation rate of up to 10 6 protoplasts/1.0 g of cells was achieved for the fine milky culture, whereas only a few protoplasts were isolated for the sandy and ultrafine cultures. These results indicate that switchgrass cell suspension type sizably impacts the efficiency of protoplast isolation, suggesting its significance in other applications. The establishment of different switchgrass suspension culture cell types provides the opportunity to gain insights into the versatility of the system that would further augment switchgrass biology research.
ISSN:0168-9452
1873-2259
DOI:10.1016/j.plantsci.2010.12.010