1993
DOI: 10.1126/science.259.5094.508
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Stress Protection of Transgenic Tobacco by Production of the Osmolyte Mannitol

Abstract: The accumulation of sugar alcohols and other low molecular weight metabolites such as proline and glycine-betaine is a widespread response that may protect against environmental stress that occurs in a diverse range of organisms. Transgenic tobacco plants that synthesize and accumulate the sugar alcohol mannitol were engineered by introduction of a bacterial gene that encodes mannitol 1 -phosphate dehydrogenase. Growth of plants from control and mannitol-containing lines in the absence and presence of added so… Show more

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Cited by 601 publications
(287 citation statements)
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“…Recently, results from metabolic engineering experiments have confirmed the functional roles for compatible osmolytes, such as mannital, proline, and betaine, in salt adaptation of high plants [1], [2], [3]. These compounds are presumed to function both in osmoprotection and osmotic adjustment.…”
Section: Introductionmentioning
confidence: 93%
“…Recently, results from metabolic engineering experiments have confirmed the functional roles for compatible osmolytes, such as mannital, proline, and betaine, in salt adaptation of high plants [1], [2], [3]. These compounds are presumed to function both in osmoprotection and osmotic adjustment.…”
Section: Introductionmentioning
confidence: 93%
“…The actual role of carbohydrates should now be determined by compartmentation studies and analytical determinations on subcellular fractions. Finally the protective effect of sugars should be confirmed by experiments aiming at changing the Eucalyptus cell carbohydrate pattern through genetic engineering, as performed in the case of mannitol for salt stress protection (Tarczynski et al, 1993). Transformation procedures for Eucalyptus are now available for this purpose (Teulikres et al, 1994).…”
Section: Discussionmentioning
confidence: 99%
“…Specialized metabolites also are the source of many of our plant‐based medicines and therefore have value to human health and well‐being (Briskin, 2000). Much attention has therefore been placed on environmental and geographic factors influencing specialized metabolite production in plants, particularly in crop species and in model plant systems (Agrawal, Conner, Johnson, & Wallsgrove, 2002; Asai, Matsukawa, & Kajiyamal, 2016; Carrari et al., 2006; Dan et al., 2016; Hirai et al., 2004; Lasky et al., 2012; Tarczynski, Jensen, & Bohnert, 1993; Riedelsheimer et al., 2012). However, the importance of natural variation in the environment in explaining metabolite variation within plant species remains little understood (Maldonado et al., 2017; Moore, Andrew, Külheim, & Foley, 2014).…”
Section: Introductionmentioning
confidence: 99%