AI Article Synopsis
- Bioenergy sorghum hybrids are being created to be more drought-resistant and have higher sugar content in their stems, which is crucial for energy production.
- Raffinose family oligosaccharides (RFOs) are important for plant stress tolerance and sugar metabolism, and researchers studied the genes related to these compounds in sorghum throughout its development.
- Key findings include that RFO biosynthesis genes are primarily active in leaves during the morning, suggesting a sophisticated system where sugars are produced and transported efficiently throughout the plant for energy storage and transport.
Article Abstract
Bioenergy sorghum hybrids are being developed with enhanced drought tolerance and high levels of stem sugars. Raffinose family oligosaccharides (RFOs) contribute to plant environmental stress tolerance, sugar storage, transport, and signaling. To better understand the role of RFOs in sorghum, genes involved in -inositol and RFO metabolism were identified and relative transcript abundance analyzed during development. Genes involved in RFO biosynthesis () were more highly expressed in leaves compared to stems and roots, with peak expression early in the morning in leaves. and were also expressed at high levels in the leaf collar and leaf sheath. In leaf blades, genes involved in -inositol biosynthesis () were expressed in bundle sheath cells, whereas genes involved in galactinol and raffinose synthesis () were expressed in mesophyll cells. and , genes that encode neutral-alkaline alpha-galactosidases that hydrolyze raffinose, were differentially expressed in minor vein bundle sheath cells and major vein and mid-rib vascular and xylem parenchyma. This suggests that raffinose synthesized from sucrose and galactinol in mesophyll cells diffuses into vascular bundles where hydrolysis releases sucrose for long distance phloem transport. Increased expression (>20-fold) of and in stem storage pith parenchyma of sweet sorghum between floral initiation and grain maturity, and higher expression in sweet sorghum compared to grain sorghum, indicates these genes may play a key role in non-structural carbohydrate accumulation in stems.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9785717 | PMC |
| http://dx.doi.org/10.3389/fpls.2022.1062264 | DOI Listing |
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