@article{jfnr20231115,
author={{Yong, Shen Hui and Noor, Hafeez and Dexuan, Dang and Haiyan, Gao and Peng, Liu and qing, Zhang Yuan and Qingjun, Cheng},
title={Sweet Sorghum (<i>Sorghum bicolor</i> L.) Cloning and Functional Analysis of Callose Gene <i>SbGlu1</i> in Protein Content},
journal={Journal of Food and Nutrition Research},
volume={11},
number={1},
pages={46--56},
year={2023},
url={http://pubs.sciepub.com/jfnr/11/1/5},
issn={2333-1240},
abstract={The Sweet sorghum (<i>Sorghum bicolor</i> L.) Moench is a variant of grain sorghum, which origins in Africa. Due to its high sugar and tolerance, it has been considered as a potentially useful energy crop and received more attention. However, less study on sweet sorghum has been performed in physiology and molecular by Al stress. These results illustrated that the decrease of ¦Â-1,3-glucanase activity by Al could lead to callose accumulation. In POTCHETSTRM, five ¦Â-1,3-glucanase genes expression were up-regulated, and a gene expression was down-regulated. In ROMA, only one ¦Â-1,3-glucanase gene, <i>SbGlu1</i> (<i>Sb03g045630.1</i>) expressed response to Al, and the expression was higher in ROMA than in POTCHETSTRM. The expression levels of six callose synthase-like genes were very low exposure of 10 ¦ÌM Al upon to 24 h in ROMA, but POTCHETSTRM exhibited the highest expression level only at 24 h. Therefore, callose synthase-like genes maybe regulate callose deposition in the later stage of Al stress in sweet sorghum. The <i>SbGlu1</i> expression positively correlated with callose content in both cultivars. The <i>SbGlu1</i> expression maybe involve in callose degradation in sweet sorghum by Al stress. The full-length cDNAs of <i>SbGlu1</i> were cloned from the root tips of both ROMA and POTCHETSTRM, respectively. The <i>SbGlu1 </i>were transient expressed in onion epidermal cells for subcellular localization, showed that SbGLU1 is soluble with no specificity localization.},
doi={10.12691/jfnr-11-1-5}
publisher={Science and Education Publishing}
}