Integrated multi-omics approach to reveal the molecular networks underlying the seed germination of Polygonatum cyrtonema

Abstract: Background Polygonatum cyrtonema (P. cyrtonema), a famous traditional medicinal resource for over two thousand years in China, is in high demand with the vigorous development of the health industry. The rhizome propagation could easily lead to germplasm degradation, severe pests, diseases, etc., and thus, the seed propagation method is a superior alternative to artificially cultivating seedlings on a large scale. However, the seeds of P. cyrtonema need at least two years dormancy period under natural circums… Show more

“…Notably, Ah.W977IP and Ah.NG0Q3I which have higher expression in early developmental stages of peanut seed ( Figure 6 ), also matched with sucrose accumulation pattern ( Li et al., 2021 ). Ah.W977IP and Ah.NG0Q3I both encoded alpha-xylosidase 1 which is a Glycosyl Hydrolase 31 (GH31) family member and related to starch and sucrose metabolism ( Cuebas-Irizarry et al., 2017 ; Xu et al., 2023 ). Thus, they may also be the candidate genes for sucrose content and soluble content in peanut kernels.…”

Identification of a major QTL underlying sugar content in peanut kernels based on the RIL mapping population

“…Notably, Ah.W977IP and Ah.NG0Q3I which have higher expression in early developmental stages of peanut seed ( Figure 6 ), also matched with sucrose accumulation pattern ( Li et al., 2021 ). Ah.W977IP and Ah.NG0Q3I both encoded alpha-xylosidase 1 which is a Glycosyl Hydrolase 31 (GH31) family member and related to starch and sucrose metabolism ( Cuebas-Irizarry et al., 2017 ; Xu et al., 2023 ). Thus, they may also be the candidate genes for sucrose content and soluble content in peanut kernels.…”

Identification of a major QTL underlying sugar content in peanut kernels based on the RIL mapping population