Unveiling the genetic basis of floral scent formation in roses using weighted gene co-expression and protein-protein interaction network analyses
文献类型: 外文期刊
作者: Xu, Chan 1 ; Chen, Yuan 2 ; Xie, Qiaoli 1 ; Hu, Zongli 1 ; Guo, Hang 2 ; Chen, Guoping 1 ; Tian, Shibing 2 ;
作者机构: 1.Chongqing Univ, Coll Bioengn, Chongqing 400000, Peoples R China
2.Chongqing Acad Agr Sci, Inst Vegetables & Flowers, Chongqing 400000, Peoples R China
关键词:
期刊名称:SCIENTIFIC REPORTS ( 影响因子:3.9; 五年影响因子:4.3 )
ISSN: 2045-2322
年卷期: 2025 年 15 卷 1 期
页码:
收录情况: SCI
摘要: Rosa species hold considerable economic and medicinal importance, used in traditional medicine, essential oils, and landscaping. However, the mechanisms of floral scent formation in roses are not well understood, hindering genetic improvement. To bridge this gap, we conducted a combined transcriptome and metabolome analysis, identifying nine key fragrance compounds. Using Weighted Gene Co-expression Network Analysis (WGCNA), we linked 574 genes to these compounds. From these, we identified candidate genes through differential expression, functional annotations, and protein-protein interaction (PPI) networks. We predicted candidate genes, NUDIX1, NUDIX2, GERD, AFS1, AFS2, CYP82G1, HMG1, NCED2, CCD7, PSY, ICMEL2, MAD1, and MAD2 that might terpenoid-related genes, as well as potential benzenoid/phenylpropanoid-related candidate genes, DET2, DET3, ICS2, PAL1, UGT74B1, MYB330, GST, CAD1, HST, PCBER1, LAC15, CSE, PER25, PER47, PER63, FBA, LNK2, PRE1, and PRE6. Additionally, three function-unknown genes, LOC112167529, LOC112174760, and LOC112183447, were predicted as candidate genes potentially involved in the formation of floral scent.
- 相关文献
作者其他论文 更多>>
-
Overexpression of SlIMP3 regulates sugar metabolism, antioxidant activity, and fruit softening, leading to extended shelf life of tomato fruits
作者:Yang, Qiqi;Han, Jiarui;Xie, Qiaoli;Yang, Qiqi;Han, Jiarui;Xie, Qiaoli;Zheng, Xianzhe;Zheng, Xianzhe;Fang, Xu;Zhang, Qiongdan;Deng, Jie;Deng, Wei;Zheng, Xianzhe;Fang, Xu;Zhang, Qiongdan;Deng, Jie;Deng, Wei;Xu, Chan
关键词:Tomato; SlIMP3; Transcriptome; Metabolome; Fruit softening
-
Evaluation of Peaonia ostii 'Fengdan' resources considering production area, plant age, harvest time, and genotype
作者:Shang, Guoqiang;Wang, Shunli;Xue, Jingqi;Tian, Caihuan;Ren, Xiuxia;Zhang, Xiuxin;Shang, Guoqiang;Xue, Jingqi;Tian, Caihuan;Ren, Xiuxia;Zhang, Xiuxin;Xue, Jingqi;Ren, Xiuxia;Zhang, Xiuxin;Chen, Yuan
关键词:Tree peony; Cortex Moutan; Resource assessment; Paeonol
-
Genome-Wide Identification and Expression Analysis of Hexokinase Gene Family Under Abiotic Stress in Tomato
作者:Li, Jing;Xie, Qiaoli;Yang, Yingwu;Chen, Guoping;Hu, Zongli;Li, Jing;Yao, Xiong;Zhang, Xianwei;Zhang, Jianling;Li, Maoyu
关键词:tomato; hexokinase; molecular characterization; expression pattern; abiotic stress
-
Eggplant NAC domain transcription factor SmNST1 as an activator promotes secondary cell wall thickening
作者:Wang, Jiali;Zhang, Xinxin;Yang, Huiqin;Li, Sirui;Hu, Yao;Wei, Dayong;Tang, Qinglin;Wang, Zhimin;Wang, Jiali;Zhang, Xinxin;Yang, Huiqin;Li, Sirui;Hu, Yao;Wei, Dayong;Tang, Qinglin;Wang, Zhimin;Yang, Yang;Tian, Shibing
关键词:NAC transcription factors; SCW biosynthesis; SmMYB108; SmMYB26; SmNST2
-
Whether niche changes promote the evolution of species: a case study of Paeonia in Asia and North America
作者:Wang, Yihui;Lyu, Yingmin;Wang, Yihui;Tian, Caihuan;Zhang, Xiuxin;Chen, Yuan;Prijic, Zeljana;Markovic, Tatjana
关键词:phylogenetic relationship; Paeoniaceae;
Paeonia ; niche change; niche -
Novel Insights into Pigment Composition and Molecular Mechanisms Governing Flower Coloration in Rose Cultivars Exhibiting Diverse Petal Hues
作者:Cheng, Yingxia;Tian, Yanling;Guo, Pengyu;Luo, Junjie;Chen, Guoping;Xie, Qiaoli;Hu, Zongli;Cheng, Yingxia;Tian, Yanling;Guo, Pengyu;Luo, Junjie;Chen, Guoping;Xie, Qiaoli;Hu, Zongli;Xu, Chan;Zhang, Yang
关键词:rose (
Rosa hybrid ); anthocyanin biosynthesis; carotenoid biosynthesis; metabolome; transcriptome; transcription factors -
The regulatory roles of MYC TFs in plant stamen development
作者:Li, Sirui;Hu, Yao;Yang, Huiqin;Wei, Dayong;Tang, Qinglin;Wang, Zhimin;Li, Sirui;Hu, Yao;Yang, Huiqin;Wei, Dayong;Tang, Qinglin;Wang, Zhimin;Tian, Shibing;Yang, Yang
关键词:Anther; Jasmonate; MYC transcription factor; Phytohormone; Pollen; Stamen development
