首页|期刊导航|植物学报|切花菊金扇芽变成花受阻的转录组分析

切花菊金扇芽变成花受阻的转录组分析OA

Transcriptome Analysis of the Underlying Mechanisms of Flowering Inhibition in the Bud Sport of Cut Chrysanthemum Jinshan

中文摘要英文摘要

菊花(Chrysanthemum morifolium)作为重要的观赏花卉,花期调控是影响其经济价值和市场需求的关键因素.切花菊金扇为光周期不敏感型品种,其芽变材料在正常栽培条件下持续营养生长,无法完成花芽分化,但成花障碍的具体调控机制尚不明确.为探究其潜在的异常调控机制,以切花菊金扇野生型及其芽变材料为研究对象,采用序列相关扩增多态性(SRAP)分子标记分析其遗传背景,并利用RNA-seq对叶片和茎尖组织进行转录组测序,筛选与成花相关的差异表达基因.结果表明,芽变材料与野生型的整体基因组水平高度一致,排除了基因结构变异的影响.GO和KEGG富集分析显示,叶片和茎尖样本的差异表达基因均在植物激素信号转导通路显著富集.进一步分析发现,光周期、自主和赤霉素途径中多个关键基因表达异常,可能是导致芽变材料成花受阻的重要原因.该研究从转录组水平初步揭示了金扇芽变材料成花受阻的可能作用机制,为菊花花期调控分子育种提供了理论依据和候选基因资源.

INTRODUCTION:As an important ornamental species,chrysanthemum(Chrysanthemum morifolium)depends on pre-cise flowering time regulation,which is a key factor affecting its economic value and market demand.The bud sport of cut chrysanthemum cultivar Jinshan maintains vegetative growth under normal cultivation conditions and fails to initiate re-productive transition.However,the underlying regulatory mechanisms responsible for its flowering defect remain unclear. RATIONALE:To explore the molecular basis of the flowering inhibition in the Jinshan bud sport,we conducted a com-parative analysis using both the wild type and the bud sport lines.Sequence-related amplified polymorphism(SRAP)molecular markers were used to evaluate their genetic backgrounds.In addition,transcriptome sequencing(RNA-seq)was performed on leaf and shoot apical meristem(SAM)to identify differentially expressed genes(DEGs)associated with reproductive transition. RESULTS:SRAP analysis revealed a high degree of genomic similarity between the bud sport and wild-type lines,sug-gesting that large-scale genetic structural variations are unlikely to be the cause of the floral defect.Transcriptomic analysis identified a substantial number of DEGs between the two lines.Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses indicated significant enrichment of plant hormone signal transduction pathways in both leaf and SAM.Further analysis of flowering-related regulatory networks revealed widespread transcrip-tional dysregulation.In the photoperiod pathway,abnormal expression of the CO-FT module may have impaired the perception and transmission of flowering signals.In the autonomous pathway,upregulation of MAF2(a homolog of FLC)and downregulation of FLD likely led to the repression of downstream floral integrators.In the gibberellin(GA)signaling pathway,a significant downregulation of the gibberellin receptor GID1,as well as the downregulation of the GA biosyn-thesis enzyme GA3ox and the upregulation of the GA deactivating enzyme GA2ox,may result in a reduction in active gibberellin content.In the early regulation network of flower organ formation,the expression of SOC1,AP1,FUL,AFL,and SPLs was significantly downregulated,and LFYexpression in the apical meristem was nearly absent.These changes may collectively block floral primordium formation and flower organ differentiation in the bud sport. CONCLUSION:This study reveals that the abnormal expression of multiple key genes in the photoperiod,autonomous,and gibberellin signaling pathways contribute to the failure of reproductive transition in the bud sport.These findings pro-vide preliminary insights into the potential mechanism underlying flowering inhibition in the Jinshan bud sport at the tran-scriptomic level,and provide theoretical support and candidate genes for molecular breeding of flowering time in chry-santhemum.

雷雅婷;王爽;房伟民;陈素梅;陈发棣;蒋甲福

南京农业大学园艺学院,南京 210031南京农业大学园艺学院,南京 210031南京农业大学园艺学院,南京 210031南京农业大学园艺学院,南京 210031南京农业大学园艺学院,南京 210031南京农业大学园艺学院,南京 210031

菊花开花芽变转录组分析

chrysanthemumfloweringbud sporttranscriptome analysis

《植物学报》 2026 (2)

250-263,14

国家自然科学基金(No.32430096)和中央高校基本业务费(No.QTPY2025005)

10.11983/CBB25092

评论