玉米MAPK家族全基因组鉴定及其对拟轮枝镰孢菌感染的响应OA
Genome-wide identification of the maize MAPK gene family and its response to Fusarium verticillioides infection
拟轮枝镰孢菌(Fusarium verticillioides)引起的穗腐病(Fusarium ear rot,FER)是在生产中影响玉米(Zea mays L.)最严重的真菌病害之一.丝裂原活化蛋白激酶(mitogen-activated protein kinase,MAPK)级联通路在植物生长、发育及胁迫响应中具有关键调控作用.研究表明,ZmMAPK通过增强防御相关基因的表达及关键酶的活性,调控对真菌病原体的抗性.尽管MAPK家族在玉米及其他植物中的功能已有较多研究,但其成员是否参与调控玉米穗腐病相关通路尚不明确.本研究对玉米ZmMAPK基因家族进行了系统分析,包括全基因组鉴定与特征分析、染色体定位、系统发育重建、共线性分析、启动子顺式作用元件预测、组织特异性表达及响应拟轮枝镰孢菌侵染表达.基于B73 参考基因组(V5)共鉴定到 24 个 MAPK 基因.系统发育分析表明,MAPK 分为 4 个亚族,同一亚族内的基因在外显子-内含子结构上高度保守.A、B和C组的MAPK蛋白均含有典型的Thr-Glu-Tyr (TEY)激活环,D组则具有Thr-Asp-Tyr (TDY)基序.MAPK家族成员的组织表达存在显著差异,暗示其功能多样化.RT-qPCR结果发现,在接种拟轮枝镰孢菌后,ZmMAPK12、ZmMAPK22、ZmMAPK23 和ZmMAPK24 等基因在玉米抗病自交系齐 319 和感病自交系B73 中呈现差异表达,序列分析进一步揭示,这些基因的启动子及编码区不仅存在 SNP 变异,同时含有转座子等结构变异,暗示它们可能参与玉米拟轮枝镰孢菌的调控通路.本研究为解析MAPK级联信号通路调控玉米穗腐病的分子机制提供了理论依据,并为玉米抗病品种的遗传改良提供了基因资源.
Fusarium ear rot(FER),caused by Fusarium verticillioides,is one of the most destructive fungal diseases limiting maize(Zea mays L.)production.The mitogen-activated protein kinase(MAPK)cascade is a central regulator of plant growth,development,and stress responses.Previous studies have shown that ZmMAPKs can enhance resistance to fungal pathogens by upregulating defense-related genes and activating key enzymes;however,the roles of individual MAPK family members in path-ways associated with FER resistance remain unclear.Here,we conducted a comprehensive analysis of the ZmMAPK gene family,including genome-wide identification and characterization,chromosomal localization,phylogenetic reconstruction,collinearity analysis,promoter cis-element prediction,tissue-specific expression profiling,and expression responses to F.verticillioides infec-tion.In total,24 MAPK genes were identified in the maize B73 reference genome(V5).Phylogenetic analysis grouped these genes into four subgroups,with highly conserved exon-intron structures within each subgroup.Groups A,B,and C contain the canonical Thr-Glu-Tyr(TEY)activation motif,whereas group D contains the Thr-Asp-Tyr(TDY)motif.Expression analyses showed pronounced tissue-specific differences,suggesting functional diversification within the family.RT-qPCR further indicated that,after F.verticillioides inoculation,ZmMAPK12,ZmMAPK22,ZmMAPK23,and ZmMAPK24 were differentially expressed between the resistant inbred line Qi 319 and the susceptible inbred line B73.Sequence comparisons revealed that,in addition to SNPs,structural variants such as transposon insertions occurred in both promoter and coding regions of these genes.Together,these results suggest that these MAPKs may participate in regulatory pathways controlling maize responses to F.verticillioides infection.This study provides a foundation for elucidating how MAPK cascades contribute to FER resistance and offers candidate genes to support genetic improvement of disease-resistant maize varieties.
孙淑凤;许振南;黄嘉鑫;翁建峰;李新海
沈阳农业大学农学院,辽宁 沈阳 110866||中国农业科学院作物科学研究所,北京 100081中国农业科学院作物科学研究所,北京 100081||中国农业科学院国家南繁研究院,海南 三亚 572000沈阳农业大学农学院,辽宁 沈阳 110866||中国农业科学院作物科学研究所,北京 100081中国农业科学院作物科学研究所,北京 100081沈阳农业大学农学院,辽宁 沈阳 110866||中国农业科学院作物科学研究所,北京 100081
玉米MAPK基因家族穗腐病拟轮枝镰孢菌表达模式
maizeMAPK gene familyFusarium ear rotFusarium verticillioidesexpression pattern
《作物学报》 2026 (5)
1291-1308,18
本研究由国家重点研发计划项目(2023YFD1201102)资助.This study was supported by the National Key Research&Development Program of China(2023YFD1201102).
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