Marigold black spot caused by Alternaria tagetica is a major disease that can decrease marigold production by 40%,resulting in serious economic losses.In this study,we identified many genes responsive to A.tagetica in...Marigold black spot caused by Alternaria tagetica is a major disease that can decrease marigold production by 40%,resulting in serious economic losses.In this study,we identified many genes responsive to A.tagetica in the resistant and susceptible marigold genotypes.Analyses of differentially expressed genes,expression trends,and a weighted gene co-expression network revealed a series of hub genes with key roles in different A.tagetica infection stages.Additionally,1216 unigenes encoding transcription factors from eight families were differentially expressed between Ts and Ma.Moreover,R genes fromvarious families(e.g.,N,NL,RLP,and TNL)were differentially expressed in the twomarigold genotypes before and after the inoculation with A.tagetica.Pathway diagrams were used to visualize the leaf transcriptional changes in the two marigold genotypes infected by A.tagetica to clarify the effects of A.tagetica on the expression patterns of genes involved in phosphatidylinositol signaling,plant–pathogen interactions,and plant hormone signal transduction.We identified candidate genes related to disease resistance and generated valuable resources for analyzing the candidate gene functions related to black spot resistance in marigold.The study data may be useful for the molecular marker-assisted screening and breeding of marigold lines with increased disease resistance.展开更多
Chrysanthemum and Opisthopappus are genera that include perennial herbaceous floral species,including excellent varieties with strong fragrances resulting from long-term artificial selection.Thus,they are ornamentally...Chrysanthemum and Opisthopappus are genera that include perennial herbaceous floral species,including excellent varieties with strong fragrances resulting from long-term artificial selection.Thus,they are ornamentally and economically important flower resources.In this study,a water distillation method was used to extract essential oils from the inflorescences of Chrysanthemum and Opisthopappus wild resources and hybrid progeny with high essential oil contents(Chrysanthemum morifolium'xiangjin',C.morifolium'xiangyun',C.morifolium'xinjiboju',Opisthopappus taihangensis,Opisthopappus longilobus,Chrysanthemum lavandulifolium,and C.morifolium'minghuangju').The essential oil extraction rates were as follows:1.17‰,2‰,1.67‰,2.17‰,0.43‰,1‰,and 1.17‰.On the basis of HS-SPME-GC-MS(Headspace solid phase microextraction-gas chromatography-mass spectrometry),225 volatile compounds were detected in the seven analyzed essential oil samples.Each essential oil had a relative volatile component content exceeding 0.3.The three most abundant compounds were olefins(46 types),alcohols(34 types),and esters(18 types).The volatile components with relatively high contents included thymol,D-camphor,pinene,eucalyptol,2-terpineol,terpineol,trans-caryophyllene,andβ-elemene.These volatile compounds have strong biological activities and are useful components of medicines and daily-use products.An evaluation of their antibacterial effects demonstrated that the essential oils of C.'xiangjin',C.'xiangyun',C.'xinjiboju',O.taihangensis,O.longilobus,and C.'minghuangju'inhibited the growth of Escherichia coli.The C.lavandulifolium essential oil inhibited the growth of Pectobacterium carotovorum.The results of this study will provide researchers with an important theoretical basis for the development and application of Chrysanthemum and Opisthopappus essential oils.展开更多
To further test the accuracy and rationality of the Chinese classification system for chrysanthemum(Chrysanthemum morifolium), 10 simple sequence repeat(SSR) markers were used to identify a collection of 88 chrysanthe...To further test the accuracy and rationality of the Chinese classification system for chrysanthemum(Chrysanthemum morifolium), 10 simple sequence repeat(SSR) markers were used to identify a collection of 88 chrysanthemum and its related genera accessions. In total, 42 effective alleles across 88 accessions were detected; 3 429 bands were obtained by PCR amplification, including 2 630 polymorphic bands. The similarity coefficient ranged from 0.53 to 0.88. Cluster analysis based on UPGMA illustrated that the wild species and large-flower cultivars were first divided into two clusters, then the large-flower cultivars formed five distinct groups according to petal type, indicated that petal type can be a classification criterion. In the wild species cluster, C. vestitum and C. zawadaskii grouped with A. trilobata, suggested that the Ajania genera was closely related to the Chrysanthemum genera. ‘Hangbaiju’, ‘Gongju’ and ‘Chuju’ were grouped together, and ‘Boju’, O. longilobus and C. mongolicum constituted another branch, showed a correlation with geographic region of origin. Population structure analysis was subsequently performed with K values ranging from 2 to 10, and the most likely estimate for the population structure is five subpopulations, which is nearly consistent with the clustering results. Principle component analysis was further performed to verify the classification results. The results showed that these SSR markers are very powerful for studying genetic relationships and will be useful tools in the identification and classification of chrysanthemum.展开更多
基金supported by grants from National Natural Science Foundation of China(Grant Nos.32102412)Beijing Academy of Agriculture and Forestry Sciences(Grant Nos.KJCX20220103)Modern Agricultural Industry Technology System Beijing Municipal Landscape Leisure Agriculture Innovation Team Project.
文摘Marigold black spot caused by Alternaria tagetica is a major disease that can decrease marigold production by 40%,resulting in serious economic losses.In this study,we identified many genes responsive to A.tagetica in the resistant and susceptible marigold genotypes.Analyses of differentially expressed genes,expression trends,and a weighted gene co-expression network revealed a series of hub genes with key roles in different A.tagetica infection stages.Additionally,1216 unigenes encoding transcription factors from eight families were differentially expressed between Ts and Ma.Moreover,R genes fromvarious families(e.g.,N,NL,RLP,and TNL)were differentially expressed in the twomarigold genotypes before and after the inoculation with A.tagetica.Pathway diagrams were used to visualize the leaf transcriptional changes in the two marigold genotypes infected by A.tagetica to clarify the effects of A.tagetica on the expression patterns of genes involved in phosphatidylinositol signaling,plant–pathogen interactions,and plant hormone signal transduction.We identified candidate genes related to disease resistance and generated valuable resources for analyzing the candidate gene functions related to black spot resistance in marigold.The study data may be useful for the molecular marker-assisted screening and breeding of marigold lines with increased disease resistance.
基金supported by the National Natural Science Foundation of China(31901354)the Innovation Foundation of the Beijing Academy of Agriculture and Forestry Sciences(KJCX20200112)the Science and Technology Innovation Capacity Construction Project of the Beijing Academy of Agriculture and Forestry Sciences(KJCX20200113-30 and KJCX20200302-03).
文摘Chrysanthemum and Opisthopappus are genera that include perennial herbaceous floral species,including excellent varieties with strong fragrances resulting from long-term artificial selection.Thus,they are ornamentally and economically important flower resources.In this study,a water distillation method was used to extract essential oils from the inflorescences of Chrysanthemum and Opisthopappus wild resources and hybrid progeny with high essential oil contents(Chrysanthemum morifolium'xiangjin',C.morifolium'xiangyun',C.morifolium'xinjiboju',Opisthopappus taihangensis,Opisthopappus longilobus,Chrysanthemum lavandulifolium,and C.morifolium'minghuangju').The essential oil extraction rates were as follows:1.17‰,2‰,1.67‰,2.17‰,0.43‰,1‰,and 1.17‰.On the basis of HS-SPME-GC-MS(Headspace solid phase microextraction-gas chromatography-mass spectrometry),225 volatile compounds were detected in the seven analyzed essential oil samples.Each essential oil had a relative volatile component content exceeding 0.3.The three most abundant compounds were olefins(46 types),alcohols(34 types),and esters(18 types).The volatile components with relatively high contents included thymol,D-camphor,pinene,eucalyptol,2-terpineol,terpineol,trans-caryophyllene,andβ-elemene.These volatile compounds have strong biological activities and are useful components of medicines and daily-use products.An evaluation of their antibacterial effects demonstrated that the essential oils of C.'xiangjin',C.'xiangyun',C.'xinjiboju',O.taihangensis,O.longilobus,and C.'minghuangju'inhibited the growth of Escherichia coli.The C.lavandulifolium essential oil inhibited the growth of Pectobacterium carotovorum.The results of this study will provide researchers with an important theoretical basis for the development and application of Chrysanthemum and Opisthopappus essential oils.
基金supported by The Project of Science and Technology of Beijing Academy of Agricultural and Forestry Sciences (KJCX20170108, KJCX20170203, JNKST201610)the Project of Beijing Municipal Science & Technology Commission (D161100001916004)
文摘To further test the accuracy and rationality of the Chinese classification system for chrysanthemum(Chrysanthemum morifolium), 10 simple sequence repeat(SSR) markers were used to identify a collection of 88 chrysanthemum and its related genera accessions. In total, 42 effective alleles across 88 accessions were detected; 3 429 bands were obtained by PCR amplification, including 2 630 polymorphic bands. The similarity coefficient ranged from 0.53 to 0.88. Cluster analysis based on UPGMA illustrated that the wild species and large-flower cultivars were first divided into two clusters, then the large-flower cultivars formed five distinct groups according to petal type, indicated that petal type can be a classification criterion. In the wild species cluster, C. vestitum and C. zawadaskii grouped with A. trilobata, suggested that the Ajania genera was closely related to the Chrysanthemum genera. ‘Hangbaiju’, ‘Gongju’ and ‘Chuju’ were grouped together, and ‘Boju’, O. longilobus and C. mongolicum constituted another branch, showed a correlation with geographic region of origin. Population structure analysis was subsequently performed with K values ranging from 2 to 10, and the most likely estimate for the population structure is five subpopulations, which is nearly consistent with the clustering results. Principle component analysis was further performed to verify the classification results. The results showed that these SSR markers are very powerful for studying genetic relationships and will be useful tools in the identification and classification of chrysanthemum.