期刊,园艺研究（英文） 2024年卷5期_国家学术搜索

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园艺研究（英文）

园艺研究（英文）/Journal Horticulture ResearchCSCDCSTPCDSCI

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MdbZIP44-MdCPRF2-like-Mdα-GP2 regulate starch and sugar metabolism in apple under nitrogen supply

Xuejing CaoZhigang GuoPing WangShixiong Lu...

149-161页

查看更多>>摘要：Nitrogen(N)is regarded as an essential macronutrient and is tightly associated with carbon(C)metabolism in plants.The transcriptome data obtained from this study showed that the expression level of the apple basic leucine zipper(bZIP)transcription factor(TF)MdbZIP44 was up-regulated in'Oregon Spur Delicious'(Malus domestica Borkh.)apple fruits under nitrogen supply.MdbZIP44 bound to the promoter of Mdα-GP2 gene and inhibited its expression,thereby promoting starch accumulation and decreasing glucose content in apple and tomato fruits.Besides,overexpression of MdbZIP44 promoted sucrose accumulation by regulating the activities of sucrose metabolism-related enzymes and the expression of sugar metabolism-related genes in apple callus and tomato fruits.Furthermore,biochemical assays indicated that MdbZIP44 directly interacted with MdCPRF2-like,another bZIP gene in apple.Meanwhile,this study found that MdCPRF2-like,along with the MdbZIP44 and MdCPRF2-like complex,could activate the expression of Mdα-GP2,respectively.In conclusion,this study provides a new reference for potential mechanisms underlying that MdbZIP44-MdCPRF2-like-Mdα-GP2 regulates starch and sugar metabolism under nitrogen supply.

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Integrated proteomic,transcriptomic,and metabolomic profiling reveals that the gibberellin-abscisic acid hub runs flower development in the Chinese orchid Cymbidium sinense

Sagheer AhmadChuqiao LuJie GaoYonglu Wei...

163-179页

查看更多>>摘要：The seasonal flowering Chinese Cymbidium produce an axillary floral meristem and require a dormancy period during cold conditions for flower development.However,the bud activation mechanism remains elusive.This study evaluates the multi-omics across six stages of flower development,along with functional analysis of core genes to decipher the innate mechanism of floral bud initiation and outgrowth in the Chinese orchid Cymbidium sinense.Transcriptome and proteome analyses identified 10 modules with essential roles in floral bud dormancy and activation.Gene clusters in the early stages of flower development were mainly related to flowering time regulation and meristem determination,while the late stages were correlated with hormone signaling pathways.The metabolome identified 69 potential hormones in which gibberellin(GA)and abscisic acid(ABA)were the main regulatory hubs,and GA4 and GA53 exhibited a reciprocal loop.Extraneous GA application caused rapid elongation of flower buds and promoted the expression of flower development genes.Contrarily,exogenous ABA application extended the dormancy process and ABA inhibitors induced dormancy release.Moreover,CsAPETALA1(CsAP1)was identified as the potential target of ABA for floral bud activation.Transformation of CsAP1 in Arabidopsis and its transient overexpression in C.sinense protoplasts not only affected flowering time and floral organ morphogenesis in Arabidopsis but also orchestrated the expression of flowering and hormone regulatory genes.The presence of ABA response elements in the CsAP1 promoter,rapid downregulation of CsAP1 after exogenous ABA application,and the activation of the floral bud after ABA inhibitor treatment suggest that ABA can control bud outgrowth through CsAP1.

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CsEXL3 regulate mechanical harvest-related droopy leaves under the transcriptional activation of CsBES1.2 in tea plant

Haoran LiuLingxiao DuanJianqiang MaJiqiang Jin...

181-193页

查看更多>>摘要：Due to a labor shortage,the mechanical harvesting of tea plantations has become a focal point.However,mechanical harvest efficiency was hampered by droopy leaves,leading to a high rate of broken tea shoots and leaves.Here,we dissected the genetic structure of leaf droopiness in tea plants using genome-wide association studies(GWAS)on 146 accessions,combined with transcriptome from two accessions with contrasting droopy leaf phenotypes.A set of 16 quantitative trait loci(QTLs)containing 54 SNPs and 34 corresponding candidate genes associated with droopiness were then identified.Among these,CsEXL3(EXORDIUM-LIKE 3)from Chromosome 1 emerged as a candidate gene.Further investigations revealed that silencing CsEXL3 in tea plants resulted in weaker vascular cell malformation and brassinosteroid-induced leaf droopiness.Additionally,brassinosteroid signal factor CsBES1.2 was proved to participate in CsEXL3-induced droopiness and vascular cell malformation via using the CsBES1.2-silencing tea plant.Notably,CsBES1.2 bound on the E-box of CsEXL3 promoter to transcriptionally activate CsEXL3 expression as CUT&TAG based ChIP-qPCR and ChIP-seq suggested in vivo as well as EMSA and Y1H indicated in vitro.Furthermore,CsEXL3 instead of CsBES1.2 decreased lignin content and the expressing levels of lignin biosynthesis genes.Overall,our findings suggest that CsEXL3 regulates droopy leaves,partially through the transcriptional activation of CsBES1.2,with the potential to improve mechanical harvest efficiency in tea plantations.

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euAP2a,a key gene that regulates flowering time in peach(Prunus persica)by modulating thermo-responsive transcription programming

Jianyang LiuDennis BennettMark DemuthErik Burchard...

195-208页

查看更多>>摘要：Frequent spring frost damage threatens temperate fruit production,and breeding of late-flowering cultivars is an effective strategy for preventing such damage.However,this effort is often hampered by the lack of specific genes and markers and a lack of understanding of the mechanisms.We examined a Late-Flowering Peach(LFP)germplasm and found that its floral buds require a longer chilling period to release from their dormancy and a longer warming period to bloom than the control cultivar,two key characteristics associated with flowering time.We discovered that a 983-bp deletion in euAP2a,an APETALA2(AP2)-related gene with known roles in regulating floral organ identity and flowering time,was primarily responsible for late flowering in LFP.This deletion disrupts an miR172 binding site,resulting in a gain-of-function mutation in euAP2a.Transcriptomic analyses revealed that at different stages of floral development,two chilling-responsive modules and four warm-responsive modules,comprising approximately 600 genes,were sequentially activated,forming a unique transcription programming.Furthermore,we found that euAP2a was transiently downregulated during the activation of these thermal-responsive modules at various stages.However,the loss of such transient,stage-specific downregulation of euAP2a caused by the deletion of miR172 binding sites resulted in the deactivation or delay of these modules in the LFP flower buds,suggesting that euAP2a acts as a transcription repressor to control floral developmental pace in peaches by modulating the thermo-responsive transcription programming.The findings shed light on the mechanisms behind late flowering in deciduous fruit trees,which is instrumental for breeding frost-tolerant cultivars.

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Coping with alpine habitats:genomic insights into the adaptation strategies of Triplostegia glandulifera(Caprifoliaceae)

Jian ZhangKai-Lin DongMiao-Zhen RenZhi-Wen Wang...

209-222页

查看更多>>摘要：How plants find a way to thrive in alpine habitats remains largely unknown.Here we present a chromosome-level genome assembly for an alpine medicinal herb,Triplostegia glandulifera(Caprifoliaceae),and 13 transcriptomes from other species of Dipsacales.We detected a whole-genome duplication event in T.glandulifera that occurred prior to the diversification of Dipsacales.Preferential gene retention after whole-genome duplication was found to contribute to increasing cold-related genes in T.glandulifera.A series of genes putatively associated with alpine adaptation(e.g.CBFs,ERF-Ⅶs,and RAD51C)exhibited higher expression levels in T.glandulifera than in its low-elevation relative,Lonicera japonica.Comparative genomic analysis among five pairs of high-vs low-elevation species,including a comparison of T.glandulifera and L.japonica,indicated that the gene families related to disease resistance experienced a significantly convergent contraction in alpine plants compared with their lowland relatives.The reduction in gene repertory size was largely concentrated in clades of genes for pathogen recognition(e.g.CNLs,prRLPs,and Ⅻ RLKs),while the clades for signal transduction and development remained nearly unchanged.This finding reflects an energy-saving strategy for survival in hostile alpine areas,where there is a tradeoff with less challenge from pathogens and limited resources for growth.We also identified candidate genes for alpine adaptation(e.g.RAD1,DMC1,and MSH3)that were under convergent positive selection or that exhibited a convergent acceleration in evolutionary rate in the investigated alpine plants.Overall,our study provides novel insights into the high-elevation adaptation strategies of this and other alpine plants.

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Extracellular perception of multiple novel core effectors from the broad host-range pear anthracnose pathogen Colletotrichum fructicola in the nonhost Nicotiana benthamiana

Mengqing HanChunhao WangWenhui ZhuYuemin Pan...

223-237页

查看更多>>摘要：Colletotrichum fructicola is emerging as a devastating pathogenic fungus causing anthracnose in a wide range of horticultural crops,particularly fruits.Exploitation of nonhost resistance(NHR)represents a robust strategy for plant disease management.Perception of core effectors from phytopathogens frequently leads to hypersensitive cell death and resistance in nonhost plants;however,such core effectors in C.fructicola and their signaling components in non-hosts remain elusive.Here,we found a virulent C.fructicola strain isolated from pear exhibits non-adaptation in the model plant Nicotiana benthamiana.Perception of secreted molecules from C.fructicola appears to be a dominant factor in NHR,and four novel core effectors—CfCE4,CfCE25,CfCE61,and CfCE66—detected by N.benthamiana were,accordingly,identified.These core effectors exhibit cell death-inducing activity in N.benthamiana and accumulate in the apoplast.With a series of CRISPR/Cas9-edited mutants or gene-silenced plants,we found the coreceptor BAK1 and helper NLRs including ADR1,NRG1,and NRCs mediate perceptions of these core effectors in N.benthamiana.Concurrently,multiple N.benthamiana genes encoding cell surface immune receptors and intracellular immune receptors were greatly induced by C.fructicola.This work represents the first characterization of the repertoire of C.fructicola core effectors responsible for NHR.Significantly,the novel core effectors and their signaling components unveiled in this study offered insights into a continuum of layered immunity during NHR and will be helpful for anthracnose disease management in diverse horticultural crops.

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Chromosome-level genome assemblies of Musa ornata and Musa velutina provide insights into pericarp dehiscence and anthocyanin biosynthesis in banana

Tian-Wen XiaoXin LiuNing FuTong-Jian Liu...

239-251页

查看更多>>摘要：Musa ornata and Musa uelutina are members of the Musaceae family and are indigenous to the South and Southeast Asia.They are very popular in the horticultural market,but the lack of genomic sequencing data and genetic studies has hampered efforts to improve their ornamental value.In this study,we generated the first chromosome-level genome assemblies for both species by utilizing Oxford Nanopore long reads and Hi-C reads.The genomes of M.ornata and M.velutina were assembled into 11 pseudochromosomes with genome sizes of 427.85 Mb and 478.10 Mb,respectively.Repetitive sequences comprised 46.70％and 50.91％of the total genomes for M.ornata and M.uelutina,respectively.Differentially expressed gene(DEG)and Gene Ontology(GO)enrichment analyses indicated that upregulated genes in the mature pericarps of M.velutina were mainly associated with the saccharide metabolic processes,particularly at the cell wall and extracellular region.Furthermore,we identified polygalacturonase(PG)genes that exhibited higher expression level in mature pericarps of M.velutina compared to other tissues,potentially being accountable for pericarp dehiscence.This study also identified genes associated with anthocyanin biosynthesis pathway.Taken together,the chromosomal-level genome assemblies of M.ornata and M.velutina provide valuable insights into the mechanism of pericarp dehiscence and anthocyanin biosynthesis in banana,which will significantly contribute to future genetic and molecular breeding efforts.

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Calmodulin-like protein MdCML15 interacts with MdBT2 to modulate iron homeostasis in apple

Xiao-Juan LiuXin LiuQiang ZhaoYuan-Hua Dong...

253-265页

查看更多>>摘要：BTB and TAZ domain proteins(BTs)function as specialized adaptors facilitating substrate recognition of the CUL3-RING ubiquitin ligase(CRL3)complex that targets proteins for ubiquitination in reaction to diverse pressures.Nonetheless,knowledge of the molecular mechanisms by which the apple scaffold protein MdBT2 responds to external and internal signals is limited.Here we demonstrate that a putative Ca2+ sensor,calmodulin-like 15(MdCML15),acts as an upstream regulator of MdBT2 to negatively modulate its functions in plasma membrane H+-ATPase regulation and iron deficiency tolerance.MdCML15 was identified to be substantially linked to MdBT2,and to result in the ubiquitination and degradation of the MdBT2 target protein MdbHLH104.Consequently,MdCML15 repressed the MdbHLH104 target,MdAHA8's expression,reducing levels of a specific membrane H+-ATPase.Finally,the phenotype of transgenic apple plantlets and calli demonstrated that MdCML15 modulates membrane H+-ATPase-produced rhizosphere pH lowering alongside iron homeostasis through an MdCML15-MdBT2-MdbHLH104-MdAHA8 pathway.Our results provide new insights into the relationship between Ca2+signaling and iron homeostasis.

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Exploring salt tolerance mechanisms using machine learning for transcriptomic insights:case study in Spartina alterniflora

Zhangping HuangShoukun ChenKunhui HeTingxi Yu...

267-279页

查看更多>>摘要：Salt stress poses a significant threat to global cereal crop production,emphasizing the need for a comprehensive understanding of salt tolerance mechanisms.Accurate functional annotations of differentially expressed genes are crucial for gaining insights into the salt tolerance mechanism.The challenge of predicting gene functions in under-studied species,especially when excluding infrequent GO terms,persists.Therefore,we proposed the use of NetGO 3.0,a machine learning-based annotation method that does not rely on homology information between species,to predict the functions of differentially expressed genes under salt stress.Spartina alterniflora,a halophyte with salt glands,exhibits remarkable salt tolerance,making it an excellent candidate for in-depth transcriptomic analysis.However,current research on the S.alterniflora transcriptome under salt stress is limited.In this study we used S.alterniflora as an example to investigate its transcriptional responses to various salt concentrations,with a focus on understanding its salt tolerance mechanisms.Transcriptomic analysis revealed substantial changes impacting key pathways,such as gene transcription,ion transport,and ROS metabolism.Notably,we identified a member of the SWEET gene family in S.alterniflora,SA_12G129900.m1,showing convergent selection with the rice ortholog SWEET15.Additionally,our genome-wide analyses explored alternative splicing responses to salt stress,providing insights into the parallel functions of alternative splicing and transcriptional regulation in enhancing salt tolerance in S.alterniflora.Surprisingly,there was minimal overlap between differentially expressed and differentially spliced genes following salt exposure.This innovative approach,combining transcriptomic analysis with machine learning-based annotation,avoids the reliance on homology information and facilitates the discovery of unknown gene functions,and is applicable across all sequenced species.

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VvWRKY5 positively regulates wounding-induced anthocyanin accumulation in grape by interplaying with VvMYBA1 and promoting jasmonic acid biosynthesis

Zhen ZhangCui ChenChangyue JiangHong Lin...

281-294页

查看更多>>摘要：Wounding stress induces the biosynthesis of various secondary metabolites in plants,including anthocyanin.However,the underlying molecular mechanism remains elusive.Here,we reported that a transcription factor,VvWRKY5,promotes wounding-induced antho-cyanin accumulation in grape(Vitis vinifera).Biochemical and molecular analyses demonstrated that wounding stress significantly increased anthocyanin content,and VvMYBA1 plays an essential role in this process.VvWRKY5 could interact with VvMYBA1 and amplify the activation effect of VvMYBA1 on its target gene VvUFGT.The transcript level of VvWRKY5 was notably induced by wounding treatment.Moreover,our data demonstrated that VvWRKY5 could promote the synthesis of j asmonic acid(JA),a phytohormone that acts as a positive modulator in anthocyanin accumulation,by directly binding to the W-box element in the promoter of the JA biosynthesis-related gene VvLOX and enhancing its activities,and this activation was greatly enhanced by the VvWRKY5-VvMYBA1 protein complex.Collectively,our findings show that VvWRKY5 plays crucial roles in wounding-induced anthocyanin synthesis in grape and elucidates the transcriptional regulatory mechanism of wounding-induced anthocyanin accumulation.

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