| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 8644391 | Gene | 2018 | 44 Pages |
Abstract
The findings of the present study could provide a general view about gene pathways involving in sugarcane defense against smut disease and facilitate a better understanding of the molecular mechanism underlying sugarcane-S. scitamineum interaction.
Keywords
PCDbZIPAPXMYC2ACOqRT-PCRBiFCSPMSSHYFPSnRK2ABPHRGPMDHAR14-3-3EBPPRRsPP2CNDPKCDPKcDNA-AFLPcdc2NBS-LRRmonodehydroascorbate reductasePTONPR1COXPODCaMBPSAMRLKEIN3eRF1CoGCATCalmodulin binding proteinSPDCESAABF1-aminocyclopropane-1-carboxylate oxidaseROSEthyleneInteractionS-adenosylmethionineSpermineSpermidinejasmonic acidSalicylic acidERPMolecular functionbimolecular fluorescence complementationcellular componentCluster of Orthologous GroupsKEGG یا Kyoto Encyclopedia of Genes and Genomes TPRquantitative reverse transcription PCRSODCelluloseSuperoxide dismutasecytochrome c oxidaseSAPbiological processReceptor-like kinaseMethionineProgrammed cell deathSignaling pathwaysMETProtein kinase C inhibitorPKC inhibitorMolecular mechanismsSugarcaneGene ontologySuppression subtractive hybridizationHypersensitive responsePeroxidaseascorbate peroxidaseauxin-binding proteinyellow fluorescent proteinCatalaseglutathione reductasehydroxyproline-rich glycoproteinReactive oxygen speciesEthylene receptorpattern-recognition receptors
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Authors
Ning Huang, Hui Ling, Yachun Su, Feng Liu, Liping Xu, Weihua Su, Qibin Wu, Jinlong Guo, Shiwu Gao, Youxiong Que,