Tìm thấy 11+ kết quả cho từ khóa "Various abiotic stresses"
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The increased expression of VviERF6L1 in response to various abiotic stresses and berry development in the meta-data analysis, but the lack of induction in response to ABA foliar spray indi- cates the VviERF6L1 abiotic-stressed-based induction may be independent of the ABA signaling pathway. The duality of the DEGs’ roles in both abiotic and biotic stress response further strengthen the hypothesis of broad functionality of VviERF6Ls..
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Expression profiling of TaDof genes in response to various abiotic stresses. The publicly available RNA-seq data of wheat leaves under polyethylene glycol (PEG)-simulated drought and heat stresses were used to show the expression profile of the TaDof genes (Table S6 and Fig. 2 △ lnL, twice the log-likelihood difference of the models.
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Number of CsWRKY genes expressed in response to various abiotic stresses. The functions of most AtWRKY genes have been veri- fied, which can be used to infer the potential roles of the CsWRKY genes clustered together with the AtWRKYs in the phylogenetic tree. Subse- quently, to verify this prediction, the expression profiles of the six CsWRKY genes were examined in the roots and shoots under salt stress (SS) and normal conditions. 6 Synteny analysis of CsWRKY genes between C.
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In addition, the expression of DgNAC genes during plant growth and floral bud devel- opment and the response to various abiotic stresses were analyzed. The present results will be useful for illustrat- ing the molecular mechanisms of orchardgrass adapt- ability under various environmental conditions, further analysis of the functional characteristics of candidate DgNAC genes and providing valuable clues for molecu- lar assisted breeding in orchardgrass..
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Analysis of abiotic stress-responsive gene expression Gene-specific primers of BrPDI genes were used to ob- tain expression profiles in response to various abiotic stresses. Expression patterns of BrPDI genes in response to cold was obtained by analyzing qPCR data from cold treated two contrasting Chinese cabbage lines, ‘Chiifu’. and ‘Kenshin’. pression patterns of different BrPDI genes during salt, drought and ABA stresses using qPCR data of Chinese cabbage line ‘kenshin’.
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CLE genes have also been shown to participate in various biological processes, such as plant growth, development, and re- sponses to environmental stimuli [20]. Later, Goad et al. identified the grape CLE genes GSVIVT GSVIVT GSVIV T and GSVIVT . However, many grape CLE genes remain to be identified, and the roles of grape CLE genes in most tissues and under various abiotic stresses remain unclear.
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On the other hand, the transcription of the VQ genes was either in- duced or inhibited by salt, drought, low nitrogen and temperature stress, indicating that these genes are also important for the plant response to various abiotic stresses .
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The relative expressions of the 10 SnRK2 genes varied among tissues and abiotic stresses, with prolonged ABA treatments showing that PbrSnRK2s are expressed in different tissues and re- spond to various abiotic stresses via the ABA signaling pathway. Our results represent a foundation for further studies that will dissect the structures and functions of the SnRK2 gene family in Rosaceae..
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Stress response expression profiles of JcSBP genes To further explore the possible physiological processes in which Euphorbiaceae SBP genes participate, the expres- sion levels in physic nut in response to various abiotic stresses (salt, drought, and waterlogging) and hormonal treatments (gibberellin 3 [GA3], 6-benzylaminopurine [BA], and cytokinin) were obtained. Table 3 The miR156 target information of Euphorbiaceae SBP genes.
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As the action of these enzymes plays a protective role against ROS, which is produced under various abiotic stresses (Ashraf et al., 2018).. The activities of SOD and CAT significantly (P ≤ 0.001) increased in current study when quinoa plants were provided with 450 mM NaCl (Table 2, Figure 3) and these results were in agreement with the study of Ahanger et al.
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Analysis of transcriptomic data and qRT-PCR showed that GhBURPs showed different expression patterns in different organs, and all of them, especially the members of the RD22-like subfamily, could be induced by different stresses, such as abscisic acid (ABA) and salicylic acid (SA), which indicated that the GhBURPs may performed important functions in cotton ’ s responses to various abiotic stresses..
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More than half of identified VQs were up- or down- regulated by abiotic stresses or phytohormones in rice [5], maize [6], and Chinese cabbage [4]. In Arabidopsis, rice and other plants, VQs were differentially regulated by not only abiotic but also biotic stresses . We then surveyed expres- sion profiling of VQs in different tissues and under vari- ous abiotic and biotic stresses as well as phytohormone treatment. Plant genomes encode variable sizes of VQs.
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Some trihelix genes were confirmed to participate in response to mul- tiple abiotic stresses, based on the tissue-specific expres- sion patterns and the results of differential expression analysis under abiotic stresses.
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Additionally, GhGGPPS genes exhibited wide range of responses when subjected to abiotic (heat, cold, NaCl and PEG) stresses and hormonal (BL, GA, IAA, SA and MeJA) treatments, indicating their potential roles in various biotic and abiotic stresses tolerance..
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Expression analysis of GhLOX genes under different abiotic stresses. Considering potential roles of LOX genes and their me- tabolites in various plant species against biotic and abi- otic stresses, we investigated the transcript abundance of. GhLOX genes in response to heat, salt, polyethylene glycol (PEG) and cold, using transcriptomic data of G.. The results show that all the GhLOX genes were differentially expressed under one or more stresses (Fig.
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The potential roles of differentially expressed RsHSF genes HSFs play important roles in plant response to abiotic stresses by regulating the expression of different genes . In this study, RsHSF genes were significantly differentially expressed in response to various stresses. Moreover, four radish HSF genes were up-regulated under Cr stress in radish [66].
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Expression profiling of the ATDUF4228 genes under abiotic stresses (mainly osmotic, salt and cold) and protein-protein interaction prediction suggested that some ATDUF4228 genes are may be involved in the pathways of plant resistance to abiotic stresses..
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Inducible Expression Analysis of Rice BBX Genes under Abiotic stresses and hormonal applications. therefore, we carried out qRT-PCR to in- vestigate the transcript levels of the rice BBX genes under different abiotic stresses, including drought, cold and salt.. Describing the expression profiles of all rice BBX genes was exhaustively difficult.
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Expression analysis showed that MsMADS-box genes were differentially expressed in various tissues and under abiotic stresses. qRT-PCR analysis revealed that the expression profiles of eight selected MsMADS-box genes were distinct under various stresses.. and eight MsMADS-box genes were significantly involved in response to various stresses.. Type-II MADS-box genes are also called MIKC-type genes, which consist of two subgroups: MIKC * and MIKC c [8]..
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Background: Abiotic stresses like drought, heat, cold and salinity cause major productivity loss in the rapeseed-mustard crops (Brassica). Major efforts have been made in the past to identify genes that provide resistance against such stresses.. In the present study, genome-wide analysis of abiotic stress responsive SOD gene family has been done in B. Results: A total of 29 and 18 SOD genes were identified in B.