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283 related items for PubMed ID: 23736694

  • 1. Use of heat stress responsive gene expression levels for early selection of heat tolerant cabbage (Brassica oleracea L.).
    Park HJ, Jung WY, Lee SS, Song JH, Kwon SY, Kim H, Kim C, Ahn JC, Cho HS.
    Int J Mol Sci; 2013 Jun 04; 14(6):11871-94. PubMed ID: 23736694
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  • 4. Genome-wide identification, classification and expression analysis of the heat shock transcription factor family in Chinese cabbage.
    Song X, Liu G, Duan W, Liu T, Huang Z, Ren J, Li Y, Hou X.
    Mol Genet Genomics; 2014 Aug 04; 289(4):541-51. PubMed ID: 24609322
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  • 5. Arabidopsis heat shock factor HsfA1a directly senses heat stress, pH changes, and hydrogen peroxide via the engagement of redox state.
    Liu Y, Zhang C, Chen J, Guo L, Li X, Li W, Yu Z, Deng J, Zhang P, Zhang K, Zhang L.
    Plant Physiol Biochem; 2013 Mar 04; 64():92-8. PubMed ID: 23399534
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  • 6. Identification and expression analysis of cold and freezing stress responsive genes of Brassica oleracea.
    Ahmed NU, Jung HJ, Park JI, Cho YG, Hur Y, Nou IS.
    Gene; 2015 Jan 10; 554(2):215-23. PubMed ID: 25445291
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  • 8. Comparative Analysis of miRNA Expression Profiles Between Heat-Tolerant and Heat-Sensitive Genotypes of Flowering Chinese Cabbage Under Heat Stress Using High-Throughput Sequencing.
    Ahmed W, Li R, Xia Y, Bai G, Siddique KHM, Zhang H, Zheng Y, Yang X, Guo P.
    Genes (Basel); 2020 Feb 28; 11(3):. PubMed ID: 32121287
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  • 9. Genome-Wide Analysis of Basic Helix-Loop-Helix Superfamily Members Reveals Organization and Chilling-Responsive Patterns in Cabbage (Brassica oleracea var. capitata L.).
    Shan X, Zhang W, Yu F, Wang S, Li J, Tang J, Dai Z.
    Genes (Basel); 2019 Nov 08; 10(11):. PubMed ID: 31717469
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  • 10. Comparative transcriptome analyses revealed different heat stress responses in high- and low-GS Brassica alboglabra sprouts.
    Guo R, Wang X, Han X, Li W, Liu T, Chen B, Chen X, Wang-Pruski G.
    BMC Genomics; 2019 Apr 04; 20(1):269. PubMed ID: 30947685
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  • 11. Heat stress response in Chinese cabbage (Brassica rapa L.) revealed by transcriptome and physiological analysis.
    Zhang L, Dai Y, Yue L, Chen G, Yuan L, Zhang S, Li F, Zhang H, Li G, Zhu S, Hou J, Tang X, Zhang S, Wang C.
    PeerJ; 2022 Apr 04; 10():e13427. PubMed ID: 35637719
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  • 12. OsHSF7 gene in rice, Oryza sativa L., encodes a transcription factor that functions as a high temperature receptive and responsive factor.
    Liu JG, Qin QL, Zhang Z, Peng RH, Xiong AS, Chen JM, Yao QH.
    BMB Rep; 2009 Jan 31; 42(1):16-21. PubMed ID: 19192388
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  • 13. Transcriptome de novo assembly and analysis of differentially expressed genes related to cytoplasmic male sterility in cabbage.
    Wang S, Wang C, Zhang XX, Chen X, Liu JJ, Jia XF, Jia SQ.
    Plant Physiol Biochem; 2016 Aug 31; 105():224-232. PubMed ID: 27116370
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  • 14. Transcriptional profiling of maturing tomato (Solanum lycopersicum L.) microspores reveals the involvement of heat shock proteins, ROS scavengers, hormones, and sugars in the heat stress response.
    Frank G, Pressman E, Ophir R, Althan L, Shaked R, Freedman M, Shen S, Firon N.
    J Exp Bot; 2009 Aug 31; 60(13):3891-908. PubMed ID: 19628571
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  • 15. Ectopic expression of nucleolar DEAD-Box RNA helicase OsTOGR1 confers improved heat stress tolerance in transgenic Chinese cabbage.
    Yarra R, Xue Y.
    Plant Cell Rep; 2020 Dec 31; 39(12):1803-1814. PubMed ID: 32995946
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  • 16. Genome-wide analysis of the Hsf gene family in Brassica oleracea and a comparative analysis of the Hsf gene family in B. oleracea, B. rapa and B. napus.
    Lohani N, Golicz AA, Singh MB, Bhalla PL.
    Funct Integr Genomics; 2019 May 31; 19(3):515-531. PubMed ID: 30618014
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  • 17. Intracellular Ca(2+) and K(+) concentration in Brassica oleracea leaf induces differential expression of transporter and stress-related genes.
    Lee J, Kim J, Choi JP, Lee M, Kim MK, Lee YH, Hur Y, Nou IS, Park SU, Min SR, Kim H.
    BMC Genomics; 2016 Mar 09; 17():211. PubMed ID: 26955874
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  • 18. Genome-wide analysis of HSP70 family genes in cabbage (Brassica oleracea var. capitata) reveals their involvement in floral development.
    Su H, Xing M, Liu X, Fang Z, Yang L, Zhuang M, Zhang Y, Wang Y, Lv H.
    BMC Genomics; 2019 May 14; 20(1):369. PubMed ID: 31088344
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  • 19. Investigation of heat stress responses and adaptation mechanisms by integrative metabolome and transcriptome analysis in tea plants (Camellia sinensis).
    Huang F, Lei Y, Duan J, Kang Y, Luo Y, Ding D, Chen Y, Li S.
    Sci Rep; 2024 May 01; 14(1):10023. PubMed ID: 38693343
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  • 20. Heat shock factors in carrot: genome-wide identification, classification, and expression profiles response to abiotic stress.
    Huang Y, Li MY, Wang F, Xu ZS, Huang W, Wang GL, Ma J, Xiong AS.
    Mol Biol Rep; 2015 May 01; 42(5):893-905. PubMed ID: 25403331
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