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203 related items for PubMed ID: 38338699

  • 1. Evolution and Dynamic Transcriptome of Key Genes of Photoperiodic Flowering Pathway in Water Spinach (Ipomoea aquatica).
    Wang X, Hao Y, Altaf MA, Shu H, Cheng S, Wang Z, Zhu G.
    Int J Mol Sci; 2024 Jan 24; 25(3):. PubMed ID: 38338699
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  • 2. A circadian rhythm set by dusk determines the expression of FT homologs and the short-day photoperiodic flowering response in Pharbitis.
    Hayama R, Agashe B, Luley E, King R, Coupland G.
    Plant Cell; 2007 Oct 24; 19(10):2988-3000. PubMed ID: 17965272
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  • 4. Expression conservation within the circadian clock of a monocot: natural variation at barley Ppd-H1 affects circadian expression of flowering time genes, but not clock orthologs.
    Campoli C, Shtaya M, Davis SJ, von Korff M.
    BMC Plant Biol; 2012 Jun 21; 12():97. PubMed ID: 22720803
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  • 5. Metabolomics, phytohormone and transcriptomics strategies to reveal the mechanism of barley heading date regulation to responds different photoperiod.
    Ga Z, Gao L, Quzong X, Mu W, Zhuoma P, Taba X, Jiao G, Dondup D, Namgyal L, Sang Z.
    BMC Genomics; 2024 Sep 19; 25(1):879. PubMed ID: 39300396
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  • 6. Dual functions of the ZmCCT-associated quantitative trait locus in flowering and stress responses under long-day conditions.
    Ku L, Tian L, Su H, Wang C, Wang X, Wu L, Shi Y, Li G, Wang Z, Wang H, Song X, Dou D, Ren Z, Chen Y.
    BMC Plant Biol; 2016 Nov 03; 16(1):239. PubMed ID: 27809780
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  • 7. Conserved CO-FT regulons contribute to the photoperiod flowering control in soybean.
    Fan C, Hu R, Zhang X, Wang X, Zhang W, Zhang Q, Ma J, Fu YF.
    BMC Plant Biol; 2014 Jan 07; 14():9. PubMed ID: 24397545
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  • 8. Complex interactions between day length and diurnal patterns of gene expression drive photoperiodic responses in a perennial C4 grass.
    Weng X, Lovell JT, Schwartz SL, Cheng C, Haque T, Zhang L, Razzaque S, Juenger TE.
    Plant Cell Environ; 2019 Jul 07; 42(7):2165-2182. PubMed ID: 30847928
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  • 10. Identification and expression analysis of photoreceptor genes in kiwifruit leaves under natural daylength conditions and their relationship with other genes that regulate photoperiodic flowering.
    Ferradás Y, Martínez Ó, Rey M, González MV.
    J Plant Physiol; 2017 Jun 07; 213():108-121. PubMed ID: 28363189
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  • 11. Photoperiod-insensitive floral transition in chrysanthemum induced by constitutive expression of chimeric repressor CsLHY-SRDX.
    Oda A, Higuchi Y, Hisamatsu T.
    Plant Sci; 2017 Jun 07; 259():86-93. PubMed ID: 28483056
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  • 14. Circadian clock proteins LHY and CCA1 regulate SVP protein accumulation to control flowering in Arabidopsis.
    Fujiwara S, Oda A, Yoshida R, Niinuma K, Miyata K, Tomozoe Y, Tajima T, Nakagawa M, Hayashi K, Coupland G, Mizoguchi T.
    Plant Cell; 2008 Nov 07; 20(11):2960-71. PubMed ID: 19011118
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  • 15. Conserved expression profiles of circadian clock-related genes in two Lemna species showing long-day and short-day photoperiodic flowering responses.
    Miwa K, Serikawa M, Suzuki S, Kondo T, Oyama T.
    Plant Cell Physiol; 2006 May 07; 47(5):601-12. PubMed ID: 16524874
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  • 18. Dual function of clock component OsLHY sets critical day length for photoperiodic flowering in rice.
    Sun C, Zhang K, Zhou Y, Xiang L, He C, Zhong C, Li K, Wang Q, Yang C, Wang Q, Chen C, Chen D, Wang Y, Liu C, Yang B, Wu H, Chen X, Li W, Wang J, Xu P, Wang P, Fang J, Chu C, Deng X.
    Plant Biotechnol J; 2021 Aug 07; 19(8):1644-1657. PubMed ID: 33740293
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  • 19. Functional and evolutionary characterization of the CONSTANS gene family in short-day photoperiodic flowering in soybean.
    Wu F, Price BW, Haider W, Seufferheld G, Nelson R, Hanzawa Y.
    PLoS One; 2014 Aug 07; 9(1):e85754. PubMed ID: 24465684
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  • 20. LATE ELONGATED HYPOCOTYL regulates photoperiodic flowering via the circadian clock in Arabidopsis.
    Park MJ, Kwon YJ, Gil KE, Park CM.
    BMC Plant Biol; 2016 May 20; 16(1):114. PubMed ID: 27207270
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