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613 related items for PubMed ID: 31730445

  • 21. Insights into the correlation between Physiological changes in and seed development of tartary buckwheat (Fagopyrum tataricum Gaertn.).
    Liu M, Ma Z, Zheng T, Sun W, Zhang Y, Jin W, Zhan J, Cai Y, Tang Y, Wu Q, Tang Z, Bu T, Li C, Chen H.
    BMC Genomics; 2018 Aug 31; 19(1):648. PubMed ID: 30170551
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  • 22. Genome-wide analysis of the Hsf family in soybean and functional identification of GmHsf-34 involvement in drought and heat stresses.
    Li PS, Yu TF, He GH, Chen M, Zhou YB, Chai SC, Xu ZS, Ma YZ.
    BMC Genomics; 2014 Nov 21; 15(1):1009. PubMed ID: 25416131
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  • 23. The Tartary Buckwheat Genome Provides Insights into Rutin Biosynthesis and Abiotic Stress Tolerance.
    Zhang L, Li X, Ma B, Gao Q, Du H, Han Y, Li Y, Cao Y, Qi M, Zhu Y, Lu H, Ma M, Liu L, Zhou J, Nan C, Qin Y, Wang J, Cui L, Liu H, Liang C, Qiao Z.
    Mol Plant; 2017 Sep 12; 10(9):1224-1237. PubMed ID: 28866080
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  • 24. Diverse biological effects of glycosyltransferase genes from Tartary buckwheat.
    Yao P, Deng R, Huang Y, Stael S, Shi J, Shi G, Lv B, Li Q, Dong Q, Wu Q, Li C, Chen H, Zhao H.
    BMC Plant Biol; 2019 Aug 05; 19(1):339. PubMed ID: 31382883
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  • 25. Genome-wide identification, subcellular localization, and expression analysis of the phosphatidyl ethanolamine-binding protein family reveals the candidates involved in flowering and yield regulation of Tartary buckwheat (Fagopyrum tataricum).
    Nie M, Li L, He C, Lu J, Guo H, Li X, Jiang M, Zhan R, Sun W, Yin J, Wu Q.
    PeerJ; 2024 Aug 05; 12():e17183. PubMed ID: 38560476
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  • 26. Genome-wide identification and abiotic stress-responsive pattern of heat shock transcription factor family in Triticum aestivum L.
    Duan S, Liu B, Zhang Y, Li G, Guo X.
    BMC Genomics; 2019 Apr 01; 20(1):257. PubMed ID: 30935363
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  • 27. Integrated microRNA and transcriptome profiling reveal key miRNA-mRNA interaction pairs associated with seed development in Tartary buckwheat (Fagopyrum tataricum).
    Li H, Meng H, Sun X, Deng J, Shi T, Zhu L, Lv Q, Chen Q.
    BMC Plant Biol; 2021 Mar 09; 21(1):132. PubMed ID: 33750309
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  • 28. Genome-Wide Identification and Functional Analysis of the TIFY Family Genes in Response to Abiotic Stresses and Hormone Treatments in Tartary Buckwheat (Fagopyrum tataricum).
    Zhao Z, Meng G, Zamin I, Wei T, Ma D, An L, Yue X.
    Int J Mol Sci; 2023 Jun 30; 24(13):. PubMed ID: 37446090
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  • 29. Genome-Wide Identification, Evolution, and Expression Pattern Analysis of the GATA Gene Family in Tartary Buckwheat (Fagopyrum tataricum).
    Yao X, Zhou M, Ruan J, He A, Ma C, Wu W, Lai D, Fan Y, Gao A, Weng W, Cheng J.
    Int J Mol Sci; 2022 Oct 17; 23(20):. PubMed ID: 36293290
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  • 30. Genome-wide identification of MAPK gene family members in Fagopyrum tataricum and their expression during development and stress responses.
    Yao Y, Zhao H, Sun L, Wu W, Li C, Wu Q.
    BMC Genomics; 2022 Feb 03; 23(1):96. PubMed ID: 35114949
    [Abstract] [Full Text] [Related]

  • 31. The response of tartary buckwheat and 19 bZIP genes to abscisic acid (ABA).
    Xiao S, Liu Y, Wang A, Liu Y, Li X, Liu Z, Li X, Yang Y, Wang J.
    Mol Biol Rep; 2021 May 03; 48(5):4341-4350. PubMed ID: 34097202
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  • 32. Genome wide identification, classification and functional characterization of heat shock transcription factors in cultivated and ancestral cottons (Gossypium spp.).
    Rehman A, Atif RM, Azhar MT, Peng Z, Li H, Qin G, Jia Y, Pan Z, He S, Qayyum A, Du X.
    Int J Biol Macromol; 2021 Jul 01; 182():1507-1527. PubMed ID: 33965497
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  • 33. Differential stress-response expression of two flavonol synthase genes and accumulation of flavonols in tartary buckwheat.
    Li X, Kim YB, Kim Y, Zhao S, Kim HH, Chung E, Lee JH, Park SU.
    J Plant Physiol; 2013 Dec 15; 170(18):1630-6. PubMed ID: 23859559
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  • 34. Identification and characterization of granule bound starch synthase I (GBSSI) gene of tartary buckwheat (Fagopyrum tataricum Gaertn.).
    Wang X, Feng B, Xu Z, Sestili F, Zhao G, Xiang C, Lafiandra D, Wang T.
    Gene; 2014 Jan 25; 534(2):229-35. PubMed ID: 24211386
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  • 35. Comparative transcriptomic analysis reveals the regulatory mechanism of the gibberellic acid pathway of Tartary buckwheat (Fagopyrum tataricum (L.) Gaertn.) dwarf mutants.
    Sun Z, Wang X, Liu R, Du W, Ma M, Han Y, Li H, Liu L, Hou S.
    BMC Plant Biol; 2021 Apr 30; 21(1):206. PubMed ID: 33931042
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  • 36. Tartary Buckwheat (Fagopyrum tataricum) FtTT8 Inhibits Anthocyanin Biosynthesis and Promotes Proanthocyanidin Biosynthesis.
    Deng J, Wang L, Zhang L, Yang C, Huang J, Zhu L, Chen Q, Meng Z, Cai F, Shi T.
    Int J Mol Sci; 2023 Dec 11; 24(24):. PubMed ID: 38139196
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  • 37. Genome-wide investigation of WRKY transcription factors in Tartary buckwheat (Fagopyrum tataricum) and their potential roles in regulating growth and development.
    Sun W, Ma Z, Chen H, Liu M.
    PeerJ; 2020 Dec 11; 8():e8727. PubMed ID: 32185114
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  • 38. Genome-wide cloning, identification, classification and functional analysis of cotton heat shock transcription factors in cotton (Gossypium hirsutum).
    Wang J, Sun N, Deng T, Zhang L, Zuo K.
    BMC Genomics; 2014 Nov 06; 15(1):961. PubMed ID: 25378022
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  • 39. FtMYB6, a Light-Induced SG7 R2R3-MYB Transcription Factor, Promotes Flavonol Biosynthesis in Tartary Buckwheat (Fagopyrum tataricum).
    Yao P, Huang Y, Dong Q, Wan M, Wang A, Chen Y, Li C, Wu Q, Chen H, Zhao H.
    J Agric Food Chem; 2020 Nov 25; 68(47):13685-13696. PubMed ID: 33171044
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  • 40. Development of 50 InDel-based barcode system for genetic identification of tartary buckwheat resources.
    Sohn HB, Kim SJ, Hong SY, Park SG, Oh DH, Lee S, Nam HY, Nam JH, Kim YH.
    PLoS One; 2021 Nov 25; 16(6):e0250786. PubMed ID: 34081692
    [Abstract] [Full Text] [Related]

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