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Journal Abstract Search

225 related items for PubMed ID: 21327816

  • 21. Proteomics Profiling Reveals Carbohydrate Metabolic Enzymes and 14-3-3 Proteins Play Important Roles for Starch Accumulation during Cassava Root Tuberization.
    Wang X, Chang L, Tong Z, Wang D, Yin Q, Wang D, Jin X, Yang Q, Wang L, Sun Y, Huang Q, Guo A, Peng M.
    Sci Rep; 2016 Jan 21; 6():19643. PubMed ID: 26791570
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  • 22. Single-cell RNA-sequencing profiles reveal the developmental landscape of the Manihot esculenta Crantz leaves.
    Zang Y, Pei Y, Cong X, Ran F, Liu L, Wang C, Wang D, Min Y.
    Plant Physiol; 2023 Dec 30; 194(1):456-474. PubMed ID: 37706525
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  • 23. Engineering cyanogen synthesis and turnover in cassava (Manihot esculenta).
    Siritunga D, Sayre R.
    Plant Mol Biol; 2004 Nov 30; 56(4):661-9. PubMed ID: 15630626
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  • 25. RNAi inhibition of feruloyl CoA 6'-hydroxylase reduces scopoletin biosynthesis and post-harvest physiological deterioration in cassava (Manihot esculenta Crantz) storage roots.
    Liu S, Zainuddin IM, Vanderschuren H, Doughty J, Beeching JR.
    Plant Mol Biol; 2017 May 30; 94(1-2):185-195. PubMed ID: 28315989
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  • 27. Changes in sucrose metabolism patterns affect the early maturation of Cassava sexual tetraploid roots.
    Lai H, Zhou Y, Chen W, Deng Y, Qiu Y, Chen X, Guo J.
    BMC Plant Biol; 2022 Dec 10; 22(1):574. PubMed ID: 36496357
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  • 28. Symplasmic phloem unloading and radial post-phloem transport via vascular rays in tuberous roots of Manihot esculenta.
    Mehdi R, Lamm CE, Bodampalli Anjanappa R, Müdsam C, Saeed M, Klima J, Kraner ME, Ludewig F, Knoblauch M, Gruissem W, Sonnewald U, Zierer W.
    J Exp Bot; 2019 Oct 24; 70(20):5559-5573. PubMed ID: 31232453
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  • 29. Character changes and Transcriptomic analysis of a cassava sexual Tetraploid.
    Chen X, Lai H, Li R, Yao Y, Liu J, Yuan S, Fu S, Hu X, Guo J.
    BMC Plant Biol; 2021 Apr 19; 21(1):188. PubMed ID: 33874893
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  • 31. The Cassava Source-Sink project: opportunities and challenges for crop improvement by metabolic engineering.
    Sonnewald U, Fernie AR, Gruissem W, Schläpfer P, Anjanappa RB, Chang SH, Ludewig F, Rascher U, Muller O, van Doorn AM, Rabbi IY, Zierer W.
    Plant J; 2020 Aug 19; 103(5):1655-1665. PubMed ID: 32502321
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  • 32. Cassava (Manihot esculenta Krantz) genome harbors KNOX genes differentially expressed during storage root development.
    Guo D, Li HL, Tang X, Peng SQ.
    Genet Mol Res; 2014 Dec 18; 13(4):10714-26. PubMed ID: 25526192
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  • 33. Alpha-Glucan, Water Dikinase 1 Affects Starch Metabolism and Storage Root Growth in Cassava (Manihot esculenta Crantz).
    Zhou W, He S, Naconsie M, Ma Q, Zeeman SC, Gruissem W, Zhang P.
    Sci Rep; 2017 Aug 29; 7(1):9863. PubMed ID: 28852191
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  • 35. Identification and expression analyses of new potential regulators of xylem development and cambium activity in cassava (Manihot esculenta).
    Siebers T, Catarino B, Agusti J.
    Planta; 2017 Mar 29; 245(3):539-548. PubMed ID: 27900471
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  • 37. Integrated Metabolomic and Transcriptomic Analyses Reveals Sugar Transport and Starch Accumulation in Two Specific Germplasms of Manihot esculenta Crantz.
    Cai J, Xue J, Zhu W, Luo X, Lu X, Xue M, Wei Z, Cai Y, Ou W, Li K, An F, Chen S.
    Int J Mol Sci; 2023 Apr 13; 24(8):. PubMed ID: 37108399
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