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183 related items for PubMed ID: 38098107

  • 1. Metabolic GWAS-based dissection of genetic basis underlying nutrient quality variation and domestication of cassava storage root.
    Ding Z, Fu L, Wang B, Ye J, Ou W, Yan Y, Li M, Zeng L, Dong X, Tie W, Ye X, Yang J, Xie Z, Wang Y, Guo J, Chen S, Xiao X, Wan Z, An F, Zhang J, Peng M, Luo J, Li K, Hu W.
    Genome Biol; 2023 Dec 14; 24(1):289. PubMed ID: 38098107
    [Abstract] [Full Text] [Related]

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  • 3. Resequencing of 388 cassava accessions identifies valuable loci and selection for variation in heterozygosity.
    Hu W, Ji C, Liang Z, Ye J, Ou W, Ding Z, Zhou G, Tie W, Yan Y, Yang J, Ma L, Yang X, Wei Y, Jin Z, Xie J, Peng M, Wang W, Guo A, Xu B, Guo J, Chen S, Wang M, Zhou Y, Li X, Li R, Xiao X, Wan Z, An F, Zhang J, Leng Q, Li Y, Shi H, Ming R, Li K.
    Genome Biol; 2021 Nov 16; 22(1):316. PubMed ID: 34784936
    [Abstract] [Full Text] [Related]

  • 4. Large-scale genome-wide association study, using historical data, identifies conserved genetic architecture of cyanogenic glucoside content in cassava (Manihot esculenta Crantz) root.
    Ogbonna AC, Braatz de Andrade LR, Rabbi IY, Mueller LA, Jorge de Oliveira E, Bauchet GJ.
    Plant J; 2021 Feb 16; 105(3):754-770. PubMed ID: 33164279
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  • 5. Plant tissue analysis as a tool for predicting fertiliser needs for low cyanogenic glucoside levels in cassava roots: An assessment of its possible use.
    Imakumbili MLE, Semu E, Semoka JMR, Abass A, Mkamilo G.
    PLoS One; 2020 Feb 16; 15(2):e0228641. PubMed ID: 32053630
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  • 6. Soil nutrient adequacy for optimal cassava growth, implications on cyanogenic glucoside production: A case of konzo-affected Mtwara region, Tanzania.
    Imakumbili MLE, Semu E, Semoka JMR, Abass A, Mkamilo G.
    PLoS One; 2019 Feb 16; 14(5):e0216708. PubMed ID: 31083702
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  • 7. Cytochromes P-450 from cassava (Manihot esculenta Crantz) catalyzing the first steps in the biosynthesis of the cyanogenic glucosides linamarin and lotaustralin. Cloning, functional expression in Pichia pastoris, and substrate specificity of the isolated recombinant enzymes.
    Andersen MD, Busk PK, Svendsen I, Møller BL.
    J Biol Chem; 2000 Jan 21; 275(3):1966-75. PubMed ID: 10636899
    [Abstract] [Full Text] [Related]

  • 8. Engineering cyanogen synthesis and turnover in cassava (Manihot esculenta).
    Siritunga D, Sayre R.
    Plant Mol Biol; 2004 Nov 21; 56(4):661-9. PubMed ID: 15630626
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  • 9. Genome-Wide Association Study of Root Mealiness and Other Texture-Associated Traits in Cassava.
    Uchendu K, Njoku DN, Paterne A, Rabbi IY, Dzidzienyo D, Tongoona P, Offei S, Egesi C.
    Front Plant Sci; 2021 Nov 21; 12():770434. PubMed ID: 34975953
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  • 10. Cassava plants with a depleted cyanogenic glucoside content in leaves and tubers. Distribution of cyanogenic glucosides, their site of synthesis and transport, and blockage of the biosynthesis by RNA interference technology.
    Jørgensen K, Bak S, Busk PK, Sørensen C, Olsen CE, Puonti-Kaerlas J, Møller BL.
    Plant Physiol; 2005 Sep 21; 139(1):363-74. PubMed ID: 16126856
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  • 11. Diurnal regulation of cyanogenic glucoside biosynthesis and endogenous turnover in cassava.
    Schmidt FB, Cho SK, Olsen CE, Yang SW, Møller BL, Jørgensen K.
    Plant Direct; 2018 Feb 21; 2(2):e00038. PubMed ID: 31245705
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  • 12. Cassava genome from a wild ancestor to cultivated varieties.
    Wang W, Feng B, Xiao J, Xia Z, Zhou X, Li P, Zhang W, Wang Y, Møller BL, Zhang P, Luo MC, Xiao G, Liu J, Yang J, Chen S, Rabinowicz PD, Chen X, Zhang HB, Ceballos H, Lou Q, Zou M, Carvalho LJ, Zeng C, Xia J, Sun S, Fu Y, Wang H, Lu C, Ruan M, Zhou S, Wu Z, Liu H, Kannangara RM, Jørgensen K, Neale RL, Bonde M, Heinz N, Zhu W, Wang S, Zhang Y, Pan K, Wen M, Ma PA, Li Z, Hu M, Liao W, Hu W, Zhang S, Pei J, Guo A, Guo J, Zhang J, Zhang Z, Ye J, Ou W, Ma Y, Liu X, Tallon LJ, Galens K, Ott S, Huang J, Xue J, An F, Yao Q, Lu X, Fregene M, López-Lavalle LA, Wu J, You FM, Chen M, Hu S, Wu G, Zhong S, Ling P, Chen Y, Wang Q, Liu G, Liu B, Li K, Peng M.
    Nat Commun; 2014 Oct 10; 5():5110. PubMed ID: 25300236
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  • 13. Quantitative trait loci controlling cyanogenic glucoside and dry matter content in cassava (Manihot esculenta Crantz) roots.
    Balyejusa Kizito E, Rönnberg-Wästljung AC, Egwang T, Gullberg U, Fregene M, Westerbergh A.
    Hereditas; 2007 Sep 10; 144(4):129-36. PubMed ID: 17850597
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  • 14. Biosynthesis of the cyanogenic glucosides linamarin and lotaustralin in cassava: isolation, biochemical characterization, and expression pattern of CYP71E7, the oxime-metabolizing cytochrome P450 enzyme.
    Jørgensen K, Morant AV, Morant M, Jensen NB, Olsen CE, Kannangara R, Motawia MS, Møller BL, Bak S.
    Plant Physiol; 2011 Jan 10; 155(1):282-92. PubMed ID: 21045121
    [Abstract] [Full Text] [Related]

  • 15. Farmers' perceptions on the causes of cassava root bitterness: A case of konzo-affected Mtwara region, Tanzania.
    Imakumbili MLE, Semu E, Semoka JMR, Abass A, Mkamilo G.
    PLoS One; 2019 Jan 10; 14(4):e0215527. PubMed ID: 30998724
    [Abstract] [Full Text] [Related]

  • 16. Natural variation in expression of genes associated with carotenoid biosynthesis and accumulation in cassava (Manihot esculenta Crantz) storage root.
    Carvalho LJ, Agustini MA, Anderson JV, Vieira EA, de Souza CR, Chen S, Schaal BA, Silva JP.
    BMC Plant Biol; 2016 Jun 10; 16(1):133. PubMed ID: 27286876
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  • 18. Generation of cyanogen-free transgenic cassava.
    Siritunga D, Sayre RT.
    Planta; 2003 Jul 10; 217(3):367-73. PubMed ID: 14520563
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  • 20. Domestication Syndrome Is Investigated by Proteomic Analysis between Cultivated Cassava (Manihot esculenta Crantz) and Its Wild Relatives.
    An F, Chen T, Stéphanie DM, Li K, Li QX, Carvalho LJ, Tomlins K, Li J, Gu B, Chen S.
    PLoS One; 2016 Jul 10; 11(3):e0152154. PubMed ID: 27023871
    [Abstract] [Full Text] [Related]

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