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Journal Abstract Search

205 related items for PubMed ID: 16244140

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  • 2. Loss of the two major leaf isoforms of sucrose-phosphate synthase in Arabidopsis thaliana limits sucrose synthesis and nocturnal starch degradation but does not alter carbon partitioning during photosynthesis.
    Volkert K, Debast S, Voll LM, Voll H, Schießl I, Hofmann J, Schneider S, Börnke F.
    J Exp Bot; 2014 Oct; 65(18):5217-29. PubMed ID: 24994761
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  • 4. Characterization of multiple SPS knockout mutants reveals redundant functions of the four Arabidopsis sucrose phosphate synthase isoforms in plant viability, and strongly indicates that enhanced respiration and accelerated starch turnover can alleviate the blockage of sucrose biosynthesis.
    Bahaji A, Baroja-Fernández E, Ricarte-Bermejo A, Sánchez-López ÁM, Muñoz FJ, Romero JM, Ruiz MT, Baslam M, Almagro G, Sesma MT, Pozueta-Romero J.
    Plant Sci; 2015 Sep; 238():135-47. PubMed ID: 26259182
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  • 6. Tissue specificity and diurnal change in gene expression of the sucrose phosphate synthase gene family in rice.
    Okamura M, Aoki N, Hirose T, Yonekura M, Ohto C, Ohsugi R.
    Plant Sci; 2011 Aug; 181(2):159-66. PubMed ID: 21683881
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  • 7. Transgenic cotton over-producing spinach sucrose phosphate synthase showed enhanced leaf sucrose synthesis and improved fiber quality under controlled environmental conditions.
    Haigler CH, Singh B, Zhang D, Hwang S, Wu C, Cai WX, Hozain M, Kang W, Kiedaisch B, Strauss RE, Hequet EF, Wyatt BG, Jividen GM, Holaday AS.
    Plant Mol Biol; 2007 Apr; 63(6):815-32. PubMed ID: 17287885
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  • 8. Elevated sucrose-phosphate synthase activity in transgenic tobacco sustains photosynthesis in older leaves and alters development.
    Baxter CJ, Foyer CH, Turner J, Rolfe SA, Quick WP.
    J Exp Bot; 2003 Aug; 54(389):1813-20. PubMed ID: 12815030
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  • 9. Growth of tobacco in short-day conditions leads to high starch, low sugars, altered diurnal changes in the Nia transcript and low nitrate reductase activity, and inhibition of amino acid synthesis.
    Matt P, Schurr U, Klein D, Krapp A, Stitt M.
    Planta; 1998 Dec; 207(1):27-41. PubMed ID: 9951717
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  • 12. Engineering plants for elevated CO(2): a relationship between starch degradation and sugar sensing.
    Sharkey TD, Laporte M, Lu Y, Weise S, Weber AP.
    Plant Biol (Stuttg); 2004 May; 6(3):280-8. PubMed ID: 15143436
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  • 14. Decrease in leaf sucrose synthesis leads to increased leaf starch turnover and decreased RuBP regeneration-limited photosynthesis but not Rubisco-limited photosynthesis in Arabidopsis null mutants of SPSA1.
    Sun J, Zhang J, Larue CT, Huber SC.
    Plant Cell Environ; 2011 Apr; 34(4):592-604. PubMed ID: 21309792
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  • 15. The trehalose pathway in maize: conservation and gene regulation in response to the diurnal cycle and extended darkness.
    Henry C, Bledsoe SW, Siekman A, Kollman A, Waters BM, Feil R, Stitt M, Lagrimini LM.
    J Exp Bot; 2014 Nov; 65(20):5959-73. PubMed ID: 25271261
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  • 18. A cytosolic glucosyltransferase is required for conversion of starch to sucrose in Arabidopsis leaves at night.
    Chia T, Thorneycroft D, Chapple A, Messerli G, Chen J, Zeeman SC, Smith SM, Smith AM.
    Plant J; 2004 Mar; 37(6):853-63. PubMed ID: 14996213
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  • 19. Phylogenetic and expression analysis of sucrose phosphate synthase isozymes in plants.
    Lutfiyya LL, Xu N, D'Ordine RL, Morrell JA, Miller PW, Duff SM.
    J Plant Physiol; 2007 Jul; 164(7):923-33. PubMed ID: 16876912
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  • 20. Impact of concurrent overexpression of cytosolic glutamine synthetase (GS1) and sucrose phosphate synthase (SPS) on growth and development in transgenic tobacco.
    Seger M, Gebril S, Tabilona J, Peel A, Sengupta-Gopalan C.
    Planta; 2015 Jan; 241(1):69-81. PubMed ID: 25213117
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