A Companion to Plant Physiology, Fifth Edition by Lincoln Taiz and Eduardo Zeiger
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Topic 10.13

Chapter Ten References

Susan Dunford, University of Cincinnati

Aki, T., Shigyo, M., Nakano, R., Yoneyama, T., and Yanagisawa, S. (2008) Nano scale proteomics revealed the presence of regulatory proteins including three FT-like proteins in phloem and xylem saps from rice. Plant Cell Physiol. 49: 767-790.

Aoki, K., Suzui, N., Fujimaki, S., Dohmae, N., Yonekura-Sakakibara, K., Fujiwara, T., Hayashi, H. Yamaya, T., and Sakakibara, H. (2005) Destination-selective long-distance movement of phloem proteins. Plant Cell 17: 1801–1814.

Banerjee, A. K., Chatterjee, M., Yu, Y., Suh, S.-G., Miller, W. A., and Hannapel, D. J. (2006) Dynamics of a mobile RNA of potato involved in a long-distance signaling pathway. Plant Cell 18: 3443-3457.

Bortolotti, C., Murillo, I., Fontanet, P., Coca, M., and San Segundo, B. (2005) Long-distance transort of the maize pathogenesis-related PRms protein through the phloem in transgenic tobacco plants. Plant Sci. 168: 813–821.

Dickinson, C. D., Altabella, T., and Chrispeels, M. J. (1991) Slow-growth phenotype of transgenic tomato expressing apoplastic invertase. Plant Physiol. 95: 420–425.

Ding, B., Itaya, A., and Qi, Y. (2003) Symplasmic protein and RNA traffic: Regulatory points and regulatory factors. Curr. Opin. Plant Biol. 6: 596–602.

Du, Y-C., Nose, A., Kondo, A., and Wasano, K. (2000) Diurnal changes in photosynthesis in sugarcane leaves: II. Enzyme activities and metabolite levels relating to sucrose and starch metabolism. Plant Production Science 3: 9-16.

Eamens, A., Wang, M.-B., Smith, N. A., and Waterhouse, P. M. (2008) RNA silencing in plants: yesterday, today, and tomorrow. Plant Physiol. 147: 456-468.

Fisher, D. B. (2000) Long-distance transport. In Biochemistry and Molecular Biology of Plants, B. B. Buchanan, W. Gruissem, and R. Jones, eds. American Society of Plant Physiologists, Rockville, MD, p.765.

Flugge, U.-I., Hausler, R. E., Ludewig, F., and Fischer, K. (2003) Functional genomics of phosphate antiport systems of plastids. Physiol. Plant. 118: 475–482.

Furch, A. C. U., Hafke, J. B., Schulz, A., and van Bel, A. J. E. (2007) Ca2+-mediated remote control of reversible sieve tube occlusion in Vicia faba. J. Exp. Bot. 58: 2827-2838.

Gaupels, F., Buhtz, A., Knauer, T., Deshmukh, S., Waller, F., van Bel, A. J. E., Kogel, K.-H., and Kehr, J. (2008) Adaptation of aphid stylectomy for analyses of proteins and mRNAs in barley phloem sap. J. Exp. Bot. 59: 3297-3306.

Geiger, D. R., and Swanson, C. A. (1965) Evaluation of selected parameters in a sugar beet translocation system. Plant Physiol. 40: 942–947.

Geiger, D. R., Shieh, W.-J., and Yu, X.-M. (1995) Photosynthetic carbon metabolism and translocation in wild-type and starch-deficient mutant Nicotiana sylvestris L. Plant Physiol. 107: 507–514.

Geiger, D. R., Sovonick, S. A., Shock, T. L., and Fellows, R. J. (1974) Role of free space in translocation in sugar beet. Plant Physiol. 54: 892–898.

Giaquinta, R. (1976) Evidence for phloem loading from the apoplast. Chemical modification of membrane sulfhydryl groups. Plant Physiol. 57: 872–875.

Gomez, G., and Pallas, V. (2004) A long-distance translocatable phloem protein from cucumber forms a ribonucleoprotein complex in vivo with Hop stunt viroid RNA. J. Virology 78: 10104–10110.

Gomez, G., Torres, H., and Pallas, V. (2005) Identification of translocatable RNA-binding phloem proteins from melon, potential components of the long-distance RNA transport system. Plant J. 41: 107-116.

Gottwald, J. R., Krysan, P. J., Young, J. C., Evert, R. F., and Sussman, M. R. (2000) Genetic evidence for the in planta role of phloem-specific plasma membrane sucrose transporters. In: Proceedings of the National Academy of Sciences of the United States of America. 97 (25): 13979-13984.

Hayashi, H., Fukuda, A., Suzui, N., and Fujimaki, S. (2000) Proteins in the sieve element–companion cell complexes: Their detection, localization and possible functions. Aust. J. Plant Physiol. 27: 489–496.

Haywood, V., Yu, T.-S., Huang, N.-C., and Lucas, W. J. (2005) Phloem long-distance trafficking of GIBBERELLIC ACID-INSENSITIVE RNA regulates leaf development. Plant J. 42: 49-68.

Imlau, A., Truernit, E., and Sauer, N. (1999) Cell-to-cell and long-distance trafficking of the green fluorescent protein in the phloem and symplastic unloading of the protein into sink tissues. Plant Cell 11: 309–322.

Joy, K. W. (1964) Translocation in sugar beet. I. Assimilation of 14CO2 and distribution of materials from leaves. J. of Exper. Bot. 15: 485–494.

Kehr, J., and Buhtz, A. (2008) Long distance transport and movement of RNA through the phloem. J. Exp. Bot. 59: 85-92.

King, R. W., and Zeevaart, J. A. D. (1974) Enhancement of phloem exudation from cut petioles by chelating agents. Plant Physiol. 53: 96–103.

Koch, K. E. (1996) Carbohydrate-modulated gene expression in plants. Annu. Rev. Plant Physiol. Plant Mol. Biol. 47: 509–540.

Krapp, A., and Stitt, M. (1995) An evaluation of direct and indirect mechanisms for the "sink-regulation" of photosynthesis in spinach: Changes in gas exchange, carbohydrates, metabolites, enzyme activities and steady-state transcript levels after cold-girdling source leaves. Planta 195: 313–323.

Kuhn, C., Franceschi, V. R., Schulz, A., Lemoine, R., and Frommer, W. B. (1997) Macromolecular trafficking indicated by localization and turnover of sucrose transporters in enucleate sieve elements. Science 275: 1298–1300.

la Cour Petersen, M., Hejgaard, J., Thompson, G. A., and Schulz, A. (2005) Cucurbit phloem serpins are graft-transmissible and appear to be resistant to turnover in the sieve element-companion cell complex. J. Exp. Bot. 56: 3111-3120.

Layzell, D. B., and LaRue, T. A. (1982) Modeling C and N transport to developing soybean fruits. Plant Physiol. 70: 1290–1298.

Marchant A., Bhalerao, R., Casimiroc, I., Eklof, J., Caseroc, P. J., Bennetta M, and Sandberg, S. (2002) AUX1 promotes lateral root formation by facilitating indole-3-acetic acid distribution between sink and source tissues in the Arabidopsis seedling. The Plant Cell 14: 589-597.

Mason, T. G., and Lewin, C. J. (1926) On the rate of carbohydrate transport in the greater yam, Dioscorea alata. Sci. Proc. R. Dublin Soc. 18: 203–205.

Mason, T. G., and Maskell, E. J. (1928) Studies in the transport of carbohydrates in the cotton plant. II The factors determining the rate and the direction of the movement of sugars. Ann. Bot. 42: 571–636.

McCaskill, A. and Turgeon, R. (2007) Phloem loading in Verbascum phoeniceum L. depends on the synthesis of raffinose-family oligosaccharides. PNAS 104: 19619-19624.

Morandi, B., Grappadelli, L. C., Rieger, M., and Lo Bianco, R. (2008) Carbohydrate availability affects growth and metabolism in peach fruit. Physiol. Plant. 133: 229-241.

Ohtake, N., Sato, T., Fujikake, H., Sueyoshi, K., Ohyama, T., Ishioka, N-S., Watanabe, S., Osa, A., Sekine, T., Matsuhashi, S., Ito, T., Mizuniwa, C., Kume, T., Hashimoto, S., Uchida, H., and Tsuji, A. (2001) Rapid N transport to pods and seeds in N-deficient soybean plants. J. Exp. Bot. 52: 277-283.

Rennie, E. A. and Turgeon, R. (2009) A comprehensive picture of loading strategies. Proc. Natl. Acad. Sci. USA 106: 14162-14167.

Riesmeier, J. W., Flugge, U.-I., Schulz, B., Heineke, D., Heldt, H.-W., Willmitzer, L., and Frommer, W. B. (1993) Antisense repression of the chloroplast triose phosphate translocator affects carbon partitioning in transgenic potato plants. Proc. Natl. Acad. Sci. USA 90: 6160–6164.

Serrato, A. J., Barajas-Lopez, J. de D., Chueca, A., and Sahrawy, M. (2009) Changing sugar partitioning in FBPase-manipulated plants. J. Exp. Bot. 60: 2923-2931.

Stadler, R., Brandner, J., Schulz, A., Gahrtz, M., and Sauer, N. (1995) Phloem loading by the PmSUC2 sucrose carrier from Plantago major occurs into companion cells. Plant Cell 7: 1545–1554.

Stadler, R., Wright, K. M., Lauterbach, C., Amon, G., Gahrtz, M., Feuerstein, A., Oparka, K. J., and Sauer, N. (2005) Expression of GFP-fusions in Arabidopsis companion cells reveals non-specific protein trafficking into sieve elements and identifies a novel post-phloem domain in roots. Plant J. 41: 319-331.

Swarup, R., Friml, J., Marchant, A., Ljung, K., Sandberg, G., Palme, K., and Bennett, M. (2001) Localization of the auxin permease AUX1 suggests two functionally distinct hormone transport pathways operate in the Arabidopsis root apex. Genes & Development 15: 2648-2653.

Tang, G.-Q., Luscher, M., and Sturm, A. (1999) Antisense repression of vacuolar and cell wall invertase in transgenic carrot alters early plant development and sucrose partitioning. Plant Cell 11: 177–189.

Thompson, M. V. (2006) Phloem: The long and the short of it. Trends Plant Sci. 11: 26–32.

Thompson, M. V. and Wolniak, S. M. (2008) A plasma membrane-anchored fluorescent protein fusion illuminates sieve element plasma membranes in Arabidopsis and tobacco. Plant Physiol. 146: 1599-1610.

Tournier, B., Tabler, M., and Kalantidis, K. (2006) Phloem flow strongly influences the systemic spread of silencing in GFP Nicotiana benthamiana plants. Plant J. 47: 383-394.

Truernit, E., Bauby, H., Dubreucq, B., Grandjean, O., Runions, J., Barthelemy, J., and Palauqui, J.-C. (2008) High-resolution whole-mount imaging of three-dimensional tissue organization and gene expression enables the study of phloem development and structure in Arabidopsis. Plant Cell 20: 1494-1503.

van Bel, A. J. E. (2003) The phloem, a miracle of ingenuity. Plant, Cell Environ. 26: 125–149.

von Schweinichen, C. and Buttner, M. (2005) Expression of a plant cell wall invertase in roots of Arabidopsis leads to early flowering and an increase in whole plant biomass. Plant Biol. 7: 469-475.

Vaughn, M. W., Harrington, G. N. , and Bush, D. R. (2002) Sucrose-mediated transcriptional regulation of sucrose symporter activity in the phloem. Proc. Natl. Acad. Sci. USA 99: 10876–10880.

Viola, R., Roberts, A. G., Haupt S., Gazzania S., Hancock, R. D., Marmiroli, N., Machray, G. C., and Oparka, K. J. (2001) Tuberization in potato involves a switch from apoplastic to symplastic phloem unloading. The Plant Cell 13: 385-398.

Walz, C., Giavalisco, P., Schad, M., Juenger, M., Klose, J., and Kehr, J. (2004) Proteomics of cucurbit phloem exudate reveals a network of defence proteins. Phytochemistry 65: 1795-1804.

Yoo, B.-C., Kragler, F., Varkonyl-Gasic, E., Haywood, V., Archer-Evans, S., Lee, Y. M., Lough, T. J., and Lucas, W. J. (2004) A systemic small RNA signaling system in plants. Plant Cell 16: 1979–2000. Zimmermann, M. H. and Brown, C. L. (1971) Trees: Structure and Function. Springer-Verlag, Berlin.

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