GAB-2018v9n3 - page 9

Genomics and Applied Biology 2018, Vol.9, No.3, 14-19
19
Flores T., Todd C.D., Tovar-Mendez A., Dhanoa P.K., Correa-Aragunde N., Hoyos M.E., Brownfield D.M., Mullen R.T., Lamattina L., and Polacco J.C., 2008,
Arginase-negative mutants of arabidopsis exhibit increased nitric oxide signaling in root development, Plant Physiology 147(4): 1936-1946
PMid: 18567826
PMCid: PMC2492630
Goldraij A., and Polacco J.C., 1999, Arginase is inoperative in developing soybean embryos, Plant Physiology, 119, 297
PMid: 9880372
PMCid: PMC32232
Herman E.M., and Larkins B.A., 1999, Protein storage bodies and vacuoles, Plant Cell Online 11(4): 601-613
Krumpelman P.M., Freyermuth S.K., Cannon J.F., Fink G.R., and Polacco J.C.,1995, Nucleotide sequence of arabidopsis thaliana arginase expressed in yeast,
Plant Physiology 107(4): 1479-1480
PMid: 7770544
PMCid: PMC157295
Mori M., 2007, Regulation of nitric oxide synthesis and apoptosis by arginase and arginine recycling, J. Nutr. 137(6 Suppl 2): 1616S-1620S
PMid:17513437
Ma X.,Cheng Z., Qin R.,Qiu Y.,Heng Y.,Yang H.,Ren Y.,Wang X.,Bi J., Ma X.,et al., 2013, OsARG encodes an arginase that plays critical roles in panicle
development and grain production in rice, The Plant Journal, 73: 190-200
PMid: 26011250
Nunes-Nesi A., Fernie A. R., and Stitt M., 2010, Metabolic and signaling aspects underpinning the regulation of plant carbon nitrogen Interactions, Molecular
Plant, 3(6): 973-996
PMid: 20926550
Palmieri L., Todd C.D., Roberto Arrigoni, Hoyos M.E., Antonella Santoro, Polacco J.C., and Ferdinando Palmieriet, 2006, Arabidopsis mitochondria have two
basic amino acid transporters with partially overlapping specificities and differential expression in seedling development, Biochim Biophys Acta,
1757(9-10): 1277-1283
Sumner J.B, 1926, The isolation and crystallization of the enzyme urease, J. Biol. Chem, 69: 435-441
Shi H., Ye T., Chen F., Cheng Z., Wang Y., Yang P., Zhang Y., and Chan Z., 2013, Manipulation of arginase expression modulates abiotic stress tolerance in
Arabidopsis: effect on arginine metabolism and ROS accumulation, Journal of Experimental Botany, 64(5): 1367-1379
PMid: 23378380
PMCid: PMC3598423
Todd C.D., Cooke J.E.K, Mullen R.T., adng Gifford D.J, 2001, Regulation of loblolly pine (Pinus taeda L.) arginase in developing seedling tissue during
germination and post-germinative growth, Plant Molecular Biology, 45: 555-565
PMid: 11414614
Uheda E., and Maejima K., 2009, Inhibition of nitrogen fixing activity of the cyanobiont affects the localization of glutamine synthetase in hair cells of Azolla, J
Plant Physiol, 166 (15): 1705-1709
PMid: 19464754
Yang H.Q., and Gao H.J., 2007, Physiological functions of plant arginine and its metabolites, Journal of Plant Physiology and Molecular Biology, 33 (1): 1-8
PMid: 17287563
Yu X.Z., and Zhang F.Z., 2012, Activities of nitrate reductase and glutamine synthetase in rice seedlings during cyanide metabolism, J Hazard Mater, 225:
190-194
PMid: 22633925
1,2,3,4,5,6,7,8 10
Powered by FlippingBook