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From Solanum tuberosum

FisHwicK M J and wright a j (1980) Isolation and characterisation of amyloplast envelope membranes from Solanum tuberosum. Phytochemistry, 19, 55-9. [Pg.275]

Rosahl S, Schmidt R, Schell J, Willmitzer L (1986) Isolation and characterization of a gene from Solanum tuberosum encoding patatin, the major storage protein in potato tubers. Mol Gen Genet 203 214-220... [Pg.396]

Sanford L L, Deahl K L, Sinde S L and Ladd Jr T L (1992), Glycoalkaloid content in tubers from Solanum tuberosum populations selected for potato leafhopper resistance , Am Potato J, 69, 693-703. [Pg.328]

Hermsen, J. G. T, Verdenius, J. (1973). Selection from Solanum tuberosum group Rhureja of genotypes combining high-frequency haploid induction with homozygosity for embryo-spot. Euphytica, 22, 244-259. [Pg.55]

Sorensen, K. K., Kirk, H. G., Olsson, K, Labouriau, R., Christiansen, J. (2008). A major QTL and an SSR marker associated with glycoalkaloid content in potato tubers from Solanum tuberosum x S. sparsipilum located on chromosome I. Theoretical and Applied Genetics, 117, 1-9. [Pg.60]

Ring, S. G., Selvendran, R. R. (1978). Purification and methylation analysis of cell wall material from Solanum tuberosum. Phytochemistry, 17, 745-752. [Pg.80]

Andersen, 0.M., Opheim, S., Aksnes, D.W., and Frpystein, N.A. 1991b. Structure of petanin, an acylated anthocyanin isolated from Solanum tuberosum, using homo- and hetero-nuclear two-dimensional nuclear magnetic resonance techniques. Phytochem. Anal. 2 230-236. [Pg.835]

Romer U, Schrader H, Gunther N et al (2004) Expression, purification and characterization of recombinant sucrose synthase 1 from Solanum tuberosum L. for carbohydrate engineering. J Biotechnol 107 135-149... [Pg.140]

A variety of aspartic protease inhibitor (API) proteins have been resolved from plants [122-135] of which the best characterized at the gene and protein level are those from Solanum tuberosum (potato) (Solanaceae) [124-134] (Table 4). The potato aspartic protease inhibitor proteins are typically about 190 residues (about 20 kDa), have 3 disulphide bridges, are homologous to the soybean trypsin inhibitor (Kunitz) family Pis [133] and can also inhibit trypsin [124-134] (Table 4). [Pg.590]

Leroch M (2006) Molekulare, biochemische und physiologische Eigenschaften von Transportproteinen aus der MCF (mitochondrial carrier family) in Pflanzen und Protisten. PhD thesis, Technische Universitat Kaiserslautern, Germany Leroch M, Kirchberger S, Haferkamp I, Wahl M, Neuhaus HE, Tjaden J (2005) Identification and characterization of a novel plastidic adenine nucleotide uniporter from Solanum tuberosum. J Biol Chem 280 17992-18000... [Pg.157]

Zimowski, J. (1992) Specificity and some other properties of cytosolic and membranous UDPglucose 3 p-hydroxysteroid glucosyltransferases from Solanum tuberosum leaves. Phytochemistry, 31, 2977-81. [Pg.363]

The potato variety Desiree has been transformed using Agrobacterium tumefaciens. Similar experiments to develop transgenic amylose-free potatoes have been described (25). In contrast to that approach, in the present study tuber specific expression has been achieved by using the patatin B33 promotor from Solanum tuberosum. [Pg.255]

Tuberonic acid (5) was isolated as a lactone from J. grandiflorum L. [19], An acetyl tuberonic acid amide with phenylalanine was isolated from Praxelis dematidea [20] and the glucoside was isolated from Solanum tuberosum L. as a potato tuber-inducing substance [21,22], The methylester of the glucoside was isolated from Helianthus... [Pg.267]

Hyoscyamine and its racemic form atropine (extracted from Hyoscyamus niger, Atropa belladonna, and Mandragora officinarum), scopolamine (a co-product of hyoscyamine in Datura plants), cocaine (isolated from Erytroxylon coca), and calystegine (isolated from Solanum tuberosum) are tropane alkaloids that have widespread pharmacological use [38, 39], Atropine, hyoscyamine, and scopolamine... [Pg.542]

Phytoalexins from Solanum tuberosum and Ipomea batatis, respectively... [Pg.516]

Solanidine and demissidine can be separated on a silver nitrate-impregnated silica gel layer. Schbeibeb et al. [207 b] have used TLC also for preparative separation of Solanum alkaloids. Using 8 solvents on silica gel G layers, Paqijin and Lepage [158] have separated the three principal alkaloids from Solanum tuberosum, i. e., solanine, chaconine and solanidine. Antimony(III) chloride reagent was used for visualisation. P bez-Medina et al. [164] have investigated many Solanum species in the search for a raw material source of solasodine. They used TLC on silica gel 6 with n-butanol-methanol-diethylamine (85 + 5 + 10) as solvent and antimony(III) chloride (Rgt. No. 16) for visualisation. The TLC of this alkaloid class is described in other publications [2, 25, 183, 208]. [Pg.459]

Cell wall material from Solanum tuberosum has been purified and its structure has been investigated by the use of methylation analysis. The general features of the cell wall material were discussed in the light of these results. [Pg.247]

Griffiths D. W., Shepherd T., Stewart D. Comparison ofthe calystegine composition and content of potato sprouts and tuhers from Solanum tuberosum group Phureja and Solanum tuberosum group Tuberosum. Journal of Agricultural and Food Chemistry, 56 5197-5204 (2008). [Pg.1063]

See other pages where From Solanum tuberosum is mentioned: [Pg.5]    [Pg.59]    [Pg.16]    [Pg.332]    [Pg.336]    [Pg.255]    [Pg.332]    [Pg.336]    [Pg.180]    [Pg.520]    [Pg.310]    [Pg.496]    [Pg.507]   
See also in sourсe #XX -- [ Pg.605 ]

See also in sourсe #XX -- [ Pg.29 , Pg.605 ]



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