References
- Agarwal, L., Isar, J., Meghwanshi, G. K., Saxena, R. K. (2007. Influence of environmental and nutrition factors on succinic acid production and enzymes of reverse tricarboxylic acid cycle from Enterococcus flavescens. Enzyme Microbial Technol., 40, 629-636
- Bargmann, B. O. R., Birnbaum, K. D. (2009). Positive fluorescent selection permits preside, rapid and in-depth overexpression analysis in plant protoplasts. Plant Physiol., 149, 1231-1239.
- Barnabás, B. (2003). Protocol for producing doubled haploid plants from anther culture of wheat (Triticum aestivum L.). In: Maluszymski, M., Kasha, K. J., Forster, B. P., Szarejko I. (eds.). Doubled Haploid Production in Crop Plants. Kluwer Academic Publishers, Dordrecht, pp. 65-70.
- Berestovsky, G. N., Ternovsky, V. I., Kataev, A. A. (2001). Through pore diameter in the cell wall of Chara coralline. J. Exper. Bot., 52, 1173-1177.
- Bouche, N., Falt A., Bouchez, D., M¸ller, S. G., Fromm, H., 2003. Mitochondrial succinic-semialdehyde dehydrogenase of the ã-aminobutyrate shunt is required to restrict levels of reactive oxygen intermediates in plants. PNAS (Proceedings of the National Academy of Sciences of the United States of America), 100 (11), 6843-6848.
- Chambers, E. (1728). Spirit of Amber. Cyclopaedia, p. 75.
- Chen, S. W., Xin, Q., Kong, W. X., Min, L., Li, J. F. (2003). Anxiolytic effect of succinic acid in mice. Life Sci., 73, 3257-3264.
- Davison, B. H., Parks, J., Davis, M. F., Donohoe, B. S. (2013). Plant cell walls: Basics of structure, chemistry, accessibility and influence on conversion. In: Wyman, C. E. (Ed.). Aqueous Pretreatment of Plant Biomass for Biological and Chemical Conversion to Fuels and Chemicals. John Wiley & Sons Ltd, pp. 24-38.
- Delhomme C., Weuster-Botz D., Kühn F. E., 2009. Succinic acid from renewable resources as a C4 building-block chemical-a review of the catalytic possibilities in aqueous media. Green Chem., 11, 13-26.
- Dimkpa, C. O., McLean, J. E., Latta, D. E., Manangó, E., Britt, D. W., Johnson, W. P., Boyanov, M. I., Anderson, A. J. (2012). CuO and ZnO nanoparticles; phytotoxicity, metal speciation, and induction of oxidative stress in sand-grown wheat. J. Nanoparticle Res., 14 (9), 1-15.
- Djaković, T., Jovanoviã, Z. (2003). The role of cell wall peroxidase in the inhibition of leaf and fruit growth. Bulgarian J. Plant Phys., Special Issue, 264-272.
- Dožel, J., Greilhuber, J., Suda, J. (2007). Flow cytometry with plants: An overview. In: Doležel, J., Greilhuber, J., Suda J. (eds.). Flow cytometry with plant cells. WILEY- VCH Verlag Gmb H&Co, KGaA, pp. 41-65.
- Eenschooten, C., Guillaumie, F., Kontogeorgis, G. M., Stenby, E. H., Schwach-Abdellaoui, K. (2010). Preparation and structural characterisation of novel and versatile amphiphilicoctenyl succinic anhydride-modified hyaluronic acid derivatives. Carbohyd. Polym., 79, 597-605.
- Galbraith, D. W. (2010). Flow cytometry and fluorescence-activated cell sorting in plants: The past, present, and future. Biomédica, 30, 65-70.
- Grauda, D., Mikelsone, A., Auzina, A., Stramkale, V., Rashal, I. (2013). Use of plant biotechnology methods for flax breeding in Latvia. In: Zaikov, G. E., Pudel, F. (eds.). Organic Chemistry, Biochemistry, Biotechnology and Renewable Resources. Research and Development Today and Tomorrow. Nova Science Publishers, Inc., USA, pp. 1-10.
- Grauda, D., Mikelsone, A., Rashal, I. (2009). Use of antioxidants for enhancing flax multiplication rate in tissue culture. Acta Hort., 812, 147-151.
- Kasha, K. J., Simion, E., Oro, R., Shim, Y. S. (2003). Barley isolated microspore culture protocol. In: Maluszynski, K. J. Kasha, Forster, B. P., Szarejko, V. (eds.). Double Haploid Production in Crop Plants. Kluwer Academic, Dordrecht, Boston and London, pp. 43-47.
- Kinrade, T. B., Yermiyahu, U., Rytwo, G. (1998). Computation of surface electrical potentials of plant cell membranes. Plant Physiol., 118 (2), 505-512.
- Knauf, F., Mohebbi, N., Teichert, C., Herold, D., Rogina, B., Helfand, S., Gollasch, M., Luft, F. C., Aronson, P. S. (2006). The life-extending gene in dyencodesanex changer for Krebs-cycleintermediates. Biochem. J., PMID: 16608441.
- Lyashenko, I. (2014). Assessment of the impact of amber solution on derma and subcutaneous tissue cell structure. In: Knēts, I. (Ed.). Amber Way: Towards the Future of Latvia in the World. Mantojums, Rīga, pp. 51-76.
- Lyashenko, I. (2014). Preparation and research of source materials. In: Knēts, I. (Ed.): Amber Way: Towards the Future of Latvia in the World. Mantojums, Rīga, pp. 77-97.
- Mie, Y., Kishita, M., Nishiyama, K., Taniguchi, I. (2008). Interfacial electron transfer kinetics of myoglobins chemically modified with succinic anhydride at an indium oxide electrode. J. Electro Anal. Chem., 624, 305-309.
- Murashige, T., Skoog, F. (1962). A revised medium for rapid growth and bioassays in tobacco tissue culture. Plantarium, 15, 473-497.
- Neves-Petersen, M. T., Klitgaard, S., Skovsen, E., Petersen, S. B., T¸mmeraas, K., Schwach-Abdellaoui, K. (2010). Biophysical properties of phenyl succinic acid derivatised hyaluronic acid. J. Fluoresc., 20, 483-492.
- Oparka, K. J. (2004). Getting the message across: How do plant cells exchange macromolecular complexes? Trends Plant Sci., 9 (1), 33-41.
- Suno, M., Nagaoka, A. (1989). Inhibition of Lipid Peroxidation by Idebenonein Brain Mitochondria in the Presence of Succinate. Central Research Division, Take da Chemical Industries, Ltd., Osaka, Japan. PMID: 2764644
- Tretter, L., Szabados, G., Ando, A. (1987). Effect of succinate on mitochondria lipid peroxidation, the protective effect of succinate against functional and structural changes induced by lipid peroxidation. J. Bioenerg. Biomembr., 19 (1), 31-44
- Wang, P., Zhou, D., Kinraide, T. B., Luo, X., Li, L., Li, D., Zhang, H. (2008). Cell membrane surface potential (ø0) plays a dominant role in the phytotoxicity of coper and arsenate. Plant Physiol., 148 (4), 2134-2143.