Process for the isolation of preparative quantities of

In a field experiment, nematicides controlled the disease of sugarbeets caused by Heterodera schachtii and Fusarium oxysporum. Biocides that were both fungicidal and nematicidal also controlled the disease, but sugar yields were no higher than those obtained with the plain nematicides. In greenhouse experiments, the interaction between H. schachtii and F. oxysporam was disadvantageous to the nematode. Damage to sugarbeets was less when the fungus and the nematode were present than when only the nematode was present. The fungus inhibited nematode invasion and development in sugarbeet seedlings, thereby decreasing the number of nematodes that matured about 3-fold.     

Antagonistic Interaction of Heterodera schachtii Schmidt and Fusarium oxysporum (Woll.) on Sugarbeets

In a field experiment, nematicides controlled the disease of sugarbeets caused by Heterodera schachtii and Fusarium oxysporum. Biocides that were both fungicidal and nematicidal also controlled the disease, but sugar yields were no higher than those obtained with the plain nematicides. In greenhouse experiments, the interaction between H. schachtii and F. oxysporam was disadvantageous to the nematode. Damage to sugarbeets was less when the fungus and the nematode were present than when only the nematode was present. The fungus inhibited nematode invasion and development in sugarbeet seedlings, thereby decreasing the number of nematodes that matured about 3-fold.     

Partial purification and characterization of fructokinase from developing taproots of sugar beet (Beta vulgaris)

Fructokinase (FK) has been purified from developing sugar beet (Beta vulgaris L.) taproots by ion exchange chromatography and gel filtration. One major isoform was identified. The protein appears to be a dimer (M_r 38 000). Kinetically, the purified sugar beet fructokinase has a pH optimum of 8.5 and a high specificity for fructose (K_m = 0.068 mM). The enzyme can utilise a range of nucleotide triphosphates, although ATP is the most effective. Sugar beet fructokinase is inhibited by fructose concentrations in excess of 0.6 mM. Fructose-6-phosphate and Mg ADP are also inhibitory, but at relatively high concentrations. K⁺ at 10 mM stimulates activity by 30%. Fructokinase activity and the level of FK protein remain high throughout taproot development. Tissue-blots showed that high levels of FK protein were associated with conducting tissues.     

Efficiency of nitrogen,phosphorus, and potassium use by corn,sunflower, and sugarbeet for the synthesis of organic matter

Summary A three-year experiment was conducted in natural conditions on chernozem soil to examine the efficiency of nitrogen, phosphorus, and potassium use by corn (C₄ type), sunflower and sugarbeet (C₃ type) grown in optimum conditions of mineral nutrition (N₁₀₀P₁₀₀K₁₀₀ kg/ha). Plant materials were analysed for the concentration of nitrogen, phosphorus, and potassium and dry matter mass per individual plant parts and the whole plant.Leaves of different age, of all three plant species, were analysed to find eventual differences in the efficiency of use of nitrogen, phosphorus, and potassium in the synthesis of organic matter depending on leaf age.It was found that corn had the lowest concentration of the elements studied but the highest dry matter mass. In other words, corn was more efficient than sunflower or sugarbeet in the use of these elements for the synthesis of an organic matter unit. Such results were arrived at in both sets of analyses, i.e., the analyses of leaves performed in the course of ontogenetic plant development as well as the analyses of leaves of different age.     

Photosynthate partitioning into leaf starch as affected by daily photosynthetic period duration in six species

Starch accumulation rates increased up to five-fold in the leaves of five out of six species examined when plants were shifted from a long (12 or 14-h) to a short (7-h) photosynthetic period. The five species that responded were corn (Zea mays L.), pangola (Digitaria decumbens Stent.), soybean (Glycine max L.) Merr.), spinach (Spinacia oleracea L.), and sugarbeet (Beet vulgaris L.) However, the rate of starch accumulation in alfalfa (Medicago sativa L.) was unaltered following a shift from a long to a short photosynthetic period. We conclude that photosynthate partitioning into chloroplast starch, at least in a wide variety of species, is a programmable process that can be manipulated by altering the length of the daily photosynthetic period.     

Pathogenicity of animal and plant parasitic Aphanomyces spp and their economic impact on aquaculture and agriculture

Parasitic Aphanomyces species are a global threat to agri- and aquaculture, causing multimillion USD damage every year. Via the global trade, Aphanomyces has spread across all continents with exception of South America and Antarctica, and has become a major problem in pea, sugar beet, fish and crayfish production. The widespread A. euteiches and A. cochlioides induce root rot diseases in leguminous species and sugar beet respectively. The fish pathogen A. invadans is the causative agent of Epizootic Ulcerative Syndrome in various fish species whilst A. astaci infects crayfishes causing crayfish plague. Aphanomyces have developed an efficient transmission and infection mechanism which allows a rapid colonization and disruption of the host's infected tissues. This review presents an overview on the current research on Aphanomyces genus. We summarise the latest research efforts on four pathogenic Aphanomyces species, shedding light on the biology of these microorganisms, the pathogenicity factors of these parasites, the diseases which they cause, their distribution and finally the strategies to control the diseases.     

Evaluation of AFLP in Beta

 AFLP markers were evaluated for their usefulness in the genetic analysis of sugarbeet and wild Beta species. Accessions of ten different sugarbeet breeding lines and five wild beets were screened using 256 primer combinations. Of the 11 309 bands investigated, 96.4% were polymorphic among the accessions. A strong positive correlation was found between the number of polymorphisms and AT content of the selective bases of the primer combinations. Random subsets of primer combinations were used to produce genetic distance trees. Permutation tests showed that, for the wild beets, 500 AFLP bands sufficed to obtain the best topology of the tree with a probability at any given node of more than 99%. Ten times as many bands were necessary to obtain support values of the same order of magnitude for the sugarbeet lines. The reproducibility of AFLP for seven primer combinations was investigated by repeated analysis of all steps from DNA isolation to data scoring. For 5088 comparisons, the overall reproducibility was 97.6%. Robustness to genotyping errors was investigated by including an artificial F₁ (1 : 1 DNA mixture) of two sugarbeet lines in the screen for polymorphisms. For the 3160 cases of polymorphism between the two lines, 0.2% genotyping errors were found. The general reliability and usefulness of AFLP markers are discussed in relation to the results obtained. Received: 18 May 1998 / Accepted: 28 October 1998     

Cell selection and inheritance of imidazolinone resistance in sugarbeet (Beta vulgaris)

 Sugarbeets are sensitive to imidazolinone herbicide residues applied to rotational crops. Two imidazolinone-resistance (IMI-R) sugarbeet traits were developed by somatic cell selection to overcome rotation restrictions for sugarbeets where imidazolinones have been applied. Sir-13 is an IMI-R/SU-S (sulfonylurea-sensitive) variant selected from an imidazolinone-sensitive (IMI-S) sugarbeet clone, REL-1. A second variant, 93R30B, resistant to imidazolinone as well as to sulfonylurea herbicides (IMI-R/SU-R), was selected from a plant homozygous for a previously described sulfonylurea-specific resistance trait, Sur (IMI-S/SU-R). The IMI-R alleles (Sir-13 and 93R30B) were found to be corresponding allelic variants at the same ALS locus and both were tightly associated with the Sur allele. Each resistant allele is dominant to the sensitive wild-type allele; however, incomplete dominance is shown among resistance alleles. Diploid sugarbeet contains a single ALS gene copy, limiting the ability to stack these resistance traits in the same plant by traditional breeding. Received: 1 May 1997 / Accepted: 30 June 1997