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Results: 1-9 |
Results: 9
Metabolism of the phosphonate herbicide glyphosate by a non-nitrate-utilizing strain of Penicillium chrysogenum
Authors: Klimek, M Lejczak, B Kafarski, P Forlani, G
Citation: M. Klimek et al., Metabolism of the phosphonate herbicide glyphosate by a non-nitrate-utilizing strain of Penicillium chrysogenum, PEST MAN SC, 57(9), 2001, pp. 815-821
Herbicidally active aminomethylenebisphosphonic acids
Authors: Kafarski, P Lejczak, B Forlani, G
Citation: P. Kafarski et al., Herbicidally active aminomethylenebisphosphonic acids, HETEROAT CH, 11(7), 2000, pp. 449-453
Reactions of N-phthalylamino acid chlorides with trialkyl phosphites
Authors: Ziora, Z Maly, A Lejczak, B Kafarski, P Holband, J Wojcik, G
Citation: Z. Ziora et al., Reactions of N-phthalylamino acid chlorides with trialkyl phosphites, HETEROAT CH, 11(3), 2000, pp. 232-239
The herbicidally active compound N-2-(5-chloro-pyridyl) aminomethylene bisphosphonic acid acts by inhibiting both glutamine and aromatic amino acid biosynthesis
Authors: Forlani, G Lejczak, B Kafarski, P
Citation: G. Forlani et al., The herbicidally active compound N-2-(5-chloro-pyridyl) aminomethylene bisphosphonic acid acts by inhibiting both glutamine and aromatic amino acid biosynthesis, AUST J PLAN, 27(7), 2000, pp. 677-683
Reductive biotransformation of diethyl beta-, gamma- and delta-oxoalkylphosphonates by cells of baker's yeast
Authors: Zymanczyk-Duda, E Kafarski, P Lejczak, B
Citation: E. Zymanczyk-duda et al., Reductive biotransformation of diethyl beta-, gamma- and delta-oxoalkylphosphonates by cells of baker's yeast, ENZYME MICR, 26(2-4), 2000, pp. 265-270
Recent advances in the research on herbicidally active aminomethylenebisphosphionic acids
Authors: Kafarski, P Lejczak, B Forlani, G Chuiko, AL Lozinsky, MO Jasicka-Misiak, I Czekala, K Lipok, J
Citation: P. Kafarski et al., Recent advances in the research on herbicidally active aminomethylenebisphosphionic acids, PHOSPHOR SU, 146, 1999, pp. 621-624
Enantioselective hydrolysis of 1-butyryloxyalkylphosphonates by lipolytic microorganisms: Pseudomonas fluorescens and Penicillium citrinum
Authors: Skwarczynski, M Lejczak, B Kafarski, P
Citation: M. Skwarczynski et al., Enantioselective hydrolysis of 1-butyryloxyalkylphosphonates by lipolytic microorganisms: Pseudomonas fluorescens and Penicillium citrinum, CHIRALITY, 11(2), 1999, pp. 109-114
The herbicidally active compound N-2-(6-methyl-pyridyl)-aminomethylene bisphosphonic acid inhibits in vivo aromatic biosynthesis
Authors: Forlani, G Lejczak, B Kafarski, P
Citation: G. Forlani et al., The herbicidally active compound N-2-(6-methyl-pyridyl)-aminomethylene bisphosphonic acid inhibits in vivo aromatic biosynthesis, J PL GR REG, 18(2), 1999, pp. 73-79
Degradation of phosphonates by streptomycete isolates
Authors: Obojska, A Lejczak, B Kubrak, M
Citation: A. Obojska et al., Degradation of phosphonates by streptomycete isolates, APPL MICR B, 51(6), 1999, pp. 872-876
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