Recent developments in biochemistry of the plant lipoxygenase pathway.
- A. Grechkin
- BiologyProgress in lipid research
- 1 November 1998
The "heterolytic hydroperoxide lyase" is an isomerase producing a short-lived fatty acid hemiacetal.
- A. Grechkin, M. Hamberg
- ChemistryBiochimica et Biophysica Acta
- 27 February 2004
Hydroperoxide lyase and divinyl ether synthase.
- A. Grechkin
- ChemistryProstaglandins & other lipid mediators
- 1 August 2002
Determinants governing the CYP74 catalysis: Conversion of allene oxide synthase into hydroperoxide lyase by site‐directed mutagenesis
- Y. Toporkova, Y. Gogolev, L. Mukhtarova, A. Grechkin
- Biology, ChemistryFEBS Letters
- 15 October 2008
On the mechanism of biosynthesis of divinyl ether oxylipins by enzyme from garlic bulbs.
- A. Grechkin, A. V. Ilyasov, M. Hamberg
- ChemistryEuropean Journal of Biochemistry
- 1 April 1997
Experiments with linoleic acid (13R,S)-hydroperoxide demonstrated that the S enantiomer was a much better substrate for the divinyl ether synthase compared to the R enantiomers.
Unprecedented pathogen‐inducible complex oxylipins from flax – linolipins A and B
- I. Chechetkin, F. Mukhitova, A. Blufard, A. Yarin, L. L. Antsygina, A. Grechkin
- Chemistry, BiologyThe FEBS Journal
- 1 August 2009
The linolipin content of flax leaves increased significantly in response to pathogenesis, and accumulation of esterified antimicrobial divinyl ethers may be of relevance to plant defense.
Detection of the first higher plant epoxyalcohol synthase: Molecular cloning and characterisation of the CYP74M2 enzyme of spikemoss Selaginella moellendorffii.
- Y. Toporkova, E. O. Smirnova, S. Gorina, L. Mukhtarova, A. Grechkin
- ChemistryPhytochemistry
- 1 December 2018
The lipoxygenase pathway in garlic (Allium sativum L.) bulbs: detection of the novel divinyl ether oxylipins
- A. Grechkin, F. N. Fazliev, L. Mukhtarova
- ChemistryFEBS Letters
- 4 September 1995
Epoxyalcohol synthase of Ectocarpus siliculosus. First CYP74-related enzyme of oxylipin biosynthesis in brown algae.
- Y. Toporkova, V. S. Fatykhova, Y. Gogolev, B. Khairutdinov, L. Mukhtarova, A. Grechkin
- ChemistryBiochimica et Biophysica Acta - Molecular and…
- 1 February 2017
Tomato CYP74C3 is a Multifunctional Enzyme not only Synthesizing Allene Oxide but also Catalyzing its Hydrolysis and Cyclization
- A. Grechkin, L. Mukhtarova, Larisa R. Latypova, Y. Gogolev, Y. Toporkova, M. Hamberg
- ChemistryChemBioChem
- 13 October 2008
The results indicate that in contrast to the ordinary allene oxide synthases, LeAOS3 (CYP74C subfamily) is a multifunctional enzyme, catalyzing not only the synthesis, but also the hydrolysis and cyclization of allenes oxide.
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