WHAT REGULATE THE
GROWTH REGULATORS? Logos Publisher, Kiev, 1998. Monograph
is published in Russian (30%) and English (70%).
Free radicals and
antioxidants as general signaling factors
A fatal mistake in
biology: A theory of receptors is chemical nonsense. A view point
STRUCTURE-ACTIVITY RELATIONSHIPS
Chemical structure of
descriptors with an active hydrogen atom in certain bioregulators
On the Possible Free
Radical Mechanism of cAMP Action
The Estimation of Toxic
Effects from the Structure of Chemicals which have not been Bioassayed
The functional reactive
groups of some plant growth regulators
On the Possible Free
Radical Mechanism of SO2 Action
Possible free radical
mechanisms of action of auxin and kinetin
ABSCISIC ACID
Abscisic acid inhibits
oxidation of plant cellular substances caused by ethylene
Molecular mechanisms of
(+), S-ABA and (-), R-ABA action
Using of abscisic acid
and some prostaglandins in agriculture and medicine as antioxidants and
conservants
Using of Abscisic Acid
in the Plant Tissue Culture of Licorice Glycyrrhiza Glabra L.
What Does Abscisic Acid
Really Inhibit ?
Study of the Antioxidative
Role of Abscisic Acid in the Acquisition of the Cold Tolerance by Winter
Wheat Plants
A Study of the
Antioxidative Activity of Abscisic Acid
On the Free Radical and
Antioxidative Mechanisms of Action of Growth Regulating Substances
Abscisic acid,
ethylene and phosphatidylinositols are end substances of the carotene
and lipid oxidative breakdown and sophysticated signalling molecules
Carotenoids function as
quenchers of reactive substances in the photosynthetic machine
ETHYLENE
Decomposition of acetylcholine
with ethylene formation in vitro. Possible free radical mechanism of
acetylcholine action
Possible Mechanism of
Ethylene Action
Ethylene Evolution from
Quaternary Ammonium Salts
Ethylene Formation from
Quaternary Ammonium Salts in the Hofmann's Splitting Reactions
What Does Ethylene
Really Regulate?
A little bad fact
can kill a very attractive and nice ethylene receptor
theory
GENES
Nucleosome replication
is semiconservative
The fibers of DNA do
not wind around a single nucleosome: they are organized between two layers
of nucleosomes
The eukaryotic
chromosomes are composed of two layers of nucleosomes and DNA is disposed
between them in the zig-zag-like ribbon
Only DNA-polymerases
but not RNA-polymerases have contacts with the matrix of DNA in vivo into
eukaryotic chromosomes
A snaky model of
eukaryal DNA packaging
The fine structure
of eukaryotic nucleosomes
The three dimensional
architecture of eukaryotic chromatin: zigzag-shaped band of DNA is disposed
between two layers of nucleosomes forming a chromosome
On the lock and
key for the eukaryal gene. A viewpoint
Signaling
molecules can be presented by linear molecules of DNA: An alternative view