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5 International Scientific Online Conference   DOI: https://doi.org/10.15414/2021.9788055224015

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               DIVERSITY OF NATURAL REGULATORS OF PLANT GROWTH AND THEIR POTENTIAL
                                                BIOLOGICAL ACTIVITY
                                  Raisa Ivanova, Dina Elisovetcaia, Alla Borovskaia
                     Institute of Genetics, Physiology and Plant Protection, Chisinau, Republic of Moldova;
                                             E-mail.: ivanova_raisa@yahoo.com
                  Bioregulators are natural chemical compositions that induce biological responses in plant
             tissues. Screening of bioactive compounds showed that the wide range of natural products
             might contain constituents – potential regulators of physiological processes in a plant, namely
             whole  or  selective  extracts  from  medicinal  and  weed  plants,  seaweeds,  microorganisms,
             insects,  shale  ore,  and  bituminous  rocks.  The  large  diversity  of  natural  regulators  is
             predetermined by wide chemical classes that possess biological activity. Protein hydrolysates
             (peptides,  polypeptides,  amino  acids),  polysaccharides,  polyphenols,  terpenoids,  steroids,
             saponins, vitamins, phytohormone-like substances, volatile oils, microelements were tested as
             growth  regulators,  immunomodulators,  antioxidants,  and  biostimulants.  Biologically  active
             substances  synthesized  by  higher  plants  during  secondary  metabolism  perform  important
             regulatory functions in the plant cells and are able, even in nano amounts, to normalize many
             vital processes.
                  This review focuses on plant secondary metabolites, which are considered bioregulators,
             their biological effects, and possible mechanism of action. Special attention was paid to steroid,
             iridoid, and flavonoid glycosides, practices for their obtaining and application. Recent studies
             carried  out  in  laboratories,  greenhouses  and  open  field  experiments  demonstrated  that
             applications  of bioregulators increase  the  seeds germination, growth  of root and seedlings,
             plants development, rise yield, and nutritive value of crops. Many studies reported positive
             effects  of  bioregulators  on  the  growth  and  yield  increasing  of  cereal  and  vegetable  crops
             through seeds pre-sowing treatment. To noted, that after the application of bioregulators the
             market quality of crops, biochemical compositions, and nutritive value of tomatoes, onions,
             white  cabbage,  and  carrot  were  also  positive  changed.  Moreover,  seeds  treatment  with
             bioregulators reduced biotic and abiotic stresses. Thus, corn seeds preliminary treated with
             bioregulators and subjected to moderate thermal stress, retained their germination capacity,
             while untreated seeds were injured by temperatures.
                  Diverse effects of bioregulators are elicited depending on the times and mode of their
             application,  concentrations,  species,  and  state  of  plants  and  environmental  conditions.  For
             example, iridoid and flavonoid glycosides acted variety-specific inside the same plant species.
             Modern analysis of the microarray data showed that the treatment with bioregulators is able
             to modulate the expression level of about 4,000 genes in tomatoes plant, which is involved in
             several  biological  processes  like  stress  responses,  protein,  and  secondary  metabolism
             transport, and antioxidant defense. However, the molecular mechanisms of their effects remain
             to be fully elucidated. In conclusion, since bioregulators are multifunctional and numerous, a
             comprehensive preliminary study is necessary for the correct choice of product.

            Keywords: natural bioregulator, secondary metabolites, biological activity, action mechanism.
            Acknowledgments
            The research was carried out in the frame of the State program nr. 20.80009.7007.07 "Determining the
            parameters that characterize the resistance of plants with the different level of organization to the action
            of extreme temperatures in order to reduce the effects of climate change" by the financial support of the
            National Agency for Research and Development of the Republic of Moldova (www.ancd.gov.md).







             5 International Scientific Conference Agrobiodiversity for Improving the Nutrition, Health, Quality of Life and  |68
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                                               Spiritual Human Development
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