Bioscience/5. Molecular biology
Candidate
of Agriculture Beyshova I.S.
Postgraduate
student of natural sciences Kusymbaeva S.K.
Kostanay State
University named after A.Baytursynov, Republic of Kazakhstan
The importance of PCR in R-time
regime in diagnosis septoria of cereals
Cereals
are considered to be one of the main of all agricultural plants in Central
Asia, including Kazakhstan. According to statistics FAO in 2013 this region is
characterized by high level in using of wheat – more than 200 kg per year.
That’s why cereals play an important role in providing the country with
provision. More than that Kazakhstan is the main wheat provider that increases
the requirements to the corn quality. In wheat production in regions the
farmers run into many difficulties, the most dangerous one is spreading of
diseases that cause damage to the harvest [1].
According
to Kazakhstan Republic Government Decree from 10 December 2002 ¹1295 “About
confirmation of the list of quarantine objects and particularly dangerous
harmful organisms” into “The list of dangerous vermin and the diseases of
agricultural plants” the septoria was included [2].
This
disease is considered to be not only widespread practically in all countries,
which grow cereals and also are the main reason of the huge decrease of crop
capacity. Sharp continental climate of Kazakhstan, especially in its north
regions is favorable for development and spreading of septoria, decreasing
profitability of corn production. Decreasing of biological production of plants
happens when ãðèáêîâîå disease damage upper leaves of cereals, and also their ears in a period
of milk and milk-waxen ripen. Damaging of ears and upper tier of leaves ãðèáàìè septoria cause the loss of harvest (it’s about 50% during epiphytotics)
[3].
For
organization of rational harvest protection system, making prognosis for
developing of disease, the proper choose of fungicides, time and doses of their
application, in taking decision about necessity of pre-sowing processing of
seeds, and also in producing of stable sorts we need the exact kind
identification agents of septoria. However, the first signs of fungi of the
genus septoria on cereal leaves appear after a sufficiently long period of time
until the pathogen Septoria runs its incubation period, and thus to diagnose
the presence of the disease cannot be visually.
Visual
diagnosis of the disease is complicated by the presence within the same field,
and even a few plants of this kind septoria. To define by morphology of
fruiting bodies conidia complicated by the presence of other similar entities
fungi, and after formation of pycnidia fungicide application will not produce
the desired effect. Traditional methods of complex diagnostics, including the
selection of species in pure culture, selection of media and culture conditions
obtaining monospore isolates and microscopy, durable, time-consuming and not
effective enough. Therefore, the most optimal methods required for the timely
diagnosis of the disease in the early stages of its development.
Adopted
in the Republic of Kazakhstan monitoring system for protecting plants from
disease particularly dangerous technique uses field surveys visual method of
diagnosing, which covers a small part of the acreage, which leads to
misdiagnosis and reduced profitability of grain production. There are a number
of biotic and abiotic diseases with identical signs. For improving the quality
of examination is necessary to introduce modern methods of diagnosis septoria.
Using
of polymerase chain reaction in Real-time for laboratory diagnosis
modifications led to the revolutionary development of the group of diagnostic
methods based on the detection of genetic material. The general principle is
based on multiplication of the number of copies of specific DNA fragments of
the target enzyme, the DNA-synthesis of new complementary polymerase.
Detection
of accumulation of amplicons occurs using an oligonucleotide probe hybridizes
to the target site between the primers. Reaction is carried out under
conditions of multiple repetition of the temperature cycle that includes three
main steps: denaturation, annealing of primers or hybridization and elongation.
If
no constraint to effective amplification per cycle number of copies of a
specific target DNA region is increased twice, and after 30 cycles more than
109 times. Due to this polymerase chain reaction has been applied in laboratory
diagnostics to determine such small amounts of pathogens, which reliably
detected without amplification impossible. Theoretically with the help of
polymerase chain reaction it can be detected using a single - molecule DNA
target. In practice for reliable analysis must be present in the test tube with
the reaction mixture several dozen copies of a specific DNA.
Detection
target task DNA-target in the test sample using the polymerase chain reaction,
thereby, formed is found to detect the end of amplification products, are used
for this purpose amplicons gel electrophoresis and hybridization enzyme-linked
immunosorbent assay. In the early 1990s was created a new method for detection
of amplicons in real time, which has given the opportunity to correctly
determine the amount of the original DNA-target in the sample.
In
modern laboratory diagnostics Real-Time PCR is being promoted as a method of
identifying specific fragments of genetic material of pathogens and is
gradually replacing the options with the detection of the amplification
products at the end of reaction. The principal advantage is the possibility of
detecting the accumulation of amplicons without opening the tube, which
minimizes the risk of false-positive results due to contamination of samples
reagents and amplification products. The significant decrease in the amount of
manipulation of the test sample reduces the time, simplifies the analysis and
reduces the likelihood of errors. Application along with primers hybridization
probes enhances the specificity analysis. The possibility of independent
simultaneous recording of the fluorescent signal from several hybridization of
DNA probes allows identification of one study of several different parts of one
or different DNA-targets. But the main feature of this methodology allowed to
occupy a special place among the methods of laboratory diagnosis, the ability
to determine the initial number of copies of a specific DNA target in a
clinical trial.
In
recent years the principle of specific DNA amplification began actively to use
in developing methods for reliable determination of the species of plant raw
materials. In comparison with conventional methods for detecting species,
establishing the species of plant materials using highly versatile, deeper
level of species differentiation, high reproducibility and the ability to
quantitative analysis. In spite of using of polymerase chain reaction for
species identification of tissues of plant origin was highly appreciated by
foreign experts, in our country this area, unfortunately, in practice, is not
widely used in the examination of cereal septoria cultures.
Thus,
in Kazakhstan the diagnosis septoria of cereals actively investigated by the
method and its implementation will be offered in production.
Literature:
1.
Koishibaev M., Ismailova E.T.
Peculiarities of development and harmful effect of septoria of cereals in
Kazakhstan. / Herald of agricultural sciences of Kazakhstan. 1991, ¹11 p. 31-36.
2.
The list of introduced changes by
decree of Kazakhstan Parliament from 23.11.2005 ¹1157.
3.
I.M.Polyakov, E.M.Shumakov, the
article “Protection of plants” The Big Soviet encyclopedia. – M: The Soviet
encyclopedia. 1969 – 1978.
4.
Ivanov M.K., Poryvaev V.D.,
Kandrushin E.V. Peculiarities of quantity analysis by the polymerase chain
reaction method in Real-Time/News “Vector-Best”, 2008, ¹4(50).