SU1634191A1 - Method for selection of opaque maize form - Google Patents

Abstract

The invention relates to biotechnology and relates to breeding and genetic studies of grain crops and can be used in agriculture to identify the opaque form of corn. The aim of the invention is to accelerate and simplify the analysis. Opaque maize is identified by a decrease in optical density at a wavelength of 1400-2400 nm in the study of the diffuse reflection spectrum of ground grain in the near infrared region. 1 tab

Description

The invention relates to biotechnology, namely to genetic studies of grain crops, and can be used for the selection of grain for the purpose of detecting opaque forms of corn.

The aim of the invention is to simplify and speed up the analysis.

The method includes the analysis of ground corn grain by the IR spectrum of diffuse reflection.

The method is carried out as follows.

Grain corn grind at the mill. The resulting flour is placed in a cuvette and an IR spectrum of diffuse reflection is obtained in the region of 1300-2400 nm. According to the data obtained, the opaque form of corn is sampled according to a decrease in the optical density of diffuse reflection in the wavelength range of 1400-2400 nm in comparison with a conventional analogue. The determination is carried out in parallel, using the reflection spectra of the milled grain of the original and opaque forms of corn.

PRI me R 1. For research use the line of corn WF9

The grain is ground in an electric mill. The obtained flour is filled in a cuvette, and an IR spectrum of diffuse reflection in the region of 1300-2400 nm is obtained on a rapid analyzer and the values of optical density are determined in the studied wavelength range.

Research results show that a decrease in optical density is clearly marked with the true length of the wavelength 1400-2400 nm.

PRI me R s 2-4. Carried out analogously to example 1, while the research includes other lines of corn, namely A204. W64A. W155. Studies show that in the specified range of wavelengths. Using the proposed method, it is easy to identify the opaque form of corn.

The results of the research are reflected in the table.

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The results in the table indicate that for the opaque form, the differences in comparison with the initial form are a decrease in the value of optical density in the wavelength range of 1400-2400 nm. Since this difference is observed at any wavelength in the range of 1400-24CO nm. to select the opaque form of corn, it is sufficient to measure the optical density at any value of the wavelength of the set interval.

The boundary values of the wavelength interval are confirmed by the measurement results. At wavelengths below 1400 nm, it is necessary to analyze low optical density values, which reduces the reliability of the analysis. The upper value of the set wavelength range coincides with the limit of the spectral range of the instrument.

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The proposed method allows to speed up and simplify the analysis, since the detection of the opaque form is carried out immediately using the milled grain, without isolating the protein fraction and preliminary sample preparation.

Claims (1)

The method of selection of the opaque form of corn, including the determination of the optical parameters of the infrared region of samples with the original and mutant genotype, followed by the detection of the opaque form, which is characterized by the fact that, in order to accelerate and simplify the analysis, This determines the diffuse reflectance spectrum in the near infrared region and the opaque shape is detected by a decrease in optical density in the wavelength range of 1400-2400 nm.