TY  - JOUR
AU  - Radenović, Čedomir
AU  - Maksimov, G. V.
AU  - Shutova, V. V.
AU  - Slatinskaya, O. V.
AU  - Protopopov, F. F.
AU  - Delić, Nenad
AU  - Grčić, Nikola
AU  - Pavlov, Jovan
AU  - Čamdžija, Zoran
PY  - 2019
UR  - http://rik.mrizp.rs/handle/123456789/768
AB  - In this article we used the method of IR spectroscopy to identify bioactive organic compounds and
their structural characteristics in the leaves of maize inbred lines ZPPL 186, ZPPL 225 and M1-3-3 Sdms
based on a standard study of high intensity high-amplitude spectral bands and based on attempt-study of
hypothetically influential low intensity low-amplitude spectral bands. The made assumption was that numerous
spectral bands, not analyzed yet, but occurring in different kinetic forms should be systematically analyzed
and the dynamics of their formation caused by different oscillations and vibrations of molecular bonds
of organic compounds and their functional groups should be proven. Low intensity spectral bands imply
unstable state of the biological system (leaf), which is a consequence of the excited state of molecules, radicals,
atoms or ions in tissues, cells or biomembranes. Similar transport processes occur when biological systems
are rhythmically stimulated, as well as in the case of a complex ion transport across the excited thylakoid
membrane. These bands most frequently occurred in the wave number range of 500–1600 cm–1; they
appeared in several spots in wave number ranges up to 3000 cm–1. Amines, primary and secondary amides,
proteins, amino acids, alkanes, alkenes, aldehydes, ketones, aromatic compounds, carbohydrates, carboxylic
acids, ethers, alcohols, sulfides, mono- and polysaccharides were identified in leaves of inbred lines. The
analysis of spectral bands showed that the most intensive was the inbred line ZPPL 186, then the ZPPL M1-3-3
Sdms, while the lowest intensity was detected in ZPPL 225. Thus, by overall study it is possible to identify not
only organic compounds and their structures in leaves of inbred lines, but also to indicate the possibility of
causing an unstable and conformational state in them.
PB  - Allerton Press
T2  - Russian Agricultural Sciences
T1  - Complete Study of Nature and Importance of Spectral Bands Contained in Infrared Spectra of Leaves of Maize Inbred Lines with Significant Breeding Properties
VL  - 45
IS  - 4
SP  - 334
EP  - 339
DO  - 10.3103/S106836741904013X
ER  - 

@article{
author = "Radenović, Čedomir and Maksimov, G. V. and Shutova, V. V. and Slatinskaya, O. V. and Protopopov, F. F. and Delić, Nenad and Grčić, Nikola and Pavlov, Jovan and Čamdžija, Zoran",
year = "2019",
abstract = "In this article we used the method of IR spectroscopy to identify bioactive organic compounds and
their structural characteristics in the leaves of maize inbred lines ZPPL 186, ZPPL 225 and M1-3-3 Sdms
based on a standard study of high intensity high-amplitude spectral bands and based on attempt-study of
hypothetically influential low intensity low-amplitude spectral bands. The made assumption was that numerous
spectral bands, not analyzed yet, but occurring in different kinetic forms should be systematically analyzed
and the dynamics of their formation caused by different oscillations and vibrations of molecular bonds
of organic compounds and their functional groups should be proven. Low intensity spectral bands imply
unstable state of the biological system (leaf), which is a consequence of the excited state of molecules, radicals,
atoms or ions in tissues, cells or biomembranes. Similar transport processes occur when biological systems
are rhythmically stimulated, as well as in the case of a complex ion transport across the excited thylakoid
membrane. These bands most frequently occurred in the wave number range of 500–1600 cm–1; they
appeared in several spots in wave number ranges up to 3000 cm–1. Amines, primary and secondary amides,
proteins, amino acids, alkanes, alkenes, aldehydes, ketones, aromatic compounds, carbohydrates, carboxylic
acids, ethers, alcohols, sulfides, mono- and polysaccharides were identified in leaves of inbred lines. The
analysis of spectral bands showed that the most intensive was the inbred line ZPPL 186, then the ZPPL M1-3-3
Sdms, while the lowest intensity was detected in ZPPL 225. Thus, by overall study it is possible to identify not
only organic compounds and their structures in leaves of inbred lines, but also to indicate the possibility of
causing an unstable and conformational state in them.",
publisher = "Allerton Press",
journal = "Russian Agricultural Sciences",
title = "Complete Study of Nature and Importance of Spectral Bands Contained in Infrared Spectra of Leaves of Maize Inbred Lines with Significant Breeding Properties",
volume = "45",
number = "4",
pages = "334-339",
doi = "10.3103/S106836741904013X"
}

Radenović, Č., Maksimov, G. V., Shutova, V. V., Slatinskaya, O. V., Protopopov, F. F., Delić, N., Grčić, N., Pavlov, J.,& Čamdžija, Z.. (2019). Complete Study of Nature and Importance of Spectral Bands Contained in Infrared Spectra of Leaves of Maize Inbred Lines with Significant Breeding Properties. in Russian Agricultural Sciences
Allerton Press., 45(4), 334-339.
https://doi.org/10.3103/S106836741904013X

Radenović Č, Maksimov GV, Shutova VV, Slatinskaya OV, Protopopov FF, Delić N, Grčić N, Pavlov J, Čamdžija Z. Complete Study of Nature and Importance of Spectral Bands Contained in Infrared Spectra of Leaves of Maize Inbred Lines with Significant Breeding Properties. in Russian Agricultural Sciences. 2019;45(4):334-339.
doi:10.3103/S106836741904013X .

Radenović, Čedomir, Maksimov, G. V., Shutova, V. V., Slatinskaya, O. V., Protopopov, F. F., Delić, Nenad, Grčić, Nikola, Pavlov, Jovan, Čamdžija, Zoran, "Complete Study of Nature and Importance of Spectral Bands Contained in Infrared Spectra of Leaves of Maize Inbred Lines with Significant Breeding Properties" in Russian Agricultural Sciences, 45, no. 4 (2019):334-339,
https://doi.org/10.3103/S106836741904013X . .