Comparative characteristics of root systems and root exudation of synthetic, landrace and modern wheat varieties . <...> Resistance of sweet pepper genofungi in grain of oats grown in the north-western Russia regarding cultivar specificity . <...> Genetic engineering as a tool for . . . resources of Mediterranean origin in VIR collection: diversity and use in breeding (review) . . . <...> I. GROWTH DISTORTIONS DUE TO MUTATIONS OF GIBBERELLIN METABOLISM AND SIGNALING (review) T.E. BILOVA1, D.N. RYABOVA2, I.N. ANISIMOVA2 ana@gmail.com; 7-9, Universitetskaya nab., St. Petersburg, 199034 Russia, e-mail bilova.tatiFederal Agency of Scientific Organizations, 42-44, ul. <...> Supported by Saint Petersburg State University (project ¹ 1-38-233-14) and Russian Foundation for Basic Research (project ¹ 14-04-01-624) doi: 10.15389/agrobiology.2016.1.3eng A b s t r a c t Development of dwarf cereal varieties with improved mechanical stability of stems preventing their lodging led to significantly increased crop productivity in the 1960-1970s. <...> The dwarf varieties are not only resistant to lodging but also have higher nutrients-absorbing potential and often are more tolerant to diseases than traditional cultivars (K.U. Kurkiev et al., 2006). <...> Numerous dwarf cultivars produced during the «Green revolution» possessed mutant genes responsible for metabolism and transmission of gibberellic (GA) signal (M. Ueguchi-Tanaka et al., 2001; T. Sakamoto et al., 2004). <...> Clear understanding the interaction of genetic and molecular mechanisms will facilitate the revealing of key molecular targets the changes in which would result in production of the desired dwarf varieties. <...> The paper considers the ways of gibberellins biosynthesis, deactivation and how pool of active GAs is maintained. <...> GA20-oxidases and C3,β-oxidases (or C3,β-hydroxylases) involved in production of the active gibberellins catalyze final reactions of gibberellin biosynthesis. <...> Modern concept about GAsignaling is reviewed according to the following established steps: GA receptor GID1; DELLAproteins as the negative regulators in GA signaling; SCF E3-ubiqutin protein ligase and 26S proteasome; transcriptional factors with DNA-binding site; GA-regulated genes. <...> The paper also considers ways of participation of gibberellin in the complex hormone regulation of plant growth which occurs often via control over the repressive function of DELLA-proteins (P. Achard et al <...>
Agricultural_Biology_№1_2016.pdf
ISSN 2412-0324 (English ed. Online)
ISSN 0131-6397 (Russian ed. Print)
ISSN 2313-4836 (Russian ed. Online)
BIOLOGY
AGRICULTURAL
Since January, 1966
PLANT
BIOLOGY
Vol. 51, Issue 1
January-February
2016 Moscow
Стр.1
EDITORIAL BOARD
I.V. SAVCHENKO (Moscow, Russia) — Chairman (plant biology)
ANANYINA V.M. (Moscow, Russia)
BESPALOVA L.A. (Krasnodar, Russia)
CHAIKA A.K. (Primorskii Krai, Russia)
DRAGAVTSEV V.A. (St. Petersburg, Russia)
DZYUBENKO N.I. (St. Petersburg, Russia)
FEDOROVA L.M. (editor-in-chief)
(Moscow, Russia)
GONCHARENKO A.A. (Moscow, Russia)
GONCHAROV P.L. (Novosibirsk, Russia)
GORBACHEV I.V. (Moscow, Russia)
KHARITONOV E.M. (Krasnodar, Russia)
KHOTYLEVA L.V. (Minsk, Belorussia)
KORPELA T. (Turku, Finland)
LITVINOV S.S. (Moscow, Russia)
LUGTENBERG E.J.J. (Leiden,
The Netherlands)
LUKOMETS V.M. (Krasnodar, Russia)
PIVOVAROV V.F. (Moscow, Russia)
SANDUKHADZE B.I. (Moscow, Russia)
SEDOV E.N. (Оrel, Russia)
SHABALA S. (Tasmania, Australia)
TIGERSTEDT P.M.A. (Esbo, Finland)
TIKHONOVICH I.A. (St. Petersburg, Russia)
Science editors: E.V. Karaseva, L.M. Fedorova
Address: build. 11, office 343, Dmitrovskoe sh., Moscow, 127434 Russia
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E-mail: agrobiol@mail.ru Internet: http://www.agrobiology.ru
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Citation Index), Agris
For citation: Agricultural Biology,
Сельскохозяйственная биология, Sel’skokhozyaistvennaya biologiya
© Agricultural Biology, 2016
© Сельскохозяйственная биология, 2016
ISSN 2412-0324 (English ed. Online)
ISSN 0131-6397 (Russian ed. Print)
ISSN 2313-4836 (Russian ed. Online)
Стр.2
SEL’SKOKHOZYAISTVENNAYA BIOLOGIYA
[AGRICULTURAL BIOLOGY], 2016, Vol. 51, ¹ 1
CONTENTS
in cultivated plants. I. Growth distortions due to mutations of gibberellin metabolism
and signaling (review) .
. . .
.
. . .
.
.
. . .
. .
.
.
. .
.
modification of seed storage proteins and improvement of nutritional value of cereal
grain (review) . . .
. . .
. . .
. . .
assessment (review) .
Microbial community of soil: physiological diversity patterns and
. . .
. . .
.
. . .
.
. . .
. . .
. . .
. . .
. . . .
. . . .
. . .
autochthonous grapevine varieties from don region revealed by SSR-analysis and
main leaf ampelographic traits .
. .
photosynthesis in buckwheat (
Genetic similarity of the
. . .
. Comparative characteristics of root
systems and root exudation of synthetic, landrace and modern wheat varieties .
Adaptiveness of productivity and
Moench) landraces and
. . .
varieties produced at different periods . .
spring barley (
. . .
. . .
. . .
L.) contrasting in tolerance to lead . .
types to abiotic stresses in grpwing conditions of low-capacity hydroponics . .
and
pathogens isolated on spring grain crops in Republic of Mordovia . . .
gion: isolation and identification .
. . .
. . .
.
.
.
.
Study of isozyme polymorphism in
. .
Resistance of sweet pepper genofungi
in
grain of oats grown in the north-western Russia regarding cultivar specificity .
Identification of root rot
.
strains from natural sources in the Leningrad re.
. .
. . .
.
. . . . . .
. .
. . .
. . .
. . .
.
Genetic engineering as a tool for
. . .
resources of Mediterranean origin in VIR collection: diversity and use in breeding
(review) . . .
Grain legumes genetic
. .
Molecular basis of the dwarfism character
. . .
3
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Стр.3