Issue |
Section |
Title |
File |
Vol 15, No 4 (2017) |
Genetic basis of ecosystems evolution |
Studying the biochemical function of the pea receptor-like kinases sym10, sym37 and k1, required for the legume-rhizobia symbiosis development |
(Rus)
|
Vol 17, No 2 (2019) |
Genetic basis of ecosystems evolution |
Role of the plant heterotrimeric G-proteins in the signal pathways regulation |
(Rus)
(Eng)
|
Vol 17, No 1 (2019) |
Genetic basis of ecosystems evolution |
The role of universal regulators of plant growth and development the DELLA proteins in the control of symbiosis |
(Rus)
(Eng)
|
Vol 18, No 3 (2020) |
Genetic basis of ecosystems evolution |
Annexins and their role in the control of symbioses development in plants |
|
Vol 19, No 1 (2021) |
Genetic basis of ecosystems evolution |
Searching for regulators that interact with BELL1 transcription factor and control the legume-rhizobial symbiosis development |
|
Vol 20 (2022): Supplement |
Genetically modified organism. The Нistory, Achivements, Social and Environmental Riscs |
Features of the regulation of the transcription factor NIN, which determined its participation in the control of nodule organogenesis in legumes plants |
(Eng)
|
Vol 20 (2022): Supplement |
Genetically modified organism. The Нistory, Achivements, Social and Environmental Riscs |
The development of approaches to create new symbiotic systems |
(Eng)
|
Vol 21, No 1 (2023) |
Genetic basis of ecosystems evolution |
Inositol phosphates’ synthesis in pea Pisum sativum L. root seedlings at the early stages after Rhizobium leguminosarum bv. viciae inoculation |
|
Vol 21 (2023): Спецвыпуск |
Genetically modified organism. The Нistory, Achivements, Social and Environmental Riscs |
Genetically modified legume plants as a basis for studying the signal regulation of symbiosis with nodule bacteria |
(Eng)
|