In vitro Callus as a Model System for the Study of Plant Stress-Resistance to Abiotic Factors (on the Example of Cereals)

“…There have been some positive results on selecting of stress-tolerant plants through in vitro selection, but mainly for agricultural and fruit crops [8,12,[14][15][16][17][18][19]. The researchers have used seedlings, callus tissues, cell suspension cultures, and isolated organs as explants [8, 11, 13-14, 17, 20-21].…”

“…Researchers from different countries have outlined the main objectives of in vitro selection: to develop an algorithm for constructing in vitro selective model systems, to obtain plants with increased tolerance to abiotic stresses, to develop the micropropagation technologies for these plants [8,10,13,17,20,[26][27].…”

“…The most common abiotic stress factors are known to be drought and salination. In vitro culture has been used extensively to study the impact of these factors on plants [17,20,28]. Increasing concentrations of sodium chloride (NaCl) in the culture medium represents both salinity stress and osmotic stress facilitating the selection of salt-tolerant and droughtresistant forms [12][13][14]17].…”

“…In vitro culture has been used extensively to study the impact of these factors on plants [17,20,28]. Increasing concentrations of sodium chloride (NaCl) in the culture medium represents both salinity stress and osmotic stress facilitating the selection of salt-tolerant and droughtresistant forms [12][13][14]17]. Moreover, NaCl salinity is known to produce the greatest negative effect on plants [1,10].…”

In vitromodelling of salinity stress for the selection of stress-tolerant birch lines

“…There have been some positive results on selecting of stress-tolerant plants through in vitro selection, but mainly for agricultural and fruit crops [8,12,[14][15][16][17][18][19]. The researchers have used seedlings, callus tissues, cell suspension cultures, and isolated organs as explants [8, 11, 13-14, 17, 20-21].…”

“…Researchers from different countries have outlined the main objectives of in vitro selection: to develop an algorithm for constructing in vitro selective model systems, to obtain plants with increased tolerance to abiotic stresses, to develop the micropropagation technologies for these plants [8,10,13,17,20,[26][27].…”

“…The most common abiotic stress factors are known to be drought and salination. In vitro culture has been used extensively to study the impact of these factors on plants [17,20,28]. Increasing concentrations of sodium chloride (NaCl) in the culture medium represents both salinity stress and osmotic stress facilitating the selection of salt-tolerant and droughtresistant forms [12][13][14]17].…”

“…In vitro culture has been used extensively to study the impact of these factors on plants [17,20,28]. Increasing concentrations of sodium chloride (NaCl) in the culture medium represents both salinity stress and osmotic stress facilitating the selection of salt-tolerant and droughtresistant forms [12][13][14]17]. Moreover, NaCl salinity is known to produce the greatest negative effect on plants [1,10].…”

In vitromodelling of salinity stress for the selection of stress-tolerant birch lines

“…Сотрудниками лабораторий экспериментальной эмбриологии растений и физиологии растений УИБ УФИЦ РАН выявлены и с применением комплекса методов изучены такие пути морфогенеза клеток каллуса in vitro у пшеницы и ячменя, как эмбриоидогенез/полиэмбриоидогенез (формирование эмбриоида/полиэмбриоида зародышеподобной структуры), органогенез по типам геммогенеза (формирование почек), ризогенеза (формирование корней), гемморизогенеза (формирование и почек, и корней), а также гистогенез (формирование различных тканей) (Круглова, Горбунова, 1997; Круглова, 2002, 2012, 2019а,б,в; Круглова и др., 1999, 2001, 2005, 2015, 2017а,б,в, 2018а,б,в, 2019а,б,в,г, 2020; Батыгина и др., 2010; Круглова, Сельдимирова, 2010, 2011, 2013, 2015, 2018; Зайцев и др., 2011, 2013; Круглова, Дубровная, 2011; Сельдимирова и др., 2011, 2015, 2016, 2017а,б,в, 2018а,б, 2019а,б; Круглова, Никонов, 2012, 2018; Сельдимирова, Круглова, 2013, 2014а,б, 2015а,б; Круглова, Зинатуллина, 2014, 2018; Титова и др., 2016; Галин и др., 2018; Галин, Сельдимирова, 2019; Зайцев, Зинатуллина, 2019; Зинатуллина, 2019а,б, 2020; Круглова, 2019а,б,в,г; Круглова и др., 2020а,б; Seldimirova, Kruglova, 2013Kruglova, , 2015Titova et al, 2016;Kruglova et al, 2017Kruglova et al, , 2018aSeldimirova et al, 2016aSeldimirova et al, ,b,c, 2017aSeldimirova et al, ,b, 2019a. Полученные данные совпадают с результатами аналогичных исследований других растений, включая хлебные злаки (обзоры: Segui-Simarro, Nuez, 2008; Dunwell, 2010; Segui-Simarro, 2010; Germana, 2011; Soriano et al, 2013; Sugiyama, 2015; Doubled Haploidy .., 2016; Ren et al, 2017).…”

The Phenomenon of Pollen Tubes Formation in Wheat Androclynic Calli in Vitro

Silicon alleviates the negative effects of arsenic in poplar callus in relation to its nutrient concentrations