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W2617961757 endingPage "105" @default.
W2617961757 startingPage "91" @default.
W2617961757 abstract "The development stages of conventional cauliflower seeds were studied and the accumulation of dehydrin proteins through the maturation stages was investigated with the aim of identifying methods to improve the viability of artificial seeds of cauliflower. While carbohydrate, ash and lipids increased throughout the development of cauliflower traditional seeds, proteins increased with the development of seed and reached the maximum level after 75 days of pollination, however, the level of protein started to decrease after that. A significant increase in the accumulation of small size dehydrin proteins (12, 17, 26 KDa) was observed during the development of cauliflower seeds. Several experiments were conducted in order to increase the accumulation of important dehydrin proteins in cauliflower microshoots (artificial seeds). Mannitol and ABA (Absisic acid) increased the accumulation of dehydrins in cauliflower microshoots while cold acclimation did not have a significant impact on the accumulation of these proteins. Molybdenum treatments had a negative impact on dehydrin accumulation. Dehydrins have an important role in the drought tolerance of seeds and, therefore, the current research helps to improve the accumulation of these proteins in cauliflower artificial seeds. This in turns improves the quality of these artificial seeds. The current results suggest that dehydrins do not play an important role in cold tolerance of cauliflower artificial seeds. This study could have an important role in improving the understanding of the molecular mechanism of abiotic stress tolerance in plants." @default.
W2617961757 created "2017-06-05" @default.
W2617961757 creator A5010400550 @default.
W2617961757 creator A5050644848 @default.
W2617961757 creator A5056768737 @default.
W2617961757 date "2017-07-01" @default.
W2617961757 modified "2023-09-23" @default.
W2617961757 title "An analysis of the development of cauliflower seed as a model to improve the molecular mechanism of abiotic stress tolerance in cauliflower artificial seeds" @default.
W2617961757 cites W1500274797 @default.
W2617961757 cites W1508295688 @default.
W2617961757 cites W1527549524 @default.
W2617961757 cites W1560545442 @default.
W2617961757 cites W1570599752 @default.
W2617961757 cites W1584943818 @default.
W2617961757 cites W1590640866 @default.
W2617961757 cites W172223449 @default.
W2617961757 cites W1858541079 @default.
W2617961757 cites W1967196515 @default.
W2617961757 cites W1967643932 @default.
W2617961757 cites W1967649305 @default.
W2617961757 cites W1969024133 @default.
W2617961757 cites W1972158606 @default.
W2617961757 cites W1973303868 @default.
W2617961757 cites W1974917983 @default.
W2617961757 cites W1976040120 @default.
W2617961757 cites W1982765014 @default.
W2617961757 cites W1986855514 @default.
W2617961757 cites W1988636743 @default.
W2617961757 cites W1988702993 @default.
W2617961757 cites W1995862225 @default.
W2617961757 cites W2007123820 @default.
W2617961757 cites W2007573492 @default.
W2617961757 cites W2008316903 @default.
W2617961757 cites W2008405424 @default.
W2617961757 cites W2008693869 @default.
W2617961757 cites W2011717898 @default.
W2617961757 cites W2013711669 @default.
W2617961757 cites W2017687195 @default.
W2617961757 cites W2018119640 @default.
W2617961757 cites W2020040993 @default.
W2617961757 cites W2020418633 @default.
W2617961757 cites W2020959010 @default.
W2617961757 cites W2022527396 @default.
W2617961757 cites W2030537829 @default.
W2617961757 cites W2034026708 @default.
W2617961757 cites W2035299546 @default.
W2617961757 cites W2037116906 @default.
W2617961757 cites W2039263635 @default.
W2617961757 cites W2042408599 @default.
W2617961757 cites W2046443655 @default.
W2617961757 cites W2050817160 @default.
W2617961757 cites W2054614363 @default.
W2617961757 cites W2055430293 @default.
W2617961757 cites W2056137298 @default.
W2617961757 cites W2061230001 @default.
W2617961757 cites W2063557503 @default.
W2617961757 cites W2067984770 @default.
W2617961757 cites W2073555596 @default.
W2617961757 cites W2078142138 @default.
W2617961757 cites W2078838223 @default.
W2617961757 cites W2088463487 @default.
W2617961757 cites W2089148335 @default.
W2617961757 cites W2098449002 @default.
W2617961757 cites W2100837269 @default.
W2617961757 cites W2101108802 @default.
W2617961757 cites W2106298364 @default.
W2617961757 cites W2109121652 @default.
W2617961757 cites W2109604687 @default.
W2617961757 cites W2127399941 @default.
W2617961757 cites W2127771390 @default.
W2617961757 cites W2131265634 @default.
W2617961757 cites W2132580569 @default.
W2617961757 cites W2134588184 @default.
W2617961757 cites W2141225069 @default.
W2617961757 cites W2142673684 @default.
W2617961757 cites W2144771270 @default.
W2617961757 cites W2150254747 @default.
W2617961757 cites W2157805273 @default.
W2617961757 cites W2161989227 @default.
W2617961757 cites W2163986764 @default.
W2617961757 cites W2164662952 @default.
W2617961757 cites W2166069609 @default.
W2617961757 cites W2167030787 @default.
W2617961757 cites W2169164205 @default.
W2617961757 cites W2169696545 @default.
W2617961757 cites W2171012097 @default.
W2617961757 cites W2281160607 @default.
W2617961757 cites W4249735284 @default.
W2617961757 doi "https://doi.org/10.1016/j.plaphy.2017.05.011" @default.
W2617961757 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28551420" @default.
W2617961757 hasPublicationYear "2017" @default.
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