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标题：EFECTELE UNDELOR MILIMETRICE ASUPRA PROCESULUI DE DEZVOLTARE A POPULAŢIEI LEVURII SACCHAROMYCES CEREVISIAE CNMN-Y-20 ÎN FUNCŢIE DE DURATA IRADIERII
其他标题：THE EFFECT OF MILLIMETER WAVES ON THE DEVELOPMENT OF POPULATIONS OFSACCHAROMYCES CEREVISIAE CNMN-Y-20 YEAST STRAIN IN DEPENDENCE OF THEDURATION OF IRRADIATION
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作者：Natalia CHISELIŢA
期刊名称：Studia Universitatis Moldaviae: Stiinte Exacte si Economice
印刷版ISSN：1857-2073
电子版ISSN：2345-1033
出版年度：2014
期号：1(71)
页码：67-72
出版社：Moldova State University
摘要：În studiu sunt expuse rezultatele influenţei duratei de iradiere cu unde milimetrice cu frecvenţă extra înaltă(53,33 GHz-λ=5,6 mm) asupra dezvoltării generaţiilor populaţionale şi viabilităţii tulpinii de drojdii S. cerevisiaeCNMN-Y-20. S-a stabilit că iradierea tulpinii cu unde milimetrice cu frecvenţa enunţată timp de 5, 10, 15, 20, 25 minuteduce, în primele 6 ore de cultivare, la creşterea semnificativă a numărului de generaţii (cu 2,5 - 3,3 generaţii) şi a viabilităţiitulpinii comparativ cu martorul neiradiat. Efectul maximal de stimulare a viabilităţii (cu 56,2%) s-a observat după24 ore de cultivare la probele iradiate timp de 20 de minute
其他摘要：In this paper are presented results of the study of influence of the duration of irradiation by millimeter waves withextremely high frequency (53,33 GHz-λ=5,6 mm) on the development of population and viability of S. cerevisiaeCNMN-Y-20 yeast strain. It was established that the irradiation of yeast strain by millimeter waves with extremely highfrequency during the 5, 10, 15, 20, 25 minutes has conducted to the significant increasing of amount of generations(with 2,5-3,3 generation) and of the viability of the strain in comparison with control during the first 6 hours ofcultivation. Maximum of stimulation of viability (with 56,2 %) was revealed after 24 hours of cultivation in samplesirradiated during 20 minutes
关键词：Saccharomyces cerevisiae; proliferare; viabilitate; unde milimetrice cu frecvenţă extra înaltă
其他关键词：Saccharomyces cerevisiae; proliferation; viability; millimeter waves with extremely high frequency