Труды сотрудников ИВМ СО РАН

[Text] / L.A. Shchur // Hydrobiological Journal. - 2012. - Vol. 48, Is. 1. - pp. 3-12, DOI 10.1615/HydrobJ.v48.i1.10 . - ISSN 0018-8166
Аннотация: Three following periods were distinguished in the Krasnoyarsk Reservoir in 2000-2009: With low, middle, and high water levels. The largest number of phytoplankton species and infraspecific taxa (193) was found at a middle water level. Cyanophyta gave way to Bacillariophyta, which is indicative of the decrease in the trophic level of the reservoir. In terms of phytoplankton biomass and saprobic index, water quality in the reservoir corresponds to the third class and ?-mesosaprobic zone. В© 2012 Begell House, Inc.

Scopus


Доп.точки доступа:
Щур, Людмила Александровна

[Текст] : статья / М. Ю. Сенашова, М. Г. Садовский // Международный журнал прикладных и фундаментальных исследований. - 2017. - № 11-2. - С. 255-259 . - ISSN 1996-3955
   Перевод заглавия: Spatial structure of genomes of cyanobacteria

УДК

573.22

575.89

Аннотация: Представлены результаты, полученные при изучении пространственной структуры геномов цианобактерий. В качестве структуры в нашей работе понимается расположение в пространстве частот триплетов точек, соответствующих выделенным участкам генома цианобактерий. Для каждого участка длины ? со сдвигом t вычислялся частотный словарь троек символов без пересечений. Частоты рассматривались как координаты в 64-мерном пространстве. Таким образом, каждому участку генома сопоставлялась точка в пространстве частот. Было проанализировано 7 геномов цианобактерий, размещенных в EMBL-банке. Одна координата (с минимальным стандартным отклонением) отбрасывалась и в дальнейшем рассматривалось 63-мерное пространство частот. Для визуализации полученного множества точек была использована программа VidaExpert. С ее помощью для каждого генома были построены проекции в пространство первых трёх главных компонент из 63-мерного пространства частот. Мы обнаружили, что геномы цианобактерий обладают одинаковой структурой, представляющей собой своеобразный клубок из нитей. Причем нити образованы точками, соответствующими последовательным участкам генома.
The results obtained in the study of the structure of the genomes of cyanobacteria are presented. By structure in our work is meant the location in space of triplet frequencies of points corresponding to fragments of the genome of cyanobacteria. For each length-shifted fragments, a frequency dictionary of symbol triples without intersections was computed. Frequencies were considered as coordinates in a 64-dimensional space. Thus, each point of the genome was compared with a point in the frequency space. Seven genomes of cyanobacteria located in the EMBL-bank were analyzed. One coordinate (with a minimal standard deviation) was discarded and a 63-dimensional frequency space was subsequently considered. For each genome in space of frequencies by means of program VidaExpert projections from 63-dimensional space in space of first three main components have been constructed. This allowed us to visualize the structure of genomes. It was found that the genomes of cyanobacteria have the same structure, which is a kind of tangle of filaments. And the threads are formed by points corresponding to consecutive fragments of the genome.

РИНЦ

Держатели документа:
ФГАОУ «Сибирский федеральный университет», институт фундаментальной биологии и биотехнологии
ФГБУН «Федеральный исследовательский центр “Красноярский научный центр Сибирского отделения Российской академии наук”» - обособленное подразделение «Институт вычислительного моделирования» Сибирского отделения Российской академии наук»

Доп.точки доступа:
Сенашова, М.Ю.; Senashova M.Yu.; Садовский, М.Г.; Sadovskiy M.G.

/ M. G. Sadovsky, M. Y. Senashova, A. V. Malyshev // Zhurnal Obshchei Biol. - 2018. - Vol. 79, Is. 2. - С. 124-134. - Cited References:14 . - ISSN 0044-4596РУБ Biology

Аннотация: It is tested whether seven-cluster genome structure, detected in bacteria, is a universal one and whether all of its observed properties pertain to other genomes. Inner structuring of chloroplasts' and cyanobacteria's genome is studied, and it is found out that this structuring notably differs from what was earlier discovered in bacterial genomes. By structuring it is meant the clasterization of triplet frequency dictionary developed for different genome fragments which have regular allocation, independent of the fragment function. The clasterization has been executed by the method of elastic maps.

WOS

Держатели документа:
RAS, Inst Computat Modelling, Siberian Branch, Krasnoyarsk 660036, Russia.
Siberian Fed Univ, Sch Fundamental Biol & Biotechnol, Svobodny Pr 79, Krasnoyarsk 660041, Russia.

Доп.точки доступа:
Sadovsky, M. G.; Senashova, M. Yu.; Malyshev, A. V.

/ M. G. Sadovsky, M. Y. Senashova, A. V. Malyshev // BMC Bioinformatics. - 2020. - Vol. 21. - Ст. 83, DOI 10.1186/s12859-020-3350-z. - Cited References:45 . - ISSN 1471-2105РУБ Biochemical Research Methods + Biotechnology & Applied Microbiology

Аннотация: Background Previously, a seven-cluster pattern claiming to be a universal one in bacterial genomes has been reported. Keeping in mind the most popular theory of chloroplast origin, we checked whether a similar pattern is observed in chloroplast genomes. Results Surprisingly, eight cluster structure has been found, for chloroplasts. The pattern observed for chloroplasts differs rather significantly, from bacterial one, and from that latter observed for cyanobacteria. The structure is provided by clustering of the fragments of equal length isolated within a genome so that each fragment is converted in triplet frequency dictionary with non-overlapping triplets with no gaps in frame tiling. The points in 63-dimensional space were clustered due to elastic map technique. The eight cluster found in chloroplasts comprises the fragments of a genome bearing tRNA genes and exhibiting excessively high GC-content, in comparison to the entire genome. Conclusion Chloroplasts exhibit very specific symmetry type in distribution of coding and non-coding fragments of a genome in the space of triplet frequencies: this is mirror symmetry. Cyanobacteria may have both mirror symmetry, and the rotational symmetry typical for other bacteria.

WOS

Держатели документа:
RAS, SB, Inst Computat Modelling, Krasnoyarsk 660036, Russia.
Siberian Fed Univ, Svobodny Prosp 79, Krasnoyarsk 660041, Russia.
VF Voino Yasenetsky Krasnoyarsk State Med Univ, P Zheleznjaka Str 1, Krasnoyarsk 660022, Russia.

Доп.точки доступа:
Sadovsky, Michael G.; Senashova, Maria Yu; Malyshev, Andrew V.