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Journal articles on the topic 'Cyclops kolensis'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Reed, Edward B. "Cyclops kolensis alaskaensis Lindberg, 1956, Revisited (Copepoda: Cyclopoida)." Journal of Crustacean Biology 15, no. 2 (May 1995): 365. http://dx.doi.org/10.2307/1548963.

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2

Semeshin, V. F., L. V. Omelyanchuk, A. L. Alekseeva, E. A. Ivankina, N. G. Shevelyova, and I. F. Zhimulev. "DNA content in nuclei of Cyclops kolensis and Cyclops insignis (Crustacea, Copepoda)." Cell and Tissue Biology 5, no. 3 (June 2011): 300–304. http://dx.doi.org/10.1134/s1990519x11030102.

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3

Grishanin, Andrey K., and Maxim V. Zagoskin. "Chromatin Diminution in Cyclops kolensis Lill. (Copepoda, Crustacea) as a Radical Way to Inactivate Redundant Genome in Somatic Cells." Cytogenetic and Genome Research 156, no. 3 (2018): 165–72. http://dx.doi.org/10.1159/000494157.

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Chromatin diminution (CD) is a phenomenon of programmed DNA elimination which takes place in early embryogenesis in some eukaryotes. The mechanism and biological role of CD remain largely unknown. During CD in the freshwater copepod Cyclops kolensis, the genome of cells of the somatic lineage is reorganized and reduced in size by more than 90% without affecting the genome of germline cells. Although the diploid chromosome number is unchanged, chromosome size is dramatically reduced by CD. The eliminated DNA consists primarily of repetitive sequences and localizes within granules during the elimination process. In this review, we provide an overview of CD in C. kolensis including both cytological and molecular studies.
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4

Adrian, Rita. "The feeding behaviour of Cyclops kolensis and C. vicinus (Crustacea, Copepoda)." SIL Proceedings, 1922-2010 24, no. 5 (December 1991): 2852–63. http://dx.doi.org/10.1080/03680770.1989.11899182.

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5

Degtyarev, S. "The molecular structure of the DNA fragments eliminated during chromatin diminution in Cyclops kolensis." Genome Research 14, no. 11 (November 1, 2004): 2287–94. http://dx.doi.org/10.1101/gr.2794604.

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6

Zagoskin, M. V., A. K. Grishanin, A. L. Korolev, M. V. Palenko, and D. V. Mukha. "Characterization of Cyclops kolensis inter-simple sequence repeats in germline and postdiminution somatic cells." Doklady Biochemistry and Biophysics 423, no. 1 (December 2008): 337–41. http://dx.doi.org/10.1134/s1607672908060057.

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7

Rivier, Irina C. "Ecology of diapausing copepodids of Cyclops kolensis Lill. in reservoirs of the Upper Volga." Hydrobiologia 320, no. 1-3 (March 1996): 235–41. http://dx.doi.org/10.1007/bf00016825.

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8

McKinnon, Christian, and Guy Drouin. "Chromatin diminution in the copepod Mesocyclops edax: elimination of both highly repetitive and nonhighly repetitive DNA." Genome 56, no. 1 (January 2013): 1–8. http://dx.doi.org/10.1139/gen-2012-0097.

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Chromatin diminution, a developmentally regulated process of DNA elimination, is found in numerous eukaryotic species. In the copepod Mesocyclops edax, some 90% of its genomic DNA is eliminated during the differentiation of embryonic cells into somatic cells. Previous studies have shown that the eliminated DNA contains highly repetitive sequences. Here, we sequenced DNA fragments from pre- and postdiminution cells to determine whether nonhighly repetitive sequences are also eliminated during the process of chromatin diminution. Comparative analyses of these sequences, as well as the sequences eliminated from the genome of the copepod Cyclops kolensis, show that they all share similar abundances of tandem repeats, dispersed repeats, transposable elements, and various coding and noncoding sequences. This suggests that, in the chromatin diminution observed in M. edax, both highly repetitive and nonhighly repetitive sequences are eliminated and that there is no bias in the type of nonhighly repetitive DNA being eliminated.
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9

Verbitsky, Vladimir B., Andrey K. Grishanin, Elena N. Medyantseva, Olga A. Malysheva, Valentina I. Lazareva, Svetlana M. Zhdanova, and Tamara I. Verbitskaya. "Thermal tolerance of Cyclops kolensis lilljeborg, 1901 (Copepoda: Cyclopoida) and its relationships with pessimal to optimal performance." Journal of Thermal Biology 86 (December 2019): 102429. http://dx.doi.org/10.1016/j.jtherbio.2019.102429.

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10

Grishanin, A. K., T. V. Boikova, T. L. Marshak, N. G. Mel’nik, E. Yu Naumova, M. V. Zagoskin, A. P. Akif’ev, and I. F. Zhimulev. "The conservatism of the genome structure of Cyclops kolensis (Copepoda, Crustacea) populations inhabiting Moscow Ponds and Lake Baikal." Doklady Biochemistry and Biophysics 408, no. 1 (June 2006): 161–64. http://dx.doi.org/10.1134/s160767290603015x.

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11

Jamieson, C. D., and B. Santer. "Maternal aging in the univoltine freshwater copepod Cyclops kolensis: variation in egg sizes, egg development times, and naupliar development times." Hydrobiologia 510, no. 1-3 (December 2003): 75–81. http://dx.doi.org/10.1023/b:hydr.0000008533.64765.87.

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12

Meyer, Michael F., Stephanie E. Hampton, Tedy Ozersky, Olga O. Rusanovskaya, and Kara H. Woo. "Vulnerability of rotifers and copepod nauplii to predation by Cyclops kolensis (Crustacea, Copepoda) under varying temperatures in Lake Baikal, Siberia." Hydrobiologia 796, no. 1 (October 14, 2016): 309–18. http://dx.doi.org/10.1007/s10750-016-3005-2.

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13

Wyngaard, Grace A., Ellen M. Rasch, and Barbara A. Connelly. "Unusual augmentation of germline genome size in Cyclops kolensis (Crustacea, Copepoda): further evidence in support of a revised model of chromatin diminution." Chromosome Research 19, no. 7 (September 28, 2011): 911–23. http://dx.doi.org/10.1007/s10577-011-9234-3.

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14

Kravtsova, Lyubov, Svetlana Vorobyeva, Elena Naumova, Lyudmila Izhboldina, Elena Mincheva, Tatyana Potemkina, Galina Pomazkina, et al. "Response of Aquatic Organisms Communities to Global Climate Changes and Anthropogenic Impact: Evidence from Listvennichny Bay of Lake Baikal." Biology 10, no. 9 (September 13, 2021): 904. http://dx.doi.org/10.3390/biology10090904.

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Recent studies have revealed how the freshwater biota of Lake Baikal responds to climate change and anthropogenic impacts. We studied phyto- and zooplankton, as well as phyto- and zoobenthos, in the open coastal waters of the southern basin of the lake and of Listvennichny Bay. A total of 180 aquatic organism taxa were recorded. The response of the Baikal ecosystem to climate change can be traced by changes in the species composition of planktonic communities of the lake’s open coasts in summer. The key species were thermophilic the Anabaena lemmermannii P. Richt. (Fij = +0.7) blue-green algae, the Asplanchna priodonta Gosse (Fij = +0.6) rotifers in 2016, the Rhodomonas pusilla (Bachm.) Javorn. (Fij = +0.5) cold-loving algae, and the Cyclops kolensis Lilljeborg (Fij = +0.9) copepods in the past century. The proportion of Chlorophyta decreased from 63% to 17%; the Cyanophyta increased from 3% to 11% in the total biomass of phytoplankton; and the proportion of Cladocera and Rotifera increased to 26% and 11% in the biomass of zooplankton, respectively. Human activity makes an additional contribution to the eutrophication of coastal waters. The Dinobryon species, the cosmopolitan Asterionella formosa Hass. and Fragilaria radians Kütz., dominated phytoplankton, and filamentous algae, Spirogyra, dominated at the bottom in the area with anthropogenic impact. The trophic level was higher than at the unaffected background site: the saprobity index varied from 1.45 to 2.17; the ratio of eutrophic species to oligotrophic species ranged from 1:2 to 3:1, and the ratio of mesosaprobiont biomass to endemics biomass ranged from 2:1 to 7:1. Currently, the boundaries of eutrophication zones of shallow waters in Lake Baikal are expanding, and its coastal zone has acquired features typical of freshwater bodies of the eutrophic type.
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15

"CYCLOPS KOLENSIS ALASKAENSIS LINDBERG, 1956, REVISITED (COPEPODA: CYCLOPOIDA)." Journal of Crustacean Biology 15, no. 2 (January 1, 1995): 365–75. http://dx.doi.org/10.1163/193724095x00361.

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