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N. S. Badaev E. D. Badaeva N. L. Bolsheva N. G. Maximov A. V. Zelenin 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1985,70(5):536-541
Summary Hexaploid triticales were crossed with common wheats, and the resultant froms were selected for either triticale (AD 213/5-80) or common wheat (lines 381/80, 391/80, 393/80). The cytogenetic analysis showed that all forms differ in their chromosome composition. Triticale AD 213/5-80 and wheat line 381/80 were stable forms with 2n = 6x = 42. Lines 391/80 and 393/80 were cytologically unstable. In triticale AD 213/5-80, a 2R (2D) chromosome substitution was found. Each of the three wheat lines had a chromosome formed by the translocation of the short arm of IR into the long arm of the IB chromosome. In line 381/80, this chromosome seems to be inherited from the Kavkaz wheat variety. In lines 391/80 and 393/80, this chromosome apparently formed de novo since the parent forms did not have it. The karyotype of line 381/80 was found to contain rye chromosomes 4R/7R, 5R and 7R/4R. About 15% of the cells in line 391/80 contained an isochromosome for the 5R short arm and also a chromosome which arose from the translocation of the long arms of the 5D and 5R chromosomes. About one-third of the cells in the common wheat line 393/80 contained the 5R chromosome. This chromosome was normal or rearranged. Practical applications of the C-banding technique in the breeding of triticale is discussed. 相似文献
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N. V. Koroban A. V. Kudryavtseva G. S. Krasnov A. F. Sadritdinova M. S. Fedorova A. V. Snezhkina N. L. Bolsheva O. V. Muravenko A. A. Dmitriev N. V. Melnikova 《Molecular Biology》2016,50(3):337-343
Regulation of gene expression via microRNA is the key mechanism of response to biotic and abiotic stresses in plants. There are a lot of experimental data on the biological function of microRNAs in response to different stresses in various plant species. This review contains up-to-date information on molecular mechanisms of microRNA action in plants in response to abiotic stresses, including drought, salinity, mineral nutrient deficiency or imbalance. 相似文献
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Dmitriev Alexey A. Kudryavtseva Anna V. Krasnov George S. Koroban Nadezhda V. Speranskaya Anna S. Krinitsina Anastasia A. Belenikin Maxim S. Snezhkina Anastasiya V. Sadritdinova Asiya F. Kishlyan Natalya V. Rozhmina Tatiana A. Yurkevich Olga Yu. Muravenko Olga V. Bolsheva Nadezhda L. Melnikova Nataliya V. 《BMC plant biology》2016,16(3):139-146
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Alexey A. Dmitriev Anna V. Kudryavtseva George S. Krasnov Nadezhda V. Koroban Anna S. Speranskaya Anastasia A. Krinitsina Maxim S. Belenikin Anastasiya V. Snezhkina Asiya F. Sadritdinova Natalya V. Kishlyan Tatiana A. Rozhmina Olga Yu. Yurkevich Olga V. Muravenko Nadezhda L. Bolsheva Nataliya V. Melnikova 《BMC plant biology》2016,16(3):237
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A. R. Galimov A. A. Kruglov N. L. Bolsheva O. Yu. Yurkevich D. Ja. Liepinsh I. A. Mufazalov D. V. Kuprash S. A. Nedospasov 《Molecular Biology》2008,42(4):558-566
The molecular organization, copy number, and chromosome location of the human TNF/LT transgenes were studied in the genomes of two transgenic mouse strains. One strain proved to carry two transgene copies arranged head-to-tail and detected on chromosome 8 by karyotyping. The other strain had one transgene copy observed on chromosome 5. The strains provide a model for studying the physiological functions of the tumor necrosis factor and lymphotoxin. 相似文献
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Muravenko OV Yurkevich OY Bolsheva NL Samatadze TE Nosova IV Zelenina DA Volkov AA Popov KV Zelenin AV 《Genetica》2009,135(2):245-255
Karyotypes of species sects. Linum and Adenolinum have been studied using C/DAPI-banding, Ag-NOR staining, FISH with 5S and
26S rDNA and RAPD analysis. C/DAPI-banding patterns enabled identification of all homologous chromosome pairs in the studied
karyotypes. The revealed high similarity between species L. grandiflorum (2n = 16) and L. decumbens by chromosome and molecular markers proved their close genome relationship and identified the chromosome number in L. decumbens as 2n = 16. The similarity found for C/DAPI-banding patterns between species with the same chromosome numbers corresponds with
the results obtained by RAPD-analysis, showing clusterization of 16-, 18- and 30-chromosome species into three separate groups.
5S rDNA and 26S rDNA were co-localized in NOR-chromosome 1 in the genomes of all species investigated. In 30-chromosome species,
there were three separate 5S rDNA sites in chromosomes 3, 8 and 13. In 16-chromosome species, a separate 5S rDNA site was
also located in chromosome 3, whereas in 18-chromosome species it was found in the long arm of NOR-chromosome 1. Thus, the
difference in localization of rDNA sites in species with 2n = 16, 2n = 30 and 2n = 18 confirms taxonomists opinion, who attributed these species to different sects. Linum and Adenolinum, respectively. The
obtained results suggest that species with 2n = 16, 2n = 18 and 2n = 30 originated from a 16-chromosome ancestor. 相似文献
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