Zobrazeno 1 - 10
of 32
pro vyhledávání: '"N. A. Rozhnova"'
Publikováno v:
Biomics. 12:520-531
One of the effective approach to improve the nutritional value of sorghum grains is the production of mutants with partially or completely blocked synthesis or the altered amino acid composition of spare proteins - kafirins. The usage of the genomic
Autor:
G. A. Gerashchenkov, D. A. Chemeris, A. V. Chemeris, E V Mikhailova, N. A. Rozhnova, R.T. Matniyazov, An. Kh. Baimiev, Z. R. Vershinina, A. V. Knyazev, Bulat Kuluev, G. R. Gumerova, Al. Kh. Baimiev, O.Yu. Kiryanova, I M Gubaidullin
Publikováno v:
Молекулярная биология. 54:29-50
CRISPR/Cas technology of genome editing is a powerful tool for making targeted changes in the DNA of various organisms, including plants. The choice of the precise nucleotide sequence (protospacer) in the gene to be edited is important in the design
Autor:
G. A. Gerashchenkov, N. A. Rozhnova, B. R. Kuluev, O. Yu. Kiryanova, G. R. Gumerova, A. V. Knyazev, Z. R. Vershinina, E. V. Mikhailova, D. A. Chemeris, R. T. Matniyazov, An. Kh. Baimiev, I. M. Gubaidullin, Al. Kh. Baimiev, A. V. Chemeris
Publikováno v:
Molecular Biology. 54:24-42
Publikováno v:
Biomics. 12:510-519
Genome-editing strategies have recently emerged as promising tools to impart desired properties to many eukaryotic species, including plants. This technology can CRISPR/Cas9 be used to engineer plant resistance to narrow or wide range of pathogens, r
Autor:
Lyudmila Alexandrovna Suplotova, Yury Ivanovich Suntsov, L N Kretinina, L N Bel'chikova, N A Rozhnova
Publikováno v:
Сахарный диабет, Vol 8, Iss 2, Pp 10-13 (2005)
Цель. Изучение фактической распространенности СД и его осложнений, оценка эффективности проводимого лечения и разработка рекомендаций
Externí odkaz:
https://doaj.org/article/8cb4296ef5d1494784a94d261de7ced5
Autor:
Bulat Kuluev, Al. Kh. Baymiev, An. Kh. Baymiev, G. R. Gumerova, A. V. Chemeris, G. A. Gerashchenkov, Z. R. Vershinina, R.T. Matniyazov, A. V. Khyazev, N. A. Rozhnova, E. V. Mikhaylova
Publikováno v:
Russian Journal of Plant Physiology. 66:694-706
CRISPR/Cas genome editing of plants is realized in three basic variants, including knockout mutations as indels, insertion of alien DNA fragments, and base editing via deamination of nitrogenous bases. The most important stages of the CRISPR/Cas-base
Publikováno v:
Biomics. 11:422-429
Autor:
R.T. Matniyazov, Baymiev Al.Kh., L U Akhmetzyanova, O.Yu. Kiryanova, R.R. Garafutdinov, I M Gubaidullin, Baymiev An.Kh, A. V. Knyazev, A. V. Chemeris, E V Mikhailova, Z. R. Vershinina, N. A. Rozhnova, G. R. Gumerova, Bulat Kuluev, G. A. Gerashchenkov
Publikováno v:
Biomics. 11:315-343
Publikováno v:
Izvestia Ufimskogo Nauchnogo Tsentra RAN. 5:86-93
Autor:
G A, Gerashchenkov, N A, Rozhnova, B R, Kuluev, O Yu, Kiryanova, G R, Gumerova, A V, Knyazev, Z R, Vershinina, E V, Mikhailova, D A, Chemeris, R T, Matniyazov, An Kh, Baimiev, I M, Gubaidullin, Al Kh, Baimiev, A V, Chemeris
Publikováno v:
Molekuliarnaia biologiia. 54(1)
CRISPR/Cas technology of genome editing is a powerful tool for making targeted changes in the DNA of various organisms, including plants. The choice of the precise nucleotide sequence (protospacer) in the gene to be edited is important in the design