Detection of CRISPR cassettes and cas genes in the Arabidopsis thaliana genome by Yu. M. Konstantinov, I. S. Petrushin

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Subtilases: a major prospect to the genome editing in horticultural crops by Umashankar Chandrasekaran, Umashankar Chandrasekaran, Woo Jong Hong, Hyeran Kim, Hyeran Kim

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Genome Survey and SSR Analysis of Camellia nitidissima Chi (Theaceae) by Yu Bai, Lin Ye, Kang Yang, Hui Wang

“…Its genomic characteristics were found to be similar to those of Camellia oleifera. …”
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The giant genome of lily provides insights into the hybridization of cultivated lilies by Yuwei Liang, Qiang Gao, Fan Li, Yunpeng Du, Jian Wu, Wenqiang Pan, Shaokun Wang, Xiuhai Zhang, Mingfang Zhang, Xiaoming Song, Linlin Zhong, Fan Zhang, Yan Li, Zhiwei Wang, Danqing Li, Qing Duan, Shenchong Li, Chunlian Jin, Peihua Zhang, Yang Gu, Zhong-Hua Chen, Klaus F. X. Mayer, Xiaofan Zhou, Jihua Wang, Liangsheng Zhang

“…Abstract Lilies are economically important monocots known for their ornamental flowers, bulbs, and large genomes. The absence of their genomic information has impeded evolutionary studies and genome-based breeding efforts. …”
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Coronavirus Host Genomics Study: South Africa (COVIGen-SA) by Andrew K. May, Heather Seymour, Harriet Etheredge, Heather Maher, Marta C. Nunes, Shabir A. Madhi, Simiso M. Sokhela, W. D. Francois Venter, Neil Martinson, Firdaus Nabeemeeah, Cheryl Cohen, Jocelyn Moyes, Sibongile Walaza, Stefano Tempia, Jackie Kleynhans, Anne von Gottberg, Jeremy Nel, Halima Dawood, Ebrahim Variava, Stephen Tollman, Kathleen Kahn, Kobus Herbst, Emily B. Wong, Caroline T. Tiemessen, Alex van Blydenstein, Lyle Murray, Michelle Venter, June Fabian, Michéle Ramsay

“…Global Health, Epidemiology and Genomics…”
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Survey of the Applications of NGS to Whole-Genome Sequencing and Expression Profiling by Jong-Sung Lim, Beom-Soon Choi, Jeong-Soo Lee, Chanseok Shin, Tae-Jin Yang, Jae-Sung Rhee, Jae-Seong Lee, Ik-Young Choi

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ALLOPOLYPLOIDY AND ORIGIN OF GENOMES IN THE ELYMUS L. SPECIES (A REVIEW) by K. S. Dobryakova

“…Widespread in Russia are mainly the species with genomic formulae StH, StY and StHY. According to the nomenclature system of Triticeae genomes, in the Russian Federation there are 53 species of Elymus with genomic constitutions StH, StY (2n = 4x = 28) and StHY (2n = 6x = 42). …”
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The complete chloroplast genome and phylogenetic analysis of Emilia prenanthoidea (Asteraceae) by Yacheng Huang, Ni Zhao, Min Liang, Xuying Wang, Shudong Zhang, Chao Zhao, Linya Liu

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Cytogenetic features of intergeneric amphydiploids and genome-substituted forms of wheat by E. D. Badaeva, R. O. Davoyan, N. A. Tereshchenko, E. V. Lyalina, S. A. S.A. Zoshchuk, N. P. Goncharov

Subjects: “…genome stabilization…”
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Genomic analysis of three medieval parchments from German monasteries by Felix Heinrich, Henner Simianer, Jörg Bölling, Hedwig Röckelein, Christian Roos, Christian Reimer, Armin O. Schmitt

“…The source animal of the parchments could be identified as cattle and we compared their genome sequences with those of modern populations that are part of the 1000 Bull Genomes Project. …”
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Laboratory readiness and genomic surveillance of Covid-19 in the capital of Brazil. by Fabrício Vieira Cavalcante, Christina Pacheco Santos Martin, Gustavo Saraiva Frio, Rodrigo Guerino Stabeli, Leonor Maria Pacheco Santos

“…This study aims to analyze the diagnostic readiness to Covid-19 and the genomic surveillance of SARS-CoV-2 in Brasília, the capital of Brazil. …”
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Near complete genome assembly of Yadong trout (Salmo trutta) by Chen Li, Shenglei Han, Shuo Li, Kaiqiang Liu, Yuyan Liu, Hong-yan Wang, Qian Wang, Changlin Liu, Changwei Shao

“…The genome assembly spans 2.49 Gb, with 96.87% of the sequence anchored onto 40 chromosomes. …”
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Microevolutionary differentiation of cereal tetraploid species by formation of recombinant genomes by N. I. Dubovets, Ye. A. Sycheva

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Cloning a Chloroplast Genome in Saccharomyces cerevisiae and Escherichia coli by Emma Walker, Bogumil Karas

“…Chloroplast genomes present an alternative strategy for large-scale engineering of photosynthetic eukaryotes. …”
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AI and genomics: Navigating the future of personalized medicine and ethical challenges by Kuppusamy Sathishkumar, Gokul Sudhakaran, Meivelu Moovendhan, B. Haridevamuthu

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Genomic Landscape and Prediction of Udder Traits in Saanen Dairy Goats by Xiaoting Yao, Jiaxin Li, Jiaqi Fu, Xingquan Wang, Longgang Ma, Hojjat Asadollahpour Nanaei, Ali Mujtaba Shah, Zhuangbiao Zhang, Peipei Bian, Shishuo Zhou, Ao Wang, Xihong Wang, Yu Jiang

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Revisiting two hypotheses on the “domestication syndrome” in light of genomic data by A. S. Wilkins

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The genomic pattern of insertion/deletion variations during rice improvement by Xia Zhou, Jilong Li, Lei Chen, Minjie Guo, Renmin Liang, Yinghua Pan

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Complete mitochondrial genome assembly and comparative analysis of Colocasia esculenta by Huinan Li, Lili Liu, Zuyang Qiu, Fanglian He, Weiqing Dong

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DNA PANEL DESIGN FOR GENOMIC STUDIES IN RUSSIAN CATTLE BREEDS by N. S. Yudin, L. A. Vasil’eva, V. A. Belyavskaya, R. B. Aitnazarov, P. N. Smirnov, M. Heaton, W. W. Laegreid, G. V. Orlova, A. G. Romashchenko, M. I. Voevoda

“…The main criterion for selection of individual animals within each breed is to maximize the total number of unshared haploid genomes according to pedigree data. The resulting panel is equivalent to USDA MARC Beef Cattle Diversity Panel version 2.1 in the power of SNP identification (number of unshared haploid genomes = 186,1, minimum allele frequency required for its detection with 95 % probability – 1,6 %). …”
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