Resultados de búsqueda - "Genomics"

A male linkage map of the cattle (Bos taurus) genome por Ma, R.Z., Beever, J.E., Da, Y., Green, C.A., Russ, I., Park, C., Heyen, D.W., Everts, R.E., Fisher, S.R., Overton, K.M., Teale, A.J., Kemp, Stephen J., Hines, H.C., Guerin, G., Lewin, H.A.

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The identification of circular extrachromosomal DNA in the nuclear genome of Trypanosoma brucei por Alsford, N.S., Navarro, M., Jamnadass, Ramni H., Dunbar, H., Ackroyd, M., Murphy, N.B., Gull, K., Ersfeld, K.

“…Whereas it has been found in all field isolates of the parasites we analysed, it is not detectable in some laboratory strains notably the genome reference strain 927. The DNA sequence of this element is related to a 29 bp repeat present in the subtelomeric region of VSG-bearing chromosomes of T. brucei. …”
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Large-scale analysis of tandem repeat variability in the human genome por Duitama, Jorge, Zablotskaya, Alena, Gemayel, Rita, Jansen, An, Belet, Stefanie, Vermeesch, Joris R, Verstrepen, Kevin J., Froyen, Guy

“…They constitute a significant proportion of the human genome, also occurring within coding and regulatory regions. …”
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The characterization of goat genetic diversity: Towards a genomic approach por Ajmone-Marsan, P., Colli, L., Han Jianlin, Achilli, A., Lancioni, H., Joost, S., Crepaldi, P., Pilla, F., Stella, A., Taberlet, P., Boettcher, P.J., Negrini, R., Lenstra, J.A.

“…The development of SNP panels that assay thousands of markers and the whole genome sequencing of livestock permit an affordable use of genomic technologies in all livestock species, goats included. …”
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Genomic polymorphism, sexual recombination and molecular epidemiology of Theileria parva por Bishop, Richard P., Geysen, D., Skilton, Robert A., Odongo, D., Nene, Vishvanath M., Allsopp, B.A., Mbogo, S., Spooner, P.R., Morzaria, S.P.

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Cassava genome from a wild ancestor to cultivated varieties por Wang, W., Feng, B, Xiao, Z, Zhou, X, Li, P, Zhang, W, Wang, Y., Lindberg Møller, B, Zhang, P., Luo, M, Xiao, G, Liu, J, Yang, J, Chen, S., Rabinowicz, P.D., Chen, X., Zhang, HB, Ceballos, H., Lou, Q, Zou, M, Carvalho, LJCB, Zeng, C, Xia, J., Sun, S, Fu, Y, Wang, H., Lu, C., Ruan, M, Zhou, S., Wu, Z, Liu, H, Kannangara, RM, Jørgensen, K, Neale, RL, Bonde, M, Heinz, N, Zhu, W, Wang, S., Zhang, Y., Pan, K, Wen, M, Ma, P, Li, Z, Hu, M, Liao, W, Hu, W, Zhang, S., Pei, J, Guo, A, Guo, J, Zhang, J., Zhang, Z., Ye, J, Ou, W, Ma, Y, Liu, X, Tallon, LJ, Galens, K, Ott, S, Huang, J, Xue, J, An, F, Yao, Q, Lu, X, Fregene, Martin A., Becerra López Lavelle, Luis Augusto, Wu, J., You, FM, Chen, M., Hu, S., Wu, G., Zhong, S, Ling, P, Chen, Y., Wang, Q., Liu, G, Liu, B, Li, K, Peng, M

Materias: “…genomes…”
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Genomic location of SSR markers of the potato genetic identity kit. por Ghislain, M., Herrera, M.R., Montenegro, J.D.

“…These markers were selected for single locus, highly polymorphic, and distributed throughout the genome (2 per linkage group). The sequencing of the genome of a doubled-monoploid potato from the Phureja Group has allowed us to characterize better each SSR marker of the PGI kit. …”
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Linking the potato genome to the conserved ortholog set (COS) markers por Lindqvist-Kreuze, H., Cho, K., Portal, L., Rodríguez, F., Simon, R., Mueller, L.A., Spooner, D.M., Bonierbale, Merideth W.

Materias: “…genomes…”
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The coffee genome provides insight into the convergent evolution of caffeine biosynthesis por Denoeud, F., Carretero-Paulet, L., Dereeper, A., Guignon, Valentin, Rouard, M.

Materias: “…genomes…”
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TREC-IN: gene knock-in genetic tool for genomes cloned in yeast por Chandran, S., Noskov, V.N., Segall-Shapiro, T.H., Ma, L., Whiteis, C., Lartigue, C., Jores, Joerg, Vashee, S., Ray-Yuan Chuang

“…With the development of several new technologies using synthetic biology, it is possible to engineer genetically intractable organisms including Mycoplasma mycoides subspecies capri (Mmc), by cloning the intact bacterial genome in yeast, using the host yeast’s genetic tools to modify the cloned genome, and subsequently transplanting the modified genome into a recipient cell to obtain mutant cells encoded by the modified genome. …”
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The Genomic Tools for Sweetpotato Improvement (GT4SP) Project por Yencho, George Craig, Khan, A.

“…This flyer introduces a new four year investment to develop genomic and genetic resources for sweetpotato improvement that has been launched with the goal of establishing a molecular marker-assisted breeding program in sweetpotato. …”
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The complete mitochondrial genome of Mong Cai pig (Susscrofa) in Vietnam por Thuy Nhien Thi Tran, Pan Ni, Jianhai Chen, Thuy Thi Le, Kemp, Stephen J., Han Jianlin, Haiyan Wang, Zhao, Shuhong

“…In this study, the complete mitochondrial genome sequence of the Mong Cai pig is reported. The total length of this mitochondrial genome is 16 632bp, including 1 non-coding control region (D-loop region), two ribosomal RNA genes, 13 protein-coding genes and 22 transfer RNA genes. …”
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Genome analysis and DNA marker-based characterisation of pathogenic trypanosomes. por Agbo, E.C.

“…The advances in genomics technologies and genome analysis methods that offer new leads for accelerating discovery of putative targets for developing overall control tools are reviewed in Chapter 1. …”
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Family Flexiviridae: A case study in virion and genome plasticity por Martelli, G.P., Adams, M.J., Kreuze, Jan F., Dolja, V.V.

Materias: “…genomes…”
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Advanced genomic technologies for genetic enhancement of yam (Dioscorea spp.) por Bhattacharjee, Ranjana, López Montes, Antonio José, Abberton, Michael T., Kumar, P. Lava, Asiedu, Robert

Materias: “…genomic technologies…”
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Trait variation in a banana training population for genomic selection. por Nyine, Moses, Uwimana, Brigitte, Swennen, Rony L., Batte, Michael, Brown, A., Christelova, Pavla, Hribova, E., Lorenzen, Jim, Doležel, Jaroslav

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Accuracies of univariate and multivariate genomic prediction models in African cassava por Okeke, U.G., Akdemir, D., Rabbi, Ismail Y., Kulakow, Peter A., Jannink, Jean-Luc

Materias: “…genomics…”
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Opportunities and Challenges to Implementing Genomic Selection in Clonally Propagated Crops por Gemenet, D., Khan, A.

“…The presence of several segregating alleles, overdominance and epistatic interactions, at each locus of highly heterozygous clonal crop decreases efficiency of phenotypic selection in breeding programs and genetic studies. Genomic selection (GS) that uses genome-wide genotypic data to predict the phenotypic performance of a genotype by estimating its breeding value has the potential to increase efficiency of clonal crop breeding. …”
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Hybridization and polyploidization effects on LTR‑retrotransposon activation in potato genome por Gantuz, Magdalena, Morales Sanfurgo, Hugo Andres, Bertoldi, Maria Victoria, Ibañez, Verónica Noé, Duarte, Paola Fernanda, Marfil, Carlos Federico, Masuelli, Ricardo Williams

“…It is proposed that the proliferation of Long Terminal Repeat-retrotransposons (LTR-RT) is related to genome reorganization caused by hybridization and/or polyploidization. …”
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The genome of the stress-tolerant wild tomato species Solanum pennellii por Bolger, Anthony, Scossa, Federico, Bolger, Marie E., Lanz, Christa, Maumus, Florian, Tohge, Takayuki, Quesneville, Hadi, Alseekh, Saleh, Sørensen, Iben, Lichtenstein, Gabriel, Fich, Eric A., Conte, Mariana, Keller, Heike, Schneeberger, Korbinian, Schwacke, Rainer, Ofner, Itai, Vrebalov, Julia, Xu, Yimin, Osorio, Sonia, Aflitos, Saulo Alves, Schijlen, Elio, Jiménez-Goméz, José M., Ryngajllo, Malgorzata, Kimura, Seisuke, Kumar, Ravi, Koenig, Daniel, Headland, Lauren R., Maloof, Julin N., Sinha, Neelima, van Ham, Roeland C. H. J., Lankhorst, René Klein, Mao, Linyong, Vogel, Alexander, Arsova, Borjana, Panstruga, Ralph, Fei, Zhangjun, Rose, Jocelyn K. C., Zamir, Dani, Carrari, Fernando, Giovannoni, James J., Weigel, Detlef, Usadel, Björn, Fernie, Alisdair R.

Materias: “…Genomes…”
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