Carga Horária
Teórica por semana |
Prática por semana |
Créditos |
Duração |
Total |
2 |
2 |
8 |
15 semanas |
120 horas |
Docentes responsáveis
Antonio Augusto Franco Garcia
Objetivo
Habilitar os alunos para que consigam analisar, interpretar e incorporar a informação fornecida pelos
marcadores genéticos em pesquisas de genética e melhoramento.
Conteúdo
Serão abordados tópicos que fazem parte da área conhecida como Genética Estatística, descritos a
seguir, para todos os tipos de populações de mapeamento (F2, RC, RILs, delineamento III e F1
segregante). Construção de mapas genéticos: teste da segregação mendeliana, análise de ligação
multiponto, ordenação dos locos, funções de mapeamento. Mapeamento de QTL's: análise de marcas
individuais, mapeamento por intervalo, mapeamento por intervalo composto, mapeamento de múltiplos
intervalos, mapeamento usando modelos mistos, mapeamento associativo. Seleção genômica:
fundamentação do GBLUP e demais métodos relevantes. Aplicação dos resultados para estudos de
heterose, QTL x E, correlação entre caracteres, etc. Os programas computacionais que serão usados
serão principalmente baseados no R, incluindo por exemplo OneMap, R/qtl, etc.
Bibliografia
Bernardo R, Yu J (2007) Prospects for Genomewide Selection for Quantitative Traits in Maize. Crop Sci
47:1082.
Broman, K W, and Ś Sen, A Guide to QTL Mapping with R/qtl. eds. M Gail, K Krickberg, J Samet, A
Tsiatis, and W Wong, 1 edn (New York: Springer, 2009).
Cockerham, C Clark, and Z.-B. Zeng, “Design III With Marker Loci.” Genetics 143 (1996): 1437-1456.
Da Costa e Silva, Luciano, and Zhao-Bang Zeng, “Current progress on statistical methods for mapping
quantitative trait loci from inbred line crosses.” Journal of biopharmaceutical statistics 20, no. 2 (March
2010): 454-81, 2010, ).
Doerge, R W, Z.-B. Zeng, and B S Weir, “Statistical Issues in the Search for Genes Affecting Quantitative
Traits in Experimental Populations.” Statistical Science 12, no. 3 (1997): 195-219.
Doerge, R W, “Mapping and Analysis of Quantitative Trait Loci in Experimental Populations.” Nature
Reviews Genetics 3, no. 1 (2002): 43-52.
Ferrão L. F. V., R. Ortiz, and A. A. F. Garcia, 2017 Genomic Selection: State of the Art, pp. 19–54 in
Genetic Improvement of Tropical Crops, edited by Campos H., Caligari P. D. S. Springer International
Publishing.
Garcia, A A F, E A Kido, A N Meza, H M B Souza, L R Pinto, M M Pastina, et al., “Development of an
integrated genetic map of a sugarcane (Saccharum spp.) commercial cross, based on a maximumlikelihood
approach for estimation of linkage and linkage phases.” Theor. Appl. Genet. 112, no. 2
(January 2006): 298-314.
Garcia, A. A. F., S. Wang, A. E. Melchinger, and Z.-B. Zeng, “Quantitative Trait Loci Mapping and The
Genetic Basis of Heterosis in Maize and Rice.” Genetics 180, no. 3 (2008): 1707-1724.
Gaut, B S, and A D Long, “The Lowdown on Linkage Disequilibrium.” The Plant Cell 15, no. July (2003):
1502-1505.
Gazaffi R, Margarido GRA, Pastina MM, et al (2014) A model for quantitative trait loci mapping, linkage
phase, and segregation pattern estimation for a full-sib progeny. Tree Genet Genomes 10:791–801.
Jannink J-L, Lorenz AJ, Iwata H (2010) Genomic selection in plant breeding: from theory to practice.
Brief Funct Genomics 9:166–77.
Jansen, R C, and P Stam, “High Resolution of Quantitative Traits Into Multiple Loci via Interval Mapping.”
Genetics 136 (1994): 1447-1455.
Jiang, C, and Z.-B. Zeng, “Mapping quantitative trait loci with dominant and missing markers in various
crosses from two inbred lines.” Genetica 101, no. 1997 (1997): 47-58.
Jiang, C, and Z.-B. Zeng, “Multiple Trait Analysis of Genetic Mapping for Quantitative Trait Loci.”
Genetics 140 (1995): 1111-1127.
Kao, C, Z.-B. Zeng, and R D Teasdale, “Multiple Interval Mapping for Quantitative Trait Loci.” Genetics
125 (1999): 1203-1216.
Kao, C.-H., and Z.-B. Zeng, “Modeling Epistasis of Quantitative Trait Loci Using Cockerham’s Model.”
Genetics 160 (2002): 1243-1261.
Kruglyak, L, “The road to genome-wide association studies.” Nature Reviews Genetics 9, no. April
(2008): 314-318.
Lander, E S, and D Botstein, “Mapping Mendelian Factors Underlying Quantitative Traits Using RFLP
Linkage Maps.” Genetics 121 (1989): 185-199.
Lander, E S, and P Green, “Construction of multilocus genetic linkage maps in humans.” Proc. Natl.
Acad. Sci USA 84, no. April (1987): 2363-2367.
Laurie C, Wang S, Carlini-Garcia LA, Zeng Z-B (2014) Mapping epistatic quantitative trait loci. BMC
Genet 15:112.
Lynch, Michael, and B Walsh, Genetics and Analysis of Quantitative Traits. 1 edn (Sinauer Associates,
1998).
Mackay, T F C, “The Genetic Architecture of Quantitative Traits.” Annual Review of Genetics 35 (2001):
303-339.
Mackay I., H.-P. Piepho, and A. A. F. Garcia, 2019 Statistical methods for plant breeding, pp. 501–530 in
Handbook of Statistical Genomics 4th edition, edited by Balding D. J., Moltke, Ida, Marioni, John. John
Wiley & Sons Limited.
Mackay, T F C, E A Stone, and J F Ayroles, “The genetics of quantitative traits: challenges and
prospects.” Nature Reviews Genetics 10 (2009): 565-577
Margarido, G R A, A P Souza, and A A F Garcia, “OneMap: software for genetic mapping in outcrossing
species.” Hereditas 144, no. 3 (July 2007): 78-79.
Meuwissen TH, Hayes BJ, Goddard ME (2001) Prediction of total genetic value using genome-wide dense
marker maps. Genetics 157:1819–29.
Mollinari M., and A. A. F. Garcia, 2019 Linkage analysis and haplotype phasing in experimental
autopolyploid populations with high ploidy level using hidden markov models. G3: Genes, Genomes,
Genetics 9: 3297–3314.
Mollinari, M, G R A Margarido, R Vencovsky, and A A F Garcia, “Evaluation of algorithms used to order
markers on genetic maps.” Heredity 103, no. 6 (2009): 494-502
Oraguzie, A.C., E Rikkerink, S Gardiner, and H.N. De Silva, Association Mapping in Plants. 1st edn (New
York: Springer, 2007).
Pastina, M M, L R Pinto, K M Oliveira, A P Souza, and A A F Garcia, “Molecular Mapping of Complex
Traits,” in Genetics, Genomics and Breeding of Sugarcane, eds. R J Henry and C Kole (CRC Press, 2010).
Silva LDC, Wang S, Zeng Z-B (2012) Multiple trait multiple interval mapping of quantitative trait loci
from inbred line crosses. BMC Genet 13:67.
Wu, R, C.-X. Ma, I Painter, and Z.-B. Zeng, “Simultaneous Maximum Likelihood Estimation of Linkage
and Linkage Phases in Outcrossing Species.” Theoretical Population Biology 61, no. 3 (May 2002): 349-
363.
Wu, Rongling, Chang-Xing Ma, S S Wu, and Z.-B. Zeng, “Linkage mapping of sex-specific differences.”
Genetics Research 79, no. 01 (February 2002): 85-96.
Zeng, Z.-B., C. Kao, and C J Basten, “Estimating the genetic architecture of quantitative traits.”
Genetical Research 74 (1999): 279-289.
Zeng, Z.-B., T Wang, and W Zou, “Modeling Quantitative Trait Loci and Interpretation of Models.”
Genetics 169, no. 3 (2004): 1711-1725.
Zeng, Z.-B., “Precision Mapping of Quantitative Trait Loci.” Genetics 1136 (1994): 1457-1468.
Zeng, Z.-B., “Theoretical basis for separation of multiple linked gene effects in mapping quantitative trait
loci.” Proc. Natl. Acad. Sci USA 90 (1993): 10972-10976.