marker-assisted selection in wheat

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Chapter 15 – Marker-assisted selection in forestry species 299Grattapaglia, D., Bertolucci, L.G. & Sederoff, R.R. 1995. Genetic mapping of QTLs controllingvegetative propagation in Eucalyptus grandis and E. urophylla using a pseudo-testcross strategy andRAPD markers. Theor. Appl. Genet. 90: 933–947.Grattapaglia, D., Bertolucci, L.G., Penchel, R. & Sederoff, R.R. 1996. Genetic mapping of quantitativetrait loci controlling growth and wood quality traits in Eucalyptus grandis using a maternalhalf-sib family and RAPD markers. Genetics 144: 1205–1214.Grattapaglia, D., Ribeiro, V.J. & Rezende, G.D.S.P. 2004. Retrospective selection of elite parenttrees using paternity testing with microsatellite markers: an alternative short term breeding tacticfor Eucalyptus. Theor. Appl. Genet. 109: 192–199.Groover, A., Devey, M., Fiddler, T., Lee, J., Megraw, R., Mitchel-Olds, T., Sherman, B., Vujcic, S.,Williams, C. & Neale, D. 1994. Identification of quantitative trait loci influencing wood specificgravity in an outbred pedigree of loblolly pine. Genetics 138: 1293–1300.Hanley, S., Barker, J.H.A., van Oijen, J.W., Aldam, C., Harris, S.L., Ahman, I., Larsson, S. &Karp, A. 2002. A genetic linkage map of willow (Salix viminalis) based on AFLP and microsatellitemarkers. Theor. Appl. Genet. 105: 1087–1096.Harwood, C.E., Ha Huy Thinh, Tran Ho Quang, Butcher, P.A. & Williams, E.R. 2004. The effectof inbreeding on early growth of Acacia mangium in Vietnam. Silv. Genet. 53: 65–69Hayashi, E., Kondo, T., Terada, K., Kuramoto, N. Goto, Y., Okamura, M. & Kawasaki, H. 2001.Linkage map of Japanese black pine based on AFLP and RAPD markers including markers linkedto resistance against the pine needle gall midge. Theor. Appl. Genet. 102: 871–875.Hertzberg, M., Aspeborg, H., Schrader, J., Andersson, A., Erlandsson, R., Blomqvist, K., Bhalerao,R., Uhlén, M., Teeri, T.T., Lundeberg, J., Sundberg, B., Nilsson, P. & Sandberg, G. 2001. A transcriptionalroadmap to wood formation. Proc. Nat Acad. Sci. USA 98: 14732–14737.Hu, W.-J., Harding, S.A., Lung, J., Popko, J.L., Ralph, J., Stokke, D.D., Tsai, C.-J. & Chiang,V.L. 1999. Repression of lignin biosynthesis promotes cellulose accumulation and growth. NatureBiotech. 17: 808–812.Hurme, P., Sillanpaa, M.J., Arjas, E., Repo, T. & Savolainen, O. 2000. Genetic basis of climatic adaptationin Scots pine by Bayesian quantitative trait locus analysis. Genetics 156: 1309–1322.International HapMap Consortium. 2003. The International HapMap Project. Nature 426:789–796.Jermstad, K.D., Bassoni, D.L., Jech, K.S., Ritchie, G.A., Wheeler, N.C. & Neale, D.B. 2003.Mapping of quantitative trait loci controlling adaptive traits in coastal Douglas fir. III. QTL byenvironment interactions. Genetics 165: 1489–1506.Jermstad, K.D., Bassoni, D.L., Jech, K.S., Wheeler, N.C. & Neale, D.B. 2001a. Mapping of quantitativetrait loci controlling adaptive traits in coastal Douglas fir. I. Timing of vegetative bud flush.Theor. Appl. Genet. 102: 1142–1151.Jermstad, K.D., Bassoni, D.L., Wheeler, N.C., Anekonda, T.S., Aitken, S.N., Adams, W.T. &Neale, D.B. 2001b. Mapping of quantitative trait loci controlling adaptive traits in coastal Douglasfir. II. Spring and fall cold hardiness. Theor. Appl. Genet. 102: 1152–1158.Jermstad, K.D., Bassoni, D.L., Wheeler, N.C. & Neale, D.B. 1998. A sex-averaged linkage map incoastal Douglas-fir (Pseudotsuga menziesii [Mirb.] Franco) based on RFLP and RAPD markers.Theor. Appl. Genet. 97: 762–770.Johnson, G.R., Wheeler, N.C. & Strauss, S.H. 2000. Financial feasibility of marker-aided selectionin Douglas fir. Can. J. For. Res. 30: 1942–1952.
300Marker-assisted selection – Current status and future perspectives in crops, livestock, forestry and fishJoshi, C.P. 2004. Molecular genetics of cellulose biosynthesis in trees. In S. Kumar & M. Fladung,eds. Molecular genetics and breeding of forest trees, pp. 141–165. New York, USA, HaworthPress.Joshi, C.P., Wu, L. & Chiang, V.L. 1999. A novel xylem specific and tension stress responsive cellulosesynthase gene from quaking aspen, Abstract p.19. In M. Campbell, ed. Forest Biotechnology99. Oxford, UK, Oxford University Press.Jouanin, L. & Goujon, T. 2004. Tuning lignin metabolism through genetic engineering in trees. InS. Kumar & M. Fladung, eds. Molecular genetics and breeding of forest trees, pp. 167–191. NewYork, USA, Haworth Press.Junghaus, D.T., Alfenas, A.C., Brommonschenkel, S.H., Oda,S., Mello, E.J. & Grattapaglia, D.2003. Resistance to rust (Puccinia psidii Winter) in Eucalyptus: mode of inheritance and mapping ofa major gene with RAPD markers. Theor. Appl. Genet. 108: 175–180.Kaya, Z., Sewell, M.M. & Neale, D.B. 1999. Identification of quantitative trait loci influencing annualheight- and diameter-increment growth in loblolly pine. Theor. Appl. Genet. 98: 586–592.Kha, L.D., Hai, N.D. & Vinh, H.Q. 1998. Clonal tests and propagation options for naturalhybrids between Acacia manguim and A. auriculiformis. In J.W. Turnbull H.R. Crompton & K.Pinyopusarek, eds. Recent developments in acacia planting, pp. 203–210. ACIAR Proc. No. 82,Canberra, ACIAR.Kirst, M., Myburg, A.A., De León, J.P.G., Kirst, M.E., Scott, J. & Sederoff, R. 2004. Coordinatedgenetic regulation of growth and lignin revealed by quantitative trait locus analysis of cDNAmicroarray data in an interspecific backcross of Eucalyptus. Plant Physiol. 135: 2368–2378.Krutovskii, K.V. & Neale, D.B. 2001. Forest genomics for conserving adaptive genetic diversity.FAO Forest Genetic Resources Working Paper FGR/3 (E). Rome (available at www.fao.org/DOCREP/003/X6884E/X6884E00.HTM).Krutovskii, K.V., Vollmer, S.S., Sorensen, F.C., Adams, W.T., Knapp, S.J. & Strauss, S.H. 1998.RAPD genome maps of Douglas fir. J. Hered. 89: 197–205.Krutovsky, K.V., Troggio, M., Brown, G., Jermstad, K.D. & Neale, D.B. 2004. Comparative mappingin the Pinaceae. Genetics 168: 447–461.Krutovsky, K.V., Pande, P., Jermstad, K.D., Howe, G.T., St. Clair, J.B., Wheeler, N.C. & Neale, D.B.2005. Nucleotide diversity and linkage disequilibrium in adaptive trait related candidate genes inDouglas fir, Abstract W110. In Plant & Animal Genomes XII Conference, San Diego, CA, USA.Kubisiak T.L., Nelson, C.D., Nance, W.L. & Stine, M. 1996. Comparison of RAPD linkage mapsconstructed for a single longleaf pine from both haploid and diploid mapping populations. For.Genet. 3: 203–211.Kumar, S., Spelman, R.J., Garrick, D.J., Richardson, T.E., Lausberg, M. & Wilcox, P.L. 2000.Multiple marker mapping of wood density loci in an outbred pedigree of radiata pine. Theor. Appl.Genet. 100: 926–933.Kuramoto, N., Kondo, T., Fujisawa, Y., Nakata, R., Hayashi, E. & Goto, Y. 2000. Detection ofquantitative trait loci for wood strength in Cryptomeria japonica. Can. J. For. Res. 30: 1525–1533.Lander, E.S. & Botstein, D. 1989. Mapping Mendelian factors underlying quantitative traits usingRFLP linkage maps. Genetics 121: 185–199.Lerceteau, E., Plomion, C. & Andersson, B. 2000. AFLP mapping and detection of quantitative traitloci (QTLs) for economically important traits in Pinus sylvestris: a preliminary study. Mol. Breed.6: 451–458.
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MARKER-ASSISTED SELECTIONCurrent st
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iiiContentsAcknowledgementsForeword
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Section v - marker-assisted selecti
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viiithe specific gene or chromosome
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CIATCIMMYTCIPCIRADcMCMDCMVCORPOICAC
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xiiISNARISSRITPGRFAJGIKARILDLDLLD-M
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xvContributorsAmalia BaroneProfesso
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xviiElcio Perpétuo GuimarãesSenio
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xixAndrea SonninoSenior Agricultura
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Chapter 1Marker-assisted selection
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Chapter 1 - An overview of the issu
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16Marker-assisted selection - Curre
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Chapter 3Molecular markers for use
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Chapter 3 - Molecular markers for u
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Chapter 6Targeted introgression of
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Chapter 6 - Targeted introgression
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Chapter 10Strategies, limitations a
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Chapter 19Technical, economic and p
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Chapter 20Impacts of intellectual p
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