marker-assisted selection in wheat - ictsd

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Chapter 7 – Marker-assisted selection in common beans and cassava 113Kawano, K. 2003. Thirty years of cassava breeding for productivity- biological and social factors forsuccess. Crop Sci. 43: 1325–1335.Kawano K., Narintaraporn, K., Narintaraporn, P., Sarakarn, S., Limsila, A., Limsila, J., Suparhan,D., Sarawat, V. & Watananonta, W. 1998. Yield improvement in a multistage breeding programfor cassava. Crop Sci. 38: 325–332.Kelly, J.D. & Adams, M.W. 1987. Phenotypic recurrent selection in ideotype breeding of pinto beans.Euphytica 36: 69–80.Kelly, J.D., Schneider, K.A. & Kolkman, J.M. 1999. Breeding to improve yield. In S.P. Singh, ed.Common bean improvement in the twenty-first century. Developments in plant breeding, Vol. 7,pp. 185–222. Dordrecht, Netherlands, Kluwer Academic Publishers.Kelly, J.D, Gepts, P., Miklas, P.N. & Coyne, D.P. 2003. Tagging and mapping of genes and QTL andmolecular-marker assisted selection for traits of economic importance in bean and cowpea. FieldCrops Res. 82: 135–154.Klimyuk, V.I., Carroll, B.J., Thomas, C.M. & Jones, J.D.G. 1993. Alkali treatment for rapid preparationof plant material for reliable PCR analysis. Plant J. 3: 493–494.Kullaya, A., Mtunda, K., Kulembeka, H., Ferguson, M., Marin, J., Ospina, C., Barrera, E., Jarvis,A., Morante, M., Ceballos, H., Tohme, J. & Fregene, M. 2004. Molecular marker-assisted andfarmer participatory improvement of cassava germplasm for farmer/market preferred traits inTanzania. 6 th. Internat. Scientific Mtg. Cassava Biotech. Network. Cali, Colombia, CIAT.Legg, J.P. & Ogwal, S. 1998. Changes in the incidence of African cassava mosaic virus disease andthe abundance of its whitefly vector along south-north transects in Uganda. J. Appl. Entom. 122:169–178.Liao, H., Yan, X., Rubio, G., Beebe, S.E., Blair, M.W. & Lynch, J.P. 2004. Basal root gravitropismand phosphorus acquisition efficiency in common bean. Funct. Plant Biol. 31: 1–12.Mahuku, G., Montoya, C., Henríquez, M.A., Jara, C., Terán, H. & Beebe, S. 2004. Inheritance andcharacterization of angular leaf spot resistance gene in common bean accession G 10474 and identificationof an AFLP marker linked to the resistance gene. Crop Sci. 44: 1817–1824.Mba, R.E.C., Stephenson, P., Edwards, K., Melzer, S., Nkumbira, J., Gullberg, U., Apel, K., Gale,M., Tohme, J. & Fregene, M. 2001. Simple sequence repeat (SSR) markers survey of the cassava(Manihot esculenta Crantz) genome: towards a SSR-based molecular genetic map of cassava.Theor. Appl. Genet. 102: 21–31.Melotto, M., Afanador, L. & Kelly, J.D. 1996. Development of a SCAR marker linked to the I genein common bean. Genome 39: 1216–1219.Meuwissen, T.H.E., Hayes, B.J. & Goddard, M.E. 2001. Prediction of total genetic value usinggenome-wide dense marker maps. Genetics 157: 1819–1829.Miklas, P.N., Larsen, R.C., Riley, R. & Kelly, J.D. 2000a. Potential marker-assisted selection forbc-1 2 resistance to bean common mosaic potyvirus in common bean. Euphytica 116(3):211–219.Miklas, P.N., Smith, J.R., Riley, R., Grafton, K.F., Singh, S.P., Jung, G. & Coyne, D.P. 2000b.Marker-assisted breeding for pyramided resistance to common bacterial blight in common bean.Ann. Rep. Bean Improv. Coop. 43: 39–40.Miklas, P.N., Stone, V., Daly, M.J., Stavely, J.R., Steadman, J.R., Bassett, M.J., Delorme, R. &Beaver, J.S. 2000c. Bacterial, fungal, and viral disease resistance loci mapped in a recombinantinbred common bean population (‘Dorado’/XAN 176). J. Am. Soc. Hort. Sci. 125: 476–481.
114Marker-assisted selection – Current status and future perspectives in crops, livestock, forestry and fishMiklas, P.N., Kelly, J.D., Beebe, S.E. & Blair, M.W. 2006. Common bean breeding for resistanceagainst biotic and abiotic stresses: from classical to MAS breeding. Euphytica 147: 105–131.Muñoz, L.C., Blair, M.W., Duque, M.C., Roca, W. & Tohme, J. 2004. Level of introgression in interspecific(Phaseolus vulgaris x P. acutifolius) congruity-backcross lines. Crop Sci. 44: 637–645.Nichols, R.F.W. 1947. Breeding cassava for virus resistance. East Afr. Agric. J. 12: 184–194.Nietsche, S., Borém, A., Carvalho, G.A., Rocha, C., Paula, T.J., de Barros, E.G. & Moreira, M.A.2000. RAPD and SCAR markers linked to a gene coferring resistance to angular leaf spot incommon bean. J. Phytopathol. 148: 117–121.Nobuyuki, I., Bautista, N.S., Yamada, T., Kamijima, O. & Ishi, T. 2000. Ultra simple DNA extractionmethod for marker-assisted selection using microsatellite markers in rice. Plant Mol. Biol.Reporter 18: 1–6.Okogbenin, E., Porto, M.C.M & Dixon, A.G.O. 1998. Influence of planting season on incidence andseverity of African cassava mosaic disease in the subhumic zone of Nigeria. In I.J. Ekanayake, ed.Root crops and poverty alleviation, pp. 338–392. Ibadan, Nigeria, IITA.Park, S.O., Coyne, D.P., Mutlu, N., Jung, G. & Steadman, L.R. 1999. Confirmation of molecularmarkers and flower color associated with QTL for resistance to common bacterial blight incommon beans. J. Amer. Soc. Hort. Sci. 124: 519–526.Pastor-Corrales M.A., Jara, C. & Singh, S. 1998. Pathogenic variation in, source of, and breedingfor resistance to Phaeoisariopsis griseola causing angular leaf spot in common bean. Euphytica 103:161–171.Pérez, J.C., Ceballos, H., Jaramillo, G., Morante, N., Calle, F., Arias, B. & Bellotti, A.C. 2005a.Epistasis in cassava (Manihot esculenta Crantz) adapted to mid-altitude valley environment. CropSci. 45: 1491–1496.Pérez, J.C., Ceballos, H., Calle, F., Morante, N., Gaitán, W., Llano, G. & Alvarez, E. 2005b.Within-family genetic variation and epistasis in cassava (Manihot esculenta Crantz) adapted to theacid-soils environment. Euphytica 145: 77–85.Polston, J.E. & Anderson, P.K. 1997. The emergence of whitefly transmitted geminiviruses in tomatoin the western hemisphere. Plant Disease 81: 1357–1369.Rajendran, P.G., Ravindran, C.S., Nair, S.G. & Nayar, T.V.R. 2000. True cassava seeds (TCS) forrapid spread of the crop in non-traditional areas. Thiruvananthapuram, Kerala, India, CentralTuber Crops Research Institute. 22 pp.Santana, G.E., Blair, M.W., Morales, F., Mahuku, G., Jara, C. & Castaño, M. 2004. Uso de tecnicasclasicas y avanzadas para identificar genotipos de frijol resistentes a antracnosis y mosaico común.Fitotecnia Colombiana 4: 44–54.Sartorato, A., Nietsche, S., Barros, E.G. & Moreira, M.A. 1999. SCAR marker linked to angular leafspot resistance gene in common bean. Bean Improv. Coop. 42: 23–24.Schneider, K.A., Brothers, M.E. & Kelly, J.D. 1997. Marker-assisted selection to improve droughttolerance in common bean. Crop Sci. 37: 51–60.Scotti, C., Pupilli, F., Salvi, S. & Arcioni, S. 2000. Variation in Vigot and in RFLP-estimated heterozygosityby selfing tetraploid alfalfa: new perspectives for the use of selfing in alfalfa breeding.Theor. Appl. Genet. 101: 120–125.Shull, G.F. 1952. Beginnings of the heterosis concept. In J.W. Gowen, ed. Heterosis, pp. 14–48. Ames,IA, USA, Iowa State College Press.
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iiiContentsAcknowledgementsForeword
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Section v - marker-assisted selecti
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viiForewordSince almost the beginni
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ixAbbreviations and acronymsAATFAB-
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xiFIVIMSFNPFSCFSILGABIGASGCAGCPGDPG
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xiiiOBMOECDOIEOPVPAGEPBRsPCRPGRFAPI
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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 10Strategies, limitations a
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Section VMarker-assisted selectioni
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Chapter 19Technical, economic and p
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