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1997 | 19 | 2 |

Tytuł artykułu

Excessive homozygosity in doubled haploids - advantages and disadvantages for plant breeding and fundamental research

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The utility of haploids and DH lines for breeding programmes and basic research is discussed here. High effectiveness of haploid induction from random responding gametes and from valuable donor plants is not sufficient to ensure success in breeding. DH lines often appeared inferior to conventionally obtained inbred lines. One of the causes may be a very high level of homozygosity, in this paper referred to as excessive homozygosity. Besides, colchicine treatment as well as gametoclonal and somaclonal variation could have a negative effect on the agronomic performance of DH plants. Lack of natural selection in the first stages of haploid development is another important factor, negatively influencing haploid utility. On the other hand, there is a wide range of possibilities of using haploids as model plants for basic research. Among different applications, including mapping, genetic analysis, mutations, transformation, somatic hybridisation, biochemical and physiological studies, artificial seed production and germplasm storage, the first seems to be explored most effectively and give promising results.

Wydawca

-

Rocznik

Tom

19

Numer

2

Opis fizyczny

p.155-167

Twórcy

  • Warsaw Agricultural University, 02-787 Warsaw, Nowoursynowska 166, Poland

Bibliografia

  • Bentolila S., Hardy T., Guitton C., Freyssinet G. 1992. Comparative genetic analyses of F₂ plants and anther culture derived plants of maize. Genome 35: 575–582.
  • Bezant J., Laurie D., Pratchett N., Chojecki J., Kearsey M. 1996. Marker regression mapping of QTL controlling flowering time and plant height in a spring barley (Hordeum vulgare L.) cross. Heredity 77: 64–73.
  • Bohuon E.J.R., Keith D.J., Parkin I.A.P., Sharpe A.G., Lydiate D.J. 1996. Alignment of the conserved C genome of Brassica oleracea and Brassica napus. Theoretical Appl. Gen. 93: 833–839.
  • Brown D.C.W., Watson E.M., Pechan P.M. 1993. Induction of desiccation tolerance in microspore-derived embryos of Brassica napus in vitro. Cell. Devel. Biol. 29: 113–118.
  • Cegielska T. 1994. Rola haploidów i podwojonych haploidów w hodowli rzepaku (Brassica napus L.). Prace Ogrodu Botanicznego PAN 5/6: 61–67.
  • Cerosimo A., Sorrentino C. 1996. Haploid in Nicotiana spp. In: In vitro haploid production in higher plants. (Eds.) Jain S.M., Sopory S.K., Veilleux R.E. Kluwer Academic Publishers Dordrecht, Boston, London, 5: 135–163.
  • Chair H., Legavre T., Guiderdoni E. 1996. Transformation of haploid, microscopre-derived cell suspension protoplasts of rice (Oryza sativa L.). Plant Cell Reports. 15: 766–770.
  • Charne D.G., Pubacki P., Kott L.S., Beversdorf W.D. 1988. Embryogenesis following cryopreservation in isolated microspores of rapeseed (Brassica napus L.). Plant Cell Rep. 7: 407–409.
  • Chebotar O.D., Chalyk S.T. 1996. The use of maternal haploids for genetic analysis of the number of kernel rows per ear in maize. Hereditas 124: 173–178.
  • Crouch M.L. 1982. Nonzygotic embryos of Brassica napus L. contain embryo-specific storage proteins. Planta 156: 520–524.
  • Chen J.L., Beversdorf W.D. 1992. Cryopreservation of isolated microspores of spring rapeseed (Brassica napus L.) for in vitro embryo production. Plant Cell Tiss. Org. Cult. 31: 141–149.
  • De Buyser J., Henry Y., Lonnet P., Hertzog R., Hespel A. 1987. Florin: a doubled haploid wheat variety developed by the anther culture method. Plant Breed. 98: 53–56.
  • Datta S.K., Datta K., Soltanifar N., Donn G., Potrykus I. 1992. Herbicide resistant Indica rice plants from IRRI breeding line IR72 after PEG-mediated transformation of protoplasts. Plant Mol. Biol. 20: 619–629.
  • Dietzmann E., Foroughi-Wehr B. 1996. Combination of resistances to barley yellow mosaic virus and Rhynchosporium secalis by recurrent selection with repeated haploid steps. Plant Breeding 115: 179–182.
  • Dion Y., Gugel R.K., Rakoow G.F.W., Seguin-Swartz G., Landry B.S. 1995. RFLP mapping of resistance to the blackleg disease (causal agent, Leptosphaeria maculans (Desm.) Des. Et de Not.) in canola (Brassica napus L.). Theoretical Appl. Gen. 91: 1190–1194.
  • Dogimont C., Palloix A., Daubze A.M., Marchoux G., Selassie K.G., Pochard E. 1996. Genetic analysis of broad spectrum resistance to potyviruses using doubled haploid lines of pepper (Capsicum annuum L.). Euphytica 88: 231–239.
  • Chuong P.V., Beversdorf W.D., Pauls K.P. 1987. Plant regeneration from haploid stem peel protoplasts of Brassica napus L. J. Plant Physiol. 130: 57–65.
  • Chuong P.V., Beversdorf W.D., Powell A.D., Pauls K.P. 1988a. The use of haploid protoplast fusion to combine cytoplasmic atrazine resistance and cytoplasmic male sterility in Brassica napus. Plant Cell Tiss. Org. Cult. 12: 181–184.
  • Chuong P.V., Beversdorf W.D., Powell A.D., Pauls K.P. 1988b. Somatic transfer of cytoplasmic traits in Brassica napus L. by haploid protoplast fusion. Mol. Genet. 211: 197–201.
  • Faris N.M., Rakoczy-Trojanowska M., Malepszy S., Niemirowicz-Szczytt K. 1996. Induction and regeneration of cucumber (Cucumis sativus L.) doubled haploids. J. Appl. Genet. 37A: 181–186.
  • Fauen M. 1994. Use biotechnology in breeding new varieties of winter oilseedrape in Germany. Bull. GCIRC 10: 16–20.
  • Gosal S.S., Sindhu A.S., Sandhu J.S., Raman Sandhu-Gill, Baldev Singh, Khehra G.S., Sidhu G.S., Dhaliwal H.S. 1996. Haploidy in rice. In: In vitro haploid production in higher plants. (Eds.) Jain S.M., Sopory S.K., Veilleux R.E. Kluwer Academic Publishers Dordrecht, Boston, London. 4:1–35.
  • Guha S., Maheshwari S.C. 1964. In vitro production of embryos from anthers of Datura. Nature 204.: 497.
  • Guha S., Mahehwari S.C. 1966. Cell division and differentiation of embryos in the pollen grains of Datura in vitro. Nature 212: 97–98.
  • Graner A., Foroughi-Wehr B., Tekauz A. 1996. RFLP mapping of a gene in barley conferring resistance to net blotch (Pyrenophora teres). Euphytica 91: 229–234.
  • Graner A., Jahoor A., Schondelmaier J., Siedler H., Pillen K., Fischbeck G., Wenzel G., Herrmann R.G. 1991. Construction of an RFLP map of barley. Theoretical Appl. Gen. 83: 250–256.
  • Graner A., Tekauz A. 1996. RFLP mapping in barley of a dominant gene conferring resistance to scald (Rhynchosporium secalis). Theoretical Appl. Gen. 93: 421–425.
  • Hansen A.L., Plever C., Pedersen H.C., Keimer B., Andersen S.B. 1994. Efficient in vitro chromosome doubling during Beta vulgaris ovule culture. Plant Breeding 112: 89–95.
  • Haung B, Swanson E.B., Baszczynski C.L., Macrae W.D., Bardour E., Armavil V., Wohe L., Arnaldo M., Rozakis S., Westecott M., Keats R.F., Kemble R. 1991. Application of microspore culture to canola improvement. In: McGregor D.I. (Ed), Proc. 8th Intl. Rapeseed Congr 6, p298.
  • Heun M., Kennedy A.E., Anderson J.A. 1991. Construction of a restriction fragment length polymorphism map for barley (Hordeum vulgare). Genome 34: 437–447.
  • Hoekstra S., Zijderveld van M.H., Heidekamp F., Mark van der F. 1993. Microspore culture of Hordeum vulgare L.: the influence of density and osmolality. Plant Cell Rep. 12: 661–665.
  • Holbrook L.A., Rooijen Van G.J.H., Wilen R.W., Moloney M.M. 1991. Oil-body proteins in microspore-derived embryos of Brassica napus; Hormonal, osmotic and developmental regulation for synthesis. Plant Physiol. 97: 1051–1058.
  • Hu H. 1996. In vitro induced haploids in wheat. In: In vitro haploid production in higher plants. (Eds.) Jain S.M., Sopory S.K., Veilleux R.E. Kluwer Academic Publishers Dordrecht, Boston, London 4: 73–97.
  • Hunter C.P., 1987. Plant generation method. European Patent Appl.. No 0245 898 A2:1–8.
  • Jacobsen E., Malvar R., Huigen D.J., Bergervoet J.E.M., Ramanna M.S. 1993. Isolation and characterisation of somatic hybrids of diploid Solanum tuberosum and Solanum brevidens and the use of amylose-free starch mutation for detection of introgression. Euphytica 69: 191–201.
  • Johnson-Flanagan A.M., Huiwen Z., Geng X.M., Brown D.C.W., Nykifarutk C.L., Singh J. 1992. Frost, abscisic acid and desiccation hasten embryo development in Brassica napus L., Plant Physiol. 94: 700–706.
  • Johnson-Flanagan A.M., Singh J. 1993. A method to study seed degreening using haploid embryos of Brassica napus cv. Topas. J. Plant Physiol. 141: 487–493.
  • Khush G.S., Virmani S.S. 1996. Haploids in plant breeding. In: In vitro haploid production in higher plants. (Eds) Jain S.M., Sopory S.K., Veilleux R.E. Kluwer Academic Publishers Dordrecht, Boston, London. 1: 11–33.
  • Larson S.R., Kadyrzhanova D., McDonald C., Sorrels M., Blake T.K. 1996. Evaluation of barley hromosome-3 yield QTLs in a backcross F2 population using STS-PCR. Theoretical Appl. Gen. 93: 618–625.
  • Laurie D.A., Pratchett N., Bezant J.H., Snape J.W. 1995. RFLP mapping of five major genes and eight quantitative trait loci controlling flowering time in a winter x spring barley (Hordeum vulgare L.) cross. Genome 38: 575–585.
  • Lefebvre V., Palloix A. 1996. Both epistatic and additive effects of QTL are involved in polygenic induced resistance to disease: a case study, the interaction pepper-Phytophtora capsici Leonian. Theoretical Appl. Gen. 93: 503–511.
  • Liu B.S., Yin L.Q., Wang W.Y., Zhang C.M., Zhang J.J., Lu XW. 1994. Estimation of the number of effective genes in doubled haploid populations of rice. Acta Agriculturae Shanghai. 19: 12–16.
  • Liu Z.W., Biyashev R.M., Saghai Maroof M.A. 1996. Development of simple sequence repeat DNA markers and their integration into a barley linkage map. Theoretical Appl. Gen. 93: 869–876.
  • Lutticke S., Becker D., Brettschneider R., Jahne A., Lorz H. 1995. Genetic modification of cereal crops by direct gene transfer. In: Induced mutations and molecular techniques for crop improvement. Proceedings, Vienna, Austria, 19–23 June 1995. 389–397.
  • Lydiate D., Sharpe A., Lagercrantz U., Parkin I. 1993. Mapping the Brassica genome. Outlook Agric. 22: 85–92.
  • Maheshwari S.C., Rashid A., Tyagi A.K. 1983. Anther/pollen culture for production of haploids and their utility. Newsl. Intl. Assoc. Plant Tissue Cult. 41: 2–9.
  • Malepszy S., Grunewaldt J., Maluszynski M. 1977. Über die Selektion von Mutanten in Zellkulturen aus haploider Nicotiana sylvestris Spegazz. et Cones. Z. Pflanzenzüchtg., 79: 160–166.
  • Maluszynski M., Szarejko I., Sigurbjornsson B. 1996. Haploidy and mutation techniques. In vitro haploid production in higher plants. (Eds.) Jain S.M., Sopory S.K., Veilleux R.E. Kluwer Academic Publishers Dordrecht, Boston, London.. 1: 67–93.
  • Marburger J.E., Jauhar P.P. 1989. Agronomic, isozyme and cytogenetic characteristics of Chris wheat doubled haploids. Plant Breeding 103: 73–80.
  • Murigneaux A., Barloy D., Leroy P., Beckert M. 1993. Molecular and morphological evaluation of doubled haploid lines in maize. I. Homogeneity within DH lines. Theoretical Appl. Gen. 86: 837–842.
  • Murigneux A., Baud S., Beckert M. 1993. Molecular and morphological evaluation of doubled haploid lines in maize II. Comparison with single seed descent lines. Theoretical Appl. Gen. 87: 278–287.
  • Niemirowicz-Szczytt K. 1984a. The result of intergeneric pollination of F. ananassa Duch. and F. virginiana Duch by Potentilla species. Acta Sooc. Bot. Pol. 53: 443–454.
  • Niemirowicz-Szczytt K. 1984b. Morphological and cytological characters of progeny obtained from pollination of F. ananassa Duch with Potentilla species. Acta Soc. Bot. Pol. 53: 455–468.
  • Niemirowicz-Szczytt K. 1984c. Embryological studies on F. ananassa Duch. after pollination by three spp. of Potentilla. Acta Soc. Bot. Pol. 53: 469–484.
  • Niemirowicz-Szczytt K. 1987. Strawberry (Fragaria x ananassa Duch.) haploids and their generative progeny; induction and characteristics. Treatises and Monographs. Warsaw Agric. Univ. Poland No 65.
  • Niemirowicz-Szczytt K. 1990. Strawberry (Fragaria x ananassa Duch.): in vitro production of haploids. In: Biotechnology in Agriculture and Forestry 12. Haploids in crop improvement I., (Ed.) Bajaj Y.P.S, Springer-Verlag, Berlin, Heidelberg, New York, London, Paris, Tokyo, Hong-Kong, 403–416.
  • Niemirowicz-Szczytt K. 1996. Biotechnology in haploids and polyploids. 1996. Biotechnologia 1(32): 52–59.
  • Niemirowicz-Szczytt K., Zakrzewska Z. 1980. Fragaria x ananassa anther culture. Bull. Acad. Pol. Sci. 5: 341–347.
  • Niemirowicz-Szczytt K., Zakrzewska Z., Malepszy S., Kubicki B. 1983. Characters of plants obtained from Fragaria x ananassa anther culture. Acta Hort. 131: 231–337.
  • Niemirowicz-Szczytt K., Dumas de Vaulx R. 1989. Preliminary data on haploid cucumber (Cucumis sativus L.) induction. Cucurbit Genet. Coop. 12:24–25.
  • Nikolova V., Niemirowicz-Szczytt K. 1996. Diploidization of cucumber (Cucumis sativus L.) haploids by colchicine treatment. Acta Soc. Bot. Pol. 65: 7pp in press.
  • Palmer C. E., Keller W.A., Arnison P.G. 1996. Utilization of Brassica haploids.: In vitro haploid production in higher plants. (Eds.) Jain S.M., Sopory S.K., Veilleux R.E., Kluwer Academic Publishers Dordrecht, Boston, London. 3: 173–192.
  • Pecchioni N., Faccioli P., Toubia Rahme H., Vale G., Terzi V., Giese H. In 1996. Quantitative resistance to barley leaf stripe (Pyrenophora gramineae) is dominated by one major locus. Theoretical Appl. Gen. 93: 97–101.
  • Pedersen H.C., Keimer B. 1996. Haploidy in sugar beet (Beta vulgaris L.). In: In vitro haploid production in higher plants. (Eds.) Jain S.M., Sopory S.K., Veilleux R.E. Kluwer Academic Publishers Dordrecht, Boston, London. 3: 17–36.
  • Pickering R.A., Devaux P. 1992. Haploid production: approaches and uses in plant breeding. In: Barley: Genetics, Molecular Biology and Biotechnology Ed. Shewry P.R. pp. 519–547. CAB International, Alden Press Ltd., Oxford.
  • Powell W., Borrino E.M., Allison M.J., Griffiths D.W., Asher M.J.C., Dunwell J.M. 1986. Genetical analysis of microspore derived plants of barley (Hordeum vulgare). Theoretical Appl. Gen. 72: 619–626.
  • Przyborowski J., Niemirowicz-Szczytt K. 1994. Main factors affecting cucumber (Cucumis sativus L.) haploid embryo development and haploid plant characteristics. Plant Breeding 112: 70–75.
  • Ramsay L.D., Jennings D.E., Bohuon E.J.R., Arthur A.E., Lydiate D.J., Kearsey M.J., Marshall D.F. 1996. The construction of a substitution library of recombinant backcross lines in Brassica oleracea for the precision mapping of quantitative trait loci. Genome 39: 558–567.
  • Reed S.M., Wernsman E.A. 1989. DNA amplification among anther-derived doubled haploid lines of tobacco and its relationship to agronomic performance. Crop Sci. 29: 1072–1076.
  • Renckens S., Greve H de., Beltran-Herrera J., Toong L.T., Deboeck F., Rycke R de., Montagu M. Van, Harnalsteens J.P. 1996. Insertion mutagenesis and study of transposable elements using a new unstable virescent seedling allele for isolation of haploid petunia lines. Plant Journal 10: 533–544.
  • Rokka V.M., Xu Y.S., Kankila J., Kuusela A., Pulli S., Pehu E. 1994. Identification of somatic hybrids of dihaploid Solanum tuberosum lines and S. brevidens by species specific RAPD patterns and assessment of disease resistance of the hybrids. Euphytica 80: 207–217.
  • Rode A., Hartmann C., Benslimane A., Picard E., Quetier F. 1987. Gametoclonal variation detected in the nuclear ribosomal DNA from doubled haploid lines of a spring wheat (Triticum aestivum L. cv. Cesar). Theoretical Appl. Gen. 74: 31–37.
  • Romagosa I., Ullrich S.E., Han F., Hayes P.M. 1996. Use of the additive main effects and multiplicative interaction model in QTL mapping for adaptation in barley. Theoretical Appl. Gen. 93: 30–37.
  • Sukhapinda K., Kozuch M.E., Rubin-Wilson B., Ainley W.M., Merlo D.J. 1993. Transformation of maize (Zea mays L.) protoplasts and regeneration of haploid transgenic plants. Plant Cell Rep. 13: 63–68.
  • Sumaryati S., Negrutiu I., Jacobs M. 1992. Characterization and regeneratioon of salt- and water-stress mutants from protoplasts culture of Nioctiana plumbaginifolia (Viviani). Theoretical Appl. Gen. 83: 613–619.
  • Surma M., Adamski T., Kaczmarek Z. 1991. Linkage of genes controlling quantitative characters in barley DH lines. Eucarpia, Biometrics in Plant Breeding, Brno, Czechoslovakia, July 1–6, 1991: 367–373.
  • Swanson E.B., Coumans M.P., Brown G.L. 1988. The characterization of herbicide tolerant plants in Brassica napus L. after in vitro selection of microspores and protoplasts. Plant Cell Rep. 7: 83–87.
  • Swanson E.B., Erickson L.R. 1989. Haploid transformation in Brassica napus using an octopine-producing strain of Agrobacterium tumefaciens. Theoretical Appl. Gen. 78: 831–835.
  • Swanson E.B., Herrgesell M.J., Arnoldo M., Sippell D., Wong R.S.C. 1989. Microspore mutagenesis and selection: canola plants with field tolerance to the imidazolinones. Theoretical Appl. Gen. 78: 525–530.
  • Szarejko I., Guzy J., Jimenez-Davalos J., Roldan-Chavez A., Maluszynski M. 1995. Production of mutants using barley DH systems. In: Induced mutations and molecular techniques for crop improvement. Proceedings, Vienna, Austria, 19–23 June 1995. 517–530.
  • Takahata Y., Brown D.C.W., Keller W.A., Kaizuma N. 1993. Dry artificial seeds and desiccation tolerance induction in microspore-derived embryos of broccoli. Plant Cell. Tiss. Org. Cult. 35: 121–129.
  • Thormann C.E., Romero J., Mantet J., Osborn T.C. 1996. Mapping loci controlling the concentrations of erucic and linolenic acids in seed oil of Brassica napus L. Theoretical Appl. Gen. 93: 282–286.
  • Turner J., Facciotti D. 1990. High oleic acid Brassica napus from mutagenized microspores. In: McFerson J.R., Kresovich S., Dwyer S.G. (Eds.), Proc. 6th Crucifer Genetics Workshop, Geneva, NY. p.24.
  • Veilleux R.E. 1996. Haploidy in important crop plants — potato. In: In vitro haploid production in higher plants (Eds.) Jain S.M., Sopory S.K., Veilleux R.E. Kluwer Academic Publishers Dordrecht, Boston, London. 3: 37–49.
  • Wernsman E.A., Matzinger D.F., Rufty R.C. 1989. Androgenic vs. gynogenic doubled haploids of tobacco. Crop Sci. 29: 1151–1155.
  • Weyen J., Bauer E., Graner A., Friedt W., Ordon F. 1996. RAPD-mapping of the distal portion of chromosome 3 of barley, including the BaMMV/BaYMV resistance gene ym4. Plant Breeding 115: 285–287.
  • Wiberg E., Rahlen L., Hellman M., Tillberg E., Glimelius K., Stymne S. 1991. The microspore-derived embryo of Brassica napus L. as a tool for studying embryo-specific lipid biosynthesis and regulation of oil quality. Theoretical Appl. Gen. 82: 515–520.
  • Yu Z.H., Mackill D.J., Bonman J.M., McCouch S.R., Guideroni E., Notteghem J.L., Tanksley S.D. 1996. Molecular mapping of genes for resistance to rice blast (Pyricularia grisea Sacc.). Theoretical Appl. Gen. 93: 859–863.
  • Zapata F.J., Torrizo L.B., Ando A. 1995. Current developments in plant biotechnology for genetic improvement: the case of rice (Oryza sativa L.). World Journal of Microbiology and Biotechnology 11: 393–399.
  • Zhang G., Angeles E.R., Abenes M.L.P., Khush G.S., Huang N. 1996. RAPD and RFLP mapping of the bacterial blight resistance gene xa-13 in rice. Theoretical Appl. Gen. 93: 65–70.

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