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1998 | 39 | 1 |

Tytuł artykułu

Intermedium mutants in barley [Hordeum vulgare L.] - diversity, interactions and plant breeding value

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Mutation research has given an insight into the rather complex genetics of kernel rows in barley. At least 12 gene loci can act to promote the spike development, fertility, and kernel development. Mutants with such effects as sixrow and intermedium phenotypes show clear morphological distinctions among different loci, but also among different allelic mutants. These genes, without exception, are capable of unexpected synergistic reinforcing or disturbing intraction, the extremes being typically six-rowed or deformed spikes, respectively. The investigations have centered on 69 intermedium mutants, representing 9 loci, in double mutant combinations, in double combinations with the six-row gene hex-v, in triple combinations with hex-v, and in triple and quadruple mutant combinations. The effects of the interaction may differ among the three characters of lateral floret development, among intermedium loci, and among alleles of the particular locus. Particular types of gene interaction are indicated, particular loci being more competent than others, and the particular alleles being more competent in relation to the constellation of loci. Accumulation of intermedium genes in more complex gene systems leads to progressive promotion of lateral floret development, but there are indications that such systems may be more sensitive to environmental stress, leading to irregular or even deformed spike formation. Probably, representatives of the hex-v locus should form the fundamental constituent in the synthesis of gene systems with the most efficient promotion of lateral floret development in the breeding of six-row barley.

Wydawca

-

Rocznik

Tom

39

Numer

1

Opis fizyczny

p.85-96

Twórcy

autor
  • Svalof Weibull AB, S-26881 Svalov, Sweden
autor

Bibliografia

  • Аbebe В. (1990a). Lateral floret development in barley as influenced by recessive intermedium genes in a heterozygous state. I. Interaction with recessive int genes at other loci. Hereditas 112: 33-38.
  • Аbebe B. (1990b). Lateral floret development in barley as influenced by recessive int genes in a heterozygous state. II. Interaction with semidominant Int-d genes. Hereditas 112: 39-48.
  • Аbebe B., Lundqvist U., Lundqvist A. (1990). Enhancing interaction of recessive intermedium genes of barley in combinations with the six-row gene hex-v. Hereditas 112: 21-32.
  • Gustafsson Å., Hagberg A., Lundqvist U., Persson G. (1969). A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62: 409-414.
  • Gustafsson Å., Lundqvist U. (1980). Hexastichon and intermedium mutants in barley. Hereditas 92: 229-236.
  • Gymer P.T. (1978). The genetics of the six-row/two-row character. Barley Genet. Newsl. 8: 44-46.
  • Leonard W.H. (1942). Inheritance of fertility in the lateral spikelets of barley. Genetics 27: 299-316.
  • Lundqvist U., Аbebe B., Lundqvist A. (1988a). Gene interaction of induced intermedium mutations of two-row barley. II. Interaction between the hex-v gene and int genes. Hereditas 109: 197-204.
  • Lundqvist U., Аbebe B., Lundqvist A. (1988b). Gene interaction of induced intermedium mutations of two-row barley. III. Overlapping in dihybrid F₂ classification patterns in combinations of recessive int genes. Hereditas 109: 205-214.
  • Lundqvist U., Abebe B., Lundqvist A. (1989a). Gene interaction of induced intermedium mutations of two-row barley. IV. Overlapping in dihybrid F₂ classification patterns in combinations of Int-d and recessive int genes. Hereditas 110: 117-126.
  • Lundqvist U., Abebe B., Lundqvist A. (1989b). Gene interaction of induced intermedium mutations of two-row barley. V. Triple gene constellations of the hex-v gene and recessive int genes. Hereditas 111: 37-47.
  • Lundqvist U., Lundqvist A. (1987a). Barley mutants - diversity and genetics. In: Barley Genetics V (S. Yasuda, T. Konishi, eds.). Sanyo Press Co., Okayama: 251-257.
  • Lundqvist U., Lundqvist A. (1987b). An intermedium gene present in a commercial six-row variety of barley. Hereditas 107: 131-135.
  • Lundqvist U., Lundqvist A. (1988a). Induced intermedium mutants in barley: origin, morphology and inheritance. Hereditas 108: 13-26.
  • Lundqvist U., Lundqvist A. (1988b). Gene interaction of induced intermedium mutations of two-row barley. I. Double mutant recombinants. Hereditas 108: 133-140.
  • Lundqvist U., Lundqvist A. (1989). The co-operation between intermedium genes and the six-row gene hex-v in a six-row variety of barley. Hereditas 110: 227-233.
  • Lundqvist U., Lundqvist A. (1990). Progressive promotion of lateral floret development in three- and four-gene combinations of intermedium genes in barley. Hereditas 113: 237-242.
  • Lundqvist U., Lundqvist A. (1991). Enhancing interaction between intermedium genes of barley in three- and four-gene segregations. Cereal Res. Commun. 19: 177-194.
  • Nilan R.A. (1964). The cytology and genetics of barley, 1951-1962. Research Studies Wash. State Univ. 31(1): 1-278.
  • Persson G. (1969). An attempt to find suitable genetic markers for dense ear loci in barley. I. Hereditas 62: 25-96.
  • Robertson D.W. (1933). Inheritance in barley. Genetics 18: 148-158.
  • Robertson D.W., Wiebe G.A., Shands R.G. (1955). A summary of linkage studies in barley: supplement II, 1947-1953. Agron. J. 47: 418-425.

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Bibliografia

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