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Linkage between the Centromere and a Gene Producing Nucleocytoplasmic Compatibility in Durum Wheat (1999)

Maan, S. S. ; Joppa, L. R. ; Kianian, S. F.

Springer

Crop science 39 (1999), S. 1044-1048

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ISSN: 1435-0653

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: scs ) genes on chromosome 1A (1Ascs) derived from Triticum timopheevii Zhuk. And chromosome 1D (1Dscs) derived from common wheat improve compatibility between the durum wheat (T. turgidum L. var. durum) nucleus and Aegilops longissima S. & M. (lo) cytoplasm. The (lo) scs durum lines thus produced are male sterile and when crossed with durum produce viable plump seeds carrying scs and inviable shriveled seeds without scs . Objectives of the present study were to determine centromere-scs linkage distances and viability and transmission of female gamete carrying one or both scs genes. The (lo) scs durum heterozygous for 1A/1Ascs was crossed with the Langdon (LDN) durum disomic substitution line 1Dscs(1A) in which the 1A chromosome pair is substituted by a 1Dscs pair. Two types of 1A + 1D double monosomic F1s were recovered, (lo) durum 13″ + 1′1A + 1′1Dscs, which were confirmed in progeny tests with normal durum. For centromere mapping, these lines were crossed with LDN double ditelosomic 1A (LDN dDt 1A; 2n = 30; 13″ + t″1AS + t″1AL) and progeny examined for meiotic chromosome constitution. No telocentric t1ALscs arising from recombination with 1Ascs was detected, indicating that scs is tightly linked to the centromere on chromosome 1A. To determine the transmission of female gametes carrying one or both scs genes, (lo) durum 13″ + 1′1Ascs + 1′1Dscs was crossed with LDN dDt 1A and control durum. The functional female gametes carried one or both scs genes. Crosses of (lo) durum 13″ + 1′1A + 1′1Dscs to LDN dDt 1A produced several plants with a T1AL.1DL translocation chromosome. The formation of this chromosome was coupled with strong selection for the scs gene on 1DL.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/

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Cytological stability of common wheats with leaf rust resistance derived from Triticum timopheevi Zhuk (1969)

Maan, S. S. ; McCracken, E. U.

Springer

Euphytica 18 (1969), S. 211-216

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ISSN: 1573-5060

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Nine common wheat strains derived from crosses involving Triticum timopheevi were studied for cytological stability and resistance to individual physiologic races of leaf rust of wheat. One strain 53R-201-4 was resistant to all the eleven races used. Another five stable strains had resistance to some of the races and were susceptible to others. Three highly unstable strains had resistance to a few of the leaf rust races used. The six stable strains had normal meiosis, varying between the most stable ‘Cheyenne’ and the less stable ‘Minturki’-the two checks. In general, the inheritance of resistance to leaf rust race 9 in crosses of three unstable and one stable strain was monogenic and regular. Metaphase I chromosome pairing and meiotic irregularities at anaphase-I, dyad and quartet stages in stable strain 55–2687 and in F1 and F2 plants from the cross strain 55–2687 × Cheyenne indicated only slight reduction in chromosome pairing or chiasma formation in the F1 plants. The F2 was meiotically less stable than the F1. The possible reasons for the increased meiotic instability of the F2 are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00035693

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Cytoplasmic homology between Aegilops mutica Boiss. and Ae. ovata L. (1977)

Maan, S. S.

Springer

Euphytica 26 (1977), S. 601-613

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ISSN: 1573-5060

Keywords: Aegilops mutica ; Aegilops ovata ; cytoplasmic homology ; nucleo-cytoplasmic interactions ; cytoplasmic effects ; genome substitution ; Triticum ; alloplasmic wheat

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Triticum aestivum L. em Thell. (2n=42; AABBDD), and T. durum Desf. (2n=28; AABB) genomes were substituted into the cytoplasms of Aegilops mutica Boiss. (2n=14; MtMt), Ae. heldreichii Holzm. (2n=14; MM), Ae. uniaristata Vis. (2n=14; MuMu), and Ae. ovata L. (2n=28; CuCuMoMo), to identify the M-genome diploid cytoplasm donor of Ae. ovata. Substitution of the T. durum genome into Ae. uniaristata cytoplasm resulted in a large proportion of shriveled inviable seeds. A few plump viable seeds were obtained all of which produced male-sterile plants having one univalent or telocentric chromosome from Ae. uniaristata. The T. aestivum plants having Ae. uniaristata or Ae. mutica cytoplasms were fertile. However, Ae. mutica was similar to Ae. ovata in the induction of delayed maturity and tall robust growth habit to the T. durum and T. aestivum plants. Cytoplasms of the other C- and M-genome diploids Ae. umbellulata Zhuk. (2n=14; CuCu) and, Ae. heldreichii (2n=14; MM) earlier had been shown to differ from that of Ae. ovata. Therefore, Ae. mutica is the most likely cytoplasm and M-genome donor to Ae. ovata.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00021685

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Interaction ofTriticum boeoticum cytoplasm and genomes ofT. aestivum andT. durum: Restoration of male fertility and plant vigor (1970)

Maan, S. S. ; Lucken, K. A.

Springer

Euphytica 19 (1970), S. 498-508

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ISSN: 1573-5060

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Male-sterile plants of reduced vigor were obtained by substitutingT. aestivum and/orT. durum genomes into the cytoplasm ofT. boeoticum, T. monococcum and amphidiploidT. boeoticum-A. squarrosa. Apparent segregation for plant vigor occurred even in advanced generations of the following backcross progenies:T. boeoticum/12*T. durum, T. monococcum/10*T. durum, T. boeoticum/2*T. durum//7*T. aestivum, amphidiploidT. boeoticum-A. squarrosa/6*T. durum and amphidiploidT. boeoticum-A. squarrosa/8*T. aestivum. Highly fertile F1 hybrids of normal vigor were obtained from crosses of A lines of common wheat in the cytoplasm of amphidiploidT. boeoticum-A. squarrosa orT. timopheevi with R lines having male fertility restoring factors fromT. boeoticum, T. boeoticum-A. squarrosa andT. zhukovskyi. Apparently, ‘vigor-genes’ complemented the male fertility restoring genes to produce fertile hybrids of normal plant vigor in the crosses amphidiploidT. boeoticum-A. squarrosa/6*T. aestivum, Chris//amphidiploidT. boeoticum-A. squarrosa/T. durum/T. aestivum, Chinese Spring, andT. zhukovskyi/3*T. aestivum, Justin F8 R lines.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01902925

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5

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Meiotic instability of common wheat strains derived from Triticum timopheevi Zhuk. crosses (1968)

Maan, S. S. ; McCracken, E. U.

Springer

Euphytica 17 (1968), S. 445-450

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ISSN: 1573-5060

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Meiotic instability was studied in four strains of common wheat derived from crosses involving a Triticum timopheevi derivative, C.I. 13093, and the common wheat varieties Cheyenne and Minturki. A wide range in the percentage of normal cells at six stages of meiosis, MI, AI, dyad, MII, AII, and quartet, was found. The date of sporocyte sampling influenced meiotic irregularities at six stages of meiosis. Florets from the same spikes differed in the percentage of normal cells at all the meiotic stages except MII. Plants within strains differed significantly at the MI and quartet stages only. Except at AI stage, spikes collected on the same day did not differ significantly. Apparently, environment during premeiotic phase determined the extent and the pattern of meiotic instability in spikes of these strains. Chromosome counts were taken on 213 of the highly aberrant PMC at MI. Among these, 44 different chromosome numbers ranging from 4 to 76 per cell were recorded. Cells with deviating numbers from 22 to 28 were the most frequent (30.52 percent). Chromosome numbers 12, 17, 21, 22, 24, 26 and 28 occurred in 43.9 percent of the aberrant PMC, and the number of cells with these chromosome numbers ranged from 9 to 15. The metaphase 1 chromosome pairing in deviating PMC was not related to the number of chromosomes in these PMC. Apparently, deviating PMC had a random assortment of chromosomes. In aberrant PMC and others with apparently normal chromosome numbers (but irregular meiosis) homeologous chromosomes may pair. Functional gametes from such cells may perpetuate meiotic instability that had persisted in these three advanced generation common wheat strains of hybrid origin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00056246

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Cytoplasmic and cytogenetic relationships among tetraploid Triticum species (1973)

Maan, S. S.

Springer

Euphytica 22 (1973), S. 287-300

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ISSN: 1573-5060

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary The F1 hybrids from crosses of 59 accessions of wild and cultivated Triticum types including amphidiploids T. boeoticum-Ae. squarrosa, T. timopheevi-Ae. squarrosa, T. timopheevi-T. monococcum, T. boeoticum (4n), T. macha, and T. Zhukovskyi with T. durum Sel. 56-1 and/or T. aestivum were examined for male sterility and chromosome pairing at metaphase I of meiosis in pollen mother cells. Those hybrids which produced male-sterile F1's were recurrently backrossed with pollen from T. durum or T. aestivum to study segregation for male sterility and/or to confirm cytoplasmic male sterility. All T. timopheevi and T. araraticum accessions and several T. dicoccoides types, including T. dicoccoides var. nudiglumis from the Turkey-Iran-Iraq area, had male sterility inducing cytoplasm. The chromosome pairing in the F1 hybrids indicated that all tetraploid Triticum accessions with male sterility inducing cytoplasm had genome AAGG. T. dicoccoides Körn types from the Turkey-Iran-Iraq area had genomes AABB and did not have male sterility inducing cytoplasm. Therefore, T. dicoccoides Körn and the T. timopheevi complex differ from each other cytoplasmically and cytogenetically and occur sympatrically in the Turkey-Iran-Iraq area. Possibly, the cytoplasm of the emmers was not derived from the putative diploid progenitors, T. boeoticum, Ae. speltoides, or Ae. bicornis as indicated by their nucleo-cytoplasmic and cytogenetic relationships with the tetraploid Triticum species. The cytoplasmic differences among Ae. speltoides, T. araraticum and T. timopheevi are of a relatively smaller magnitude than the cytoplasmic differences among T. timopheevi, T. boeoticum, and the emmers. A complete analysis of nucleo-cytoplasmic relationships among Triticum and Aegilops species may indicate the cytoplasmic donor(s) to the two tetraploid Triticum species complexes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00022637

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