Characterization of cytoplasmic female sterility in an alloplasmic and monosomic addition line of Brassica rapa carrying the cytoplasm and one chromosome of Diplotaxis tenuifolia

A common wheat – Leymus mollis (2n = 4x = 28, NsNsXmXm) double monosomic addition line, M11003-4-3-8/13/15 (2n = 44 = 42T.a + L.m2 + L.m3), with stripe rust resistance was developed (where T.a represents Triticum aestivum chromosome, L.m represents L. mollis chromosome, and L.m2/3 represents L. mollis chromosome of homoeologous groups 2 and 3). The progenies of line M11003-4-3-8/13/15 were characterized by cytological observation, specific molecular markers, fluorescence in situ hybridization (FISH), and genomic in situ hybridization (GISH). Among the progenies, there existed five different types (I, II, III, IV, and V) of chromosome constitution, the formulas of which were 2n = 44 = 42T.a + 1L.m2 + 1L.m3, 2n = 43 = 42T.a + 1L.m2, 2n = 43 = 42T.a + 1L.m3, 2n = 42 = 42T.a, and 2n = 44 = 42T.a + 2L.m2, respectively. Field disease screening showed that types I and III showed high resistance to stripe rust, while types II, IV, and V were susceptible. Leymus mollis was almost immune to stripe rust, whereas the wheat parent, cultivar 7182, was susceptible. Therefore, we concluded that the stripe rust resistance originated from L. mollis. These various lines could be further fully exploited as important disease resistance materials to enrich wheat genetic resources.

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GAMETOCIDAL CHROMOSOMES OF THREE AEGILOPS SPECIES IN COMMON WHEAT

Canadian Journal of Genetics and Cytology ◽

10.1139/g82-020 ◽

1982 ◽

Vol 24 (2) ◽

pp. 201-206 ◽

Cited By ~ 19

Author(s):

T. Ryu Endo

Keyword(s):

Common Wheat ◽

Triticum Aestivum L ◽

Addition Line ◽

Addition Lines ◽

Aegilops Triuncialis ◽

Male And Female ◽

Monosomic Addition ◽

Monosomic Addition Line ◽

Monosomic Addition Lines ◽

Gametocidal Chromosomes

Single chromosomes from Aegilops triuncialis L. (2n = 28, CCCuCu), Ae. sharonensis Eig (2n = 14, S1S1), and Ae. longissima S. &M. (2n = 14, S1S1) were added respectively to common wheat Triticum aestivum L. cv. 'Selkirk' (2n = 42, AABBDD) in monosomic condition and confirmed to have a gametocidal action on common wheat gametes lacking the Agilops chromosome. Three double monosomic addition lines, which had two of the three Aegilops chromosomes, were produced from the monosomic addition lines, and relationships among the three Aegilops chromosomes were studied. The Aegilops chromosomes did not pair with one another in the double monosomic addition lines. In the progeny of the double monosomic addition lines with the triuncialis and sharonensis chromosomes or with the triuncialis and longissima chromosomes, both Aegilops chromosomes were almost always transmitted through male and female gametes. In the progeny of the double monosomic addition line with the sharonensis and longissima chromosomes, only the longissima chromosome was preferentially transmitted through male and female gametes. Thus, the three Aegilops chromosomes were proved to be different from one another in the gametocidal action in common wheat.

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Detection of various U and M chromosomes in wheat-Aegilops biuncialis hybrids and derivatives using fluorescence in situ hybridisation and molecular markers

Czech Journal of Genetics and Plant Breeding ◽

10.17221/45/2012-cjgpb ◽

2012 ◽

Vol 48 (No. 4) ◽

pp. 169-177 ◽

Cited By ~ 6

Author(s):

A. Schneider ◽

M. Molnár-Láng

Keyword(s):

Ssr Markers ◽

Chromosome Pair ◽

In Situ Hybridisation ◽

Low Fertility ◽

Addition Line ◽

Fluorescence In Situ Hybridisation ◽

Addition Lines ◽

Disomic Addition Line ◽

Monosomic Addition ◽

Monosomic Addition Line

The aim of the study was to select wheat-Aegilops biuncialis addition lines carrying Aegilops biuncialis chromosomes differing from those which were introgressed into the wheat-Ae. biuncialis addition lines produced earlier in Martonvásár, Hungary. In the course of the experiments new wheat-Ae. biuncialis addition lines carrying chromosomes 2Ub, 6Mb, 6Ub; 5Ub, 3Ub, 7Ub; 5Mb, 6Mb and 7Mb were selected. The 2Ub disomic addition line is relatively stable, as 91% of the progenies contain this chromosome pair. The 6Mb disomic addition line proved to be dwarf and sterile, but it still exists as a monosomic addition line. Progenies analysed from the 6Ub monosomic addition line did not carry the 6Ub chromosome. One plant containing the 5Ub, 3Ub and 7Ub chromosomes and one plant carrying 5Mb, 6Mb and 7Mb chromosomes showed very low fertility. Each of the plants produced a single seed, but seeds of the parent plants are still available. Line No. 49/00 carried a submetacentric Ae. biuncialis chromosome pair and the chromosome number 44 has been constant for several generations. After FISH no hybridisation site was observed on the Ae. biuncialis chromosome pair using the pSc119.2 and Afa family repetitive DNA probes, so it was not possible to identify the Ae. biuncialis chromosome pair. However, the use of wheat SSR markers and the (GAA)n microsatellite DNA probe allowed it to be characterised more accurately. These new lines facilitate gene transfer from Ae. biuncialis into cultivated wheat and the selection of U and M genome-specific wheat SSR markers.

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Meiotic studies on a Brassica campestris–alboglabra monosomic addition line and derived B. campestris primary trisomics

Genome ◽

10.1139/g94-083 ◽

1994 ◽

Vol 37 (4) ◽

pp. 584-589 ◽

Cited By ~ 27

Author(s):

B. F. Cheng ◽

W. K. Heneen ◽

B. Y. Chen

Keyword(s):

Brassica Campestris ◽

Addition Line ◽

Genome Chromosome ◽

Primary Trisomics ◽

A Genome ◽

Nucleolar Chromosome ◽

C Genome ◽

Monosomic Addition ◽

Monosomic Addition Line ◽

Mother Cells

Diakinesis chromosomes were studied in pollen mother cells of Brassica campestris (2n = 20, genome AA), B. alboglabra (2n = 18, genome CC), a B. campestris–alboglabra monosomic addition line (AA + 1 chromosome from the C genome), and four derived B. campestris primary trisomics. The nucleolar chromosomes of B. campestris were distinguishable by their morphology at diakinesis. The alien C-genome chromosome in the addition line paired preferentially with the nucleolar chromosome of the A genome. Very rarely, it paired with another pair of the A genome. Thus, it was concluded that the alien C-genome chromosome of the addition line is primarily homoeologous to the nucleolar chromosome and secondarily to another chromosome of the A genome. Three of the four derived B. campestris trisomic plants were identified as B campestris nucleolar trisomics. Trisomy in the fourth plant involved another chromosome. The cytological mechanism underlying the origin of trisomics in the addition line and chromosome homoeology relationships between B. campestris and B. alboglabra are envisaged.Key words: Brassica campestris–alboglabra addition line, Brassica campestris trisomics, diakinesis, intergenomic chromosome homoeology.

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