Identification of rye chromosome substitutions in Triticale and its relation with kernel characters and seed setting through Giemsa C-banding technique

Ten accessions of Russian wildrye, Psathyrostachys juncea (Fisch.) Nevski (2n = 2x = 14; NsNs), collected from different geographical regions were analyzed using the C-banding technique. C-banding pattern polymorphisms were observed at all levels, i.e., within homologous chromosome pairs of the same plant, among different individuals within accessions, between different accessions of the same geographic area, and among accessions of different origins. The seven homologous groups varied in the level of C-banding pattern polymorphism; chromosomes A, B, E, and F were more variable than chromosomes C, D, and G. The polymorphisms did not hamper chromosome identification in Ps. juncea, because each chromosome pair of the Ns genome had a different basic C-banding pattern and karyotypic character. A standard C-banded karyotype of Ps. juncea is proposed based on the overall karyotypes and C-bands in the 10 accessions. The C-bands on the Ns-genome chromosomes were designated according to the rules of nomenclature used in wheat. A deletion–translocation heterozygote of Russian wildrye was identified based on the karyotype and C-banding patterns established. The chromosome F pair consisted of a chromosome having the distal segment in the long arm deleted and a translocated chromosome having the distal segment of long arm replaced by the distal segment of the long arm of chromosome E. The chromosome E pair had a normal chromosome E and a translocated chromosome having the short arm and the proximal segment of the long arm of chromosome E and the distal segment of the long arm of chromosome F.Key words: Psathyrostachys juncea, karyotype, Giemsa C-banding, polymorphism, B chromosome.

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Analysis of intraspecific diversity of cultivated emmer Triticum dicoccum (Schrank.) schuebl using C-banding technique

Russian Journal of Genetics ◽

10.1134/s1022795407110105 ◽

2007 ◽

Vol 43 (11) ◽

pp. 1271-1285 ◽

Cited By ~ 8

Author(s):

O. S. Dedkova ◽

E. D. Badaeva ◽

O. P. Mitrofanova ◽

E. N. Bilinskaya ◽

V. A. Pukhalskiy

Keyword(s):

Intraspecific Diversity ◽

Banding Technique ◽

Triticum Dicoccum ◽

C Banding

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Rye–wheat hybrids: the production of wheat chromosome additions to rye

Genome ◽

10.1139/g91-129 ◽

1991 ◽

Vol 34 (5) ◽

pp. 840-844 ◽

Cited By ~ 2

Author(s):

M. Baum

Keyword(s):

Wheat Chromosome ◽

Banding Technique ◽

Addition Lines ◽

C Banding ◽

Good Potential ◽

Wheat Hybrids

To produce rye–wheat addition lines, 21-chromosome rye–wheat hybrids were produced by crossing tetraploid triticale with diploid rye. The subsequent selfing of the hybrids lead to monosomic and double monosomic wheat additions to rye. Screening of the progeny was carried out using the C-banding technique. The wheat additions can be fertile. Wheat chromosome 6B was the chromosome most frequently added to rye. Ribosomal spacer probe pTa250.4 was used to confirm the results obtained by C-banding for the 6B wheat additions to rye. Embryos of the 21-chromosome rye–wheat hybrids showed a good potential for propagating more plantlets after they had been transferred to artificial medium.Key words: rye–wheat addition lines.

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Modified Method of C Banding Using Barium Hydroxide

Acta geneticae medicae et gemellologiae ◽

10.1017/s0001566000010448 ◽

1975 ◽

Vol 24 (3-4) ◽

pp. 315-316

Author(s):

P.K. Ghosh ◽

Indera P. Singh

Keyword(s):

Barium Hydroxide ◽

Centromeric Heterochromatin ◽

Banding Technique ◽

C Banding ◽

Modified Method ◽

The Relationship

A modified centromeric heterochromatin banding technique using barium hydroxide octahydrate is described. The relationship between slide maturity and time of denaturation by barium-hydroxide is discussed.

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Karyotyping the Arabian Camel (Camelus dromedarius), Using C-Banding Technique.

CYTOLOGIA ◽

10.1508/cytologia.57.383 ◽

1992 ◽

Vol 57 (3) ◽

pp. 383-388 ◽

Cited By ~ 1

Author(s):

Mohammed A. Samman ◽

Abdulaziz A. Al-Saleh ◽

Kart Sheth

Keyword(s):

Camelus Dromedarius ◽

Banding Technique ◽

C Banding ◽

Arabian Camel

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The heterochromatin distribution and genome evolution in diploid species of Elymus and Agropyron

Canadian Journal of Genetics and Cytology ◽

10.1139/g84-106 ◽

1984 ◽

Vol 26 (6) ◽

pp. 669-678 ◽

Cited By ~ 58

Author(s):

T. Ryu Endo ◽

Bikram S. Gill

Keyword(s):

Diploid Species ◽

Banding Technique ◽

Agropyron Elongatum ◽

Pseudoroegneria Spicata ◽

Banding Patterns ◽

C Banding ◽

Psathyrostachys Juncea ◽

High Level ◽

Thinopyrum Elongatum ◽

Genome Designation

The acetocarmine–Giemsa C-banding technique was used to study heterochromatin distribution in somatic chromosomes of diploid Elymus junceus (= Psathyrostachys juncea) (2n = 14) (genome designation Ju = N) and nine diploid Agropyron species (2n = 14): A. cristatum (C = P), A. imbricatum (C = P), A. elongatum (= Elytrigia elongata = Thinopyrum elongatum) (E = J), A. junceum (= E. bessarabicum = T. bessarabicum) (J = E), A. spicatum (= Pseudoroegneria spicata) (S), A. libanoticum (= P. libanotica) (S), A. ferganense (S), A. stipifolium (= P. stipifolia) (S), and A. velutinum (V). With the exception of A. elongatum and A. velutinum, which were self-fertile, all species were cross-pollinating and self-sterile. The cross-pollinating species showed large terminal C-bands and a high level of C-band polymorphism. Agropyron elongatum, moderately self-fertile, showed small terminal and interstitial bands and a minimal C-band polymorphism. Agropyron velutinum, fully self-fertile, almost totally lacked C-bands. The Ju, C, E, and J genomes appeared to be distinctive and the equivalence of the E and J genomes was not supported from their C-banding patterns. Four species sharing the S genome, A. spicatum, A. libanoticum, A. ferganense, and A. stipifolium had C-band patterns similar to one another, although C-bands were less prominent in A. stipifolium than others.Key words: C-banding, karyotype, wheatgrass, cytology.

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