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Translocations and other karyotypic structural changes in wheat x rye hybrids regenerated from tissue culture (1984)

Lapitan, N. L. V. ; Sears, R. G. ; Gill, B. S.

Springer

Theoretical and applied genetics 68 (1984), S. 547-554

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ISSN: 1432-2242

Keywords: Wheat X rye hybrids ; Translocations ; Introgression ; Tissue culture ; C-banding

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The spontaneous occurrence of chromosome breaks, deletions, and translocations in plant tissue cultures is well documented. This study investigated the usefulness of tissue culture as a method of introgressing alien genes into wheat. Wheat X rye hybrids were regenerated from embryo scutellar calli maintained in culture for 222 days. The regenerated seedlings then were treated with colchicine to produce amphidiploids (AABBDDRR). The karyotypes of ten amphidiploids were analyzed by C-banding to determine chromosome structural changes that occurred during tissue culture. Three wheat/rye and one wheat/wheat chromosome translocations, seven deletions, and five amplifications of heterochromatin bands of rye chromosomes were identified. One amphidiploid contained a reciprocal translocation between wheat chromosome 4D and rye chromosome 1R. Non-reciprocal translocations between 2B and 3R, and between an unidentified wheat chromosome and 2R, were found independently in two amphidiploids. An additional plant had a translocation between wheat chromosomes 6B and 5A. All deletions involving rye chromosomes were noted in all 10 amphidiploids. Twelve of the 13 breakpoints in chromosomes involved in translocations and deletions occurred in heterochromatin. Amplification of heterochromatin bands on 2RL and 7RL chromosome arms also was observed in five plants. These results indicate a high degree of chromosome structural change induced by tissue culture. Therefore, tissue culture may be a useful tool in alien gene introgression and manipulation of heterochromatin in triticale improvement.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00285012

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Heritable somaclonal variation in gliadin proteins of wheat plants derived from immature embryo callus culture (1986)

Cooper, D. B. ; Sears, R. G. ; Lookhart, G. L. ; [et al.]

Springer

Theoretical and applied genetics 71 (1986), S. 784-790

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ISSN: 1432-2242

Keywords: Tissue culture ; Electrophoresis ; Storage proteins ; Mutation ; Triticum aestivum

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Fertile r0 plants of the winter wheat line ND7532 (Triticum aestivum L.) were regenerated from callus tissue after 60–190 days in culture. Seeds produced from these self-pollinated plants were planted in the field. Of the 5586 R1 plants, 32 differed for one or more agronomic traits from plants not passed through tissue culture process. Gliadin electrophoregrams were prepared from bulk samples of R2 seed from these 32 plants. Four of the 32 produced gliadin patterns different from controls, so 12 seeds of each of these four lines were examined individually. Three of the four mutant lines were fixed for the presence of a mutant protein of 50 relative mobility units (RMU) and the corresponding loss of a parental protein of 26 RMU. The remaining line segregated for the presence/absence of band 50 and the corresponding loss/retention of band 26. The mutant protein of 50 RMU was never seen in control plants. This indicated that either band 50 was coded for by a mutant gene allelic to the gene that coded for band 26 or that bands 26 and 50 were coded for by two different structural alleles under the control of a common regulatory locus. Each of the 12 seeds from the four mutant lines contained a prominent protein band at 30 (RMU), which was only observed as a faint band in one control seed. The types of variation in gliadin patterns observed in somaclones of ND7532 were similar to those reported for the line ‘Yaqui 50E’, except that, gliadin changes occurred less frequently in ND7532.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00276418

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Inflorescence culture of wheat-Agropyron hybrids: Callus induction, plant regeneration, and potential in overcoming sterility barriers (1984)

Sharma, H. C. ; Gill, B. S. ; Sears, R. G.

Springer

Plant cell, tissue and organ culture 3 (1984), S. 247-255

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ISSN: 1573-5044

Keywords: Triticum aestivum ; wide crosses ; tissue culture ; somaclonal variation ; Agropyron

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Segments of young inflorescences of Triticum aestivum cv. Chinese Spring (CS), its F1 hybrids with Agropyron trachycaulum and A. scirpeum and backcross derivatives with A. yezoense, A. intermedium and A. junceum, and of a A. yezoense x T. aestivum cv. Wichita hybrid were cultured. Different parts of young spikelets of A. trachycaulum x CS F1 and A. yezoense x Wichita F1 's were also cultured. Percent callus induction was lower in wheat than in the wheat-Agropyron hybrids or backcross derivatives. Percent callus induction from different organs in both hybrids was in the descending order of whole spikelet, spikelet without glumes, rachis, and glumes. No plants could be regenerated from calli of wheat and backcross derivatives except those of CS x A. intermedium combination. Callus induction in hybrids varied from 54 to 84% and plant regeneration from 14 to 31%. The regenerants required no vernalization. Variants including one with top-dense spikes and another with elongated spikelets were recovered. Out of eight A. trachycaulm x CS hybrid regenerants, one had anthers and stigma as opposed to neutral flowers of the original hybrid.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00040344

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