The Effects of Harvesting Time on the Efficiency of Tissue Culture Used Immature Embryos from Korean Wheat Cultivars

Intact immature embryos of barley (cv. Golden Promise) and component tissues (the scutellum and embryonic axis) were cultured to produce callus. Regenerant plants were obtained from this callus and SC2 families raised. These families were examined in a field trial to search for somaclonal variation. No obvious variants were found confirming our previous unpublished results. The lack of somaclonal variation generated by barley tissue culture (which is in contrast to other species) was not a result of the tissue origin of the regeneration event.

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Relative stability among barley plants regenerated from cultured immature embryos

Genome ◽

10.1139/g87-071 ◽

1987 ◽

Vol 29 (3) ◽

pp. 405-412 ◽

Cited By ~ 43

Author(s):

A. Karp ◽

S. H. Steele ◽

S. Parmar ◽

M. G. K. Jones ◽

P. R. Shewry ◽

...

Keyword(s):

Tissue Culture ◽

Somaclonal Variation ◽

Length Polymorphism ◽

Immature Embryos ◽

Glutamate Oxaloacetate Transaminase ◽

Spacer Length ◽

Factors Affecting ◽

Regenerated Plants ◽

Key Words Barley ◽

Sds Page

Relative genetic stability was observed among barley plants regenerated from cultured immature embryos. Regenerated plants were studied cytologically and their seed progenies assayed for (i) the isoenzymes esterase and glutamate-oxaloacetate transaminase, (ii) ribosomal DNA spacer length polymorphism, and (iii) hordein patterns on SDS–PAGE. Of 42 regenerated plants, 1 regenerant had abnormal meiosis and the same plant produced one seed with a variant hordein pattern. These findings are discussed in relation to the factors affecting somaclonal variation in cereals and to methods of assaying the variation. Key words: barley, isozymes, somaclonal variation, tissue culture.

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Meiotic abnormalities in primary regenerants from callus culture of immature embryos of 'Norstar' winter wheat

Genome ◽

10.1139/g90-040 ◽

1990 ◽

Vol 33 (2) ◽

pp. 260-266 ◽

Cited By ~ 4

Author(s):

Ernest D. P. Whelan

Keyword(s):

Triticum Aestivum ◽

Tissue Culture ◽

Winter Wheat ◽

Structural Changes ◽

Chromosome Structure ◽

Triticum Aestivum L ◽

Immature Embryos ◽

Meiotic Abnormalities ◽

Chromosomal Changes ◽

Meiotic Analyses

Tissue culture can induce changes in chromosome structure and number in common wheat (Triticum aestivum L.). The type and frequency of such changes were evaluated in primary regenerants extracted from calli of four immature embryos of 'Norstar' winter wheat cultured for various durations. Meiotic analyses of samples from 18 or 19 primary regenerants from a single embryo cultured for 6, 10, or 14 weeks detected chromosomal changes in 17–20% of the samples. Analyses of 20 duplicate samples from these plants indicated that 7 (35%) plants were chimeras. Similar analyses for nine duplicate samples from plants extracted from an embryo cultured for 18 weeks failed to detect any chimeras, but meiotic abnormalities were much more frequent, with about one-half of the 46 plants sampled showing chromosomal structural changes; translocations were the most common abnormality. Plants regenerated from this embryo also were characterized by an abnormal chromosome, believed to contain a deletion, that was not considered to have been induced by tissue culture.Key words: tissue culture, meiotic abnormalities, Triticum aestivum, aneuploidy, translocations, chimeras.

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Optimisation of Tissue Culture Conditions for Transformation Studies Using Immature Embryos of Australian Barley Cultivars

Australian Journal of Botany ◽

10.1071/bt9950499 ◽

1995 ◽

Vol 43 (5) ◽

pp. 499 ◽

Cited By ~ 4

Author(s):

AM Walmsley ◽

RJ Henry ◽

RG Birch

Keyword(s):

Tissue Culture ◽

Plant Regeneration ◽

Culture Medium ◽

Immature Embryo ◽

Culture Conditions ◽

Medium Composition ◽

Immature Embryos ◽

Systematic Testing ◽

Barley Cultivars ◽

Key Variables

Eight Australian barley cultivars were tested for efficiency of embryonic callus initiation and plant regeneration, from immature embryo explants in tissue culture. Optimisation of tissue culture conditions was performed for cultivars Bandulla, Clipper, Schooner and Tallon in an attempt to increase regeneration frequencies to levels suitable for genetic engineering of barley. Variables tested were 2,4-D concentration, salt composition, carbon source and immature embryo explant. Optimal culture medium composition varied between cultivars. Shoot regeneration rates from culture of isolated scutellar tissues were low for all four cultivars. Halved, immature embryos produced most shoots for cultivars Clipper, Schooner and Tallon, whereas Bandulla performed best with entire immature embryo explants. Clipper (a malting barley) and Bandulla (a feed barley) are suggested as model Australian cultivars for transformation studies. Immature embryos of Bandulla produced an average of 5.3 shoots and Clipper 10.1 shoots per embryo under optimal conditions. Our results show that rates of somatic embryo and plant regeneration sufficient for use in transformation studies can be achieved for diverse Australian Barley cultivars, through systematic testing of a range of key variables including explant type and medium composition.

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