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Wheat chromosome 2D carries genes controlling the activity of two DNA-degrading enzymes (1994)

Yen, Y. ; Baenziger, P. S.

Springer

Theoretical and applied genetics 88 (1994), S. 30-32

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ISSN: 1432-2242

Keywords: Triticum aestivum ; DNase ; Nuclease ; Cytogenetics ; Gene mapping

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract DNA-degrading enzymes of 24.0 kDa and 27.0 kDa were observed to have different activities in two common wheat (Triticum aestivum L.) cultivars, ‘Wichita’ and ‘Cheyenne’. A substrate-based SDS-PAGE assay revealed that these two enzymes were much more active in ‘Wichita’ than in ‘Cheyenne’. Genes controlling the activities of these two enzymes were localized on chromosome 2D by testing DNA-degrading activities in reciprocal chromosome substitution lines between ‘Wichita’ and ‘Cheyenne’. While the allele on ‘Wichita’ chromosome 2D stimulated the activities of the 24.0- and 27.0-kDa enzymes in Cheyenne, the allele on ‘Cheyenne’ chromosome 2D did not reduce the activities of the 24-kDa and 27-kDa enzymes in ‘Wichita’. Whether these genes code for the DNA-degrading enzymes themselves or for factors that regulate the enzyme activities remains unknown.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00222390

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Chromosomal locations of genes that control major RNA-degrading activities in common wheat (Triticum aestivum L.) (1996)

Yen, Y. ; Baenziger, P. S.

Springer

Theoretical and applied genetics 93 (1996), S. 645-648

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ISSN: 1432-2242

Keywords: Ribonuclease ; Gene mapping ; Biochemical genetics ; Aneuploid

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Seventeen RNA-degrading enzymes of common wheat, with apparent molecular masses from 42.2 kDa to 16.3 kDa, were observed by the RNA-SDS-PAGE assay. To determine their chromosome locations, all chromosome arms of common wheat except 4BS were assayed in their null condition by using a set of ditelosomic or nullitetrasomic lines of the cultivar Chinese Spring. Our results showed that only one chromosome location each was identified for the 22.8-kDa and the 21.2-kDa enzymes, as well as for the 21.6 kDa enzyme, and they are on chromosome arms 2AS and 2DS, respectively. Loci controlling the 20.1 kDa activity were on chromosome arms 2AL, 4BS, 4DS and 6BS. The locus or loci coding for the gene(s) of the 42.2-kDa, 40.9-kDa and 39.2-kDa enzymes were probably ocated on chromosome arm 5AS, and their expression, in agreement with most other RNA-degrading enzyme activities were stimulated when chromosome arm 5AL was missing, indicating a inhibiting locus on 5AL. Our data suggested that the 31.9-kDa, 30.6-kDa and 29.6-kDa enzymes were possibly products of a common precursor which might be coded by a gene(s) on chromosome arm 6BS, and that the processing is co-regulated by loci on chromosome arms 2BS, 3DS, 6AL, 6BL and 7BS. The remaining of the enzyme activities were consistently found in all of the lines tested, and thus are presumably encoded by multiple loci. The only other possibility is that, their loci may be on chromosome arm 4BS which we have not assayed in its null condition.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00417960

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Anther culture of wheat (Triticum aestivum L.) F1's and their reciprocal crosses (1982)

Bullock, W. P. ; Baenziger, P. S. ; Schaeffer, G. W. ; [et al.]

Springer

Theoretical and applied genetics 62 (1982), S. 155-159

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ISSN: 1432-2242

Keywords: Polyhaploids ; Microspore ; Erysiphe graminis tritici ; in vitro androgenesis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Anthers from three sets of wheat (Triticum aestivum L. em. Thell) F1's and their reciprocal crosses, made between parental lines differing greatly in their ability to produce microspore derived callus, were cultured on the Chinese potato medium so that we could 1) more clearly define the role of nuclear or cytoplasmic factors within T. aestivum in transferring the ability to undergo in vitro androgenesis, and 2) to briefly review the gametic representation and disease screening potential of the resulting polyhaploid wheat plants. The microspore derived calli values from F1's were slightly less than the midparental value. Statistical analysis indicated that the ability of each F1 to produce callus either did not significantly differ from that of the respective parental line having the highest androgenic yield or it exceeded its respective parental line having the lowest yield. No differences were noted between the members of each pair of reciprocal crosses. The results indicate that the transfer of in vitro androgenic ability to F1 hybrids is not dependent upon the maternal cytoplasm source. Polyhaploid plants, carrying the Pm 3 a powdery mildew resistance gene, expressed resistance to culture 4 a of powdery mildew.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00293350

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Chromosomal locations of genes that control major RNA-degrading activities in common wheat (Triticum aestivum L.) (1996)

Yen, Y. ; Baenziger, P. S.

Springer

Theoretical and applied genetics 93 (1996), S. 645-648

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ISSN: 1432-2242

Keywords: Key words Ribonuclease ; Gene mapping ; Biochemical genetics ; Aneuploid

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Seventeen RNA-degrading enzymes of common wheat, with apparent molecular masses from 42.2 kDa to 16.3 kDa, were observed by the RNA-SDS-PAGE assay. To determine their chromosome locations, all chromosome arms of common wheat except 4BS were assayed in their null condition by using a set of ditelosomic or nulli-tetrasomic lines of the cultivar Chinese Spring. Our results showed that only one chromosome location each was identified for the 22.8-kDa and the 21.2-kDa enzymes, as well as for the 21.6 kDa enzyme, and they are on chromosome arms 2AS and 2DS, respectively. Loci controlling the 20.1 kDa activity were on chromosome arms 2AL, 4BS, 4DS and 6BS. The locus or loci coding for the gene(s) of the 42.2-kDa, 40.9-kDa and 39.2-kDa enzymes were probably located on chromosome arm 5AS, and their expression, in agreement with most other RNA-degrading enzyme activities were stimulated when chromosome arm 5AL was missing, indicating a inhibiting locus on 5AL. Our data suggested that the 31.9-kDa, 30.6-kDa and 29.6-kDa enzymes were possibly products of a common precursor which might be coded by a gene(s) on chromosome arm 6BS, and that the processing is co-regulated by loci on chromosome arms 2BS, 3DS, 6AL, 6BL and 7BS. The remaining of the enzyme activities were consistently found in all of the lines tested, and thus are presumably encoded by multiple loci. The only other possibility is that, their loci may be on chromosome arm 4BS which we have not assayed in its null condition.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050327

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