+ Site Statistics
References:
54,258,434
Abstracts:
29,560,870
PMIDs:
28,072,757
+ Search Articles
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ PDF Full Text
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Translate
+ Recently Requested

Reconstruction of linkage map with isozyme morphological and physiological markers in rice chromosome 12



Reconstruction of linkage map with isozyme morphological and physiological markers in rice chromosome 12



Japanese Journal of Breeding 42(2): 235-244



Linkage relations among one physiological marker gene, sp1-1, two morphological marker genes, d-33 and r1-3 (= r1-1), and three isozyme marker genes, Acp-1, Pox-2 and Sdh-1, were examined [Oryza sativa L.]. The r1-3 gene showed linkage relations with Acp-1 and Sdh-1. The order of these genes was Acp-1-r1-3-Sdh-1. The sp1-1 gene showed linkage relations with the two isozyme genes, Acp-1 and Pox-2. The order of these genes was Acp-1-Pox-2-sp1-1. The allelism test showed that d-33 occupied the same locus as r1-3. Furthermore, the linkage relations related to sp1-1 and Sdh-1 were compared. The sp1-1 locus was suggested to be placed farther from the Acp-1 locus and from the Pox-2 locus, respectively, than the Sdh-1 locus. Then the three isozyme genes were integrated into one map with the conventional markers of chromosome 12. The order of these six genes was suggested to be Acp-1-Pox-2-r1-3(=r1-1)/d-33-Sdh-1-sp1-1. As to the relation between sp1-1 and Sdh-1, however, further examination would be necessary.

(PDF emailed within 1 workday: $29.90)

Accession: 007727124

Download citation: RISBibTeXText


Related references

Linkage relationship between isozyme and morphological markers on chromosome 1L. Maize Genetics Cooperation Newsletter (62): 102, 1988

Estimating linkage relationship of isozyme markers and morphological markers in sugar beet beta vulgaris l. including families with distorted segregations. Plant Breeding 108(2): 89-96, 1992

Genetic linkage between isozyme, morphological, and DNA markers in tepary bean. Journal of Heredity 85(4): 273-278, 1994

Linkage relationships of isozyme and morphological markers in interspecific crosses of chestnut. Hortscience 29(5): 462, 1994

Linkage of genes controlling morphological traits with isozyme markers of rye chromosomes. Genetika 40(1): 67-73, 2004

A map of rye chromosome 2R using isozyme and morphological markers. Tag. Theoretical and Applied Genetics. Theoretische und Angewandte Genetik 82(1): 112-116, 1991

Isozyme markers in rice genetic analysis and linkage relationships. Genome 33(3): 348-359, 1990

Targeted mapping and linkage analysis of morphological isozyme, and RAPD markers in peach. Tag. Theoretical and Applied Genetics. Theoretische und Angewandte Genetik 87(7): 805-815, 1994

Linkage of random amplified polymorphic DNA, isozyme and morphological markers in grasspea (Lathyrus sativus). Journal of Agricultural Science 133(4): 389-395, 1999

Linkage analysis of beta -amylase gene using RFLP and isozyme markers in rice. RDA Journal of Agricultural Science, Biotechnology 37(1): 189-192, 1995

Linkages between restriction fragment length, isozyme and morphological markers in rice. Indian Journal of Genetics & Plant Breeding 56(3): 366-369, 1996

Genetic diversity analysis in rice mutants using isozyme and morphological markers. Cultivos Tropicales 21(4): 39-44, 2000

Genetical studies of isoenzymes in rice plants. II - Description of individual isozyme markers and several isozyme genes related to starch synthesis in rice. Recent Research Developments in Genetics 3: 163-203, 2003

Reconstruction of a linkage group corresponding to the nishimuras 2nd chromosome in rice oryza sativa. Japanese Journal of Breeding 32(3): 232-238, 1982

Linkage analysis of nine isozyme genes on the conventional linkage map in rice. Japanese Journal of Breeding 41(2): 265-272, 1991