Anne R. Kubelik scite author profile

Molecular genetic maps are commonly constructed by analyzing the segregation of restriction fragment length polymorphisms (RFLPs) among the progeny of a sexual cross. Here we describe a new DNA polymorphism assay based on the amplification of random DNA segments with single primers of arbitrary nucleotide sequence. These polymorphisms, simply detected as DNA segments which amplify from one parent but not the other, are inherited in a Mendelian fashion and can be used to construct genetic maps in a variety of species. We suggest that these polymorphisms be called RAPD markers, after Random Amplified Polymorphic DNA.

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Gene Action and Linkage of Avirulence Genes to DNA Markers in the Rust Fungus Puccinia graminis

Zambino¹,

Kubelik²,

Szabo³

2000

Phytopathology®

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Two strains of the wheat stem rust fungus, Puccinia graminis f. sp. tritici, were crossed on barberry, and a single F(1) progeny strain was selfed. The parents, F(1), and 81 F(2) progeny were examined for virulence phenotypes on wheat differential cultivars carrying stem rust resistance (Sr) genes. For eight Sr differentials, phenotypic ratios are suggestive of single dominant avirulence genes AvrT6, AvrT8a, AvrT9a, AvrT10, AvrT21, AvrT28, AvrT30, and AvrTU. Avirulence on the Sr; (Sr 'fleck') differential showed phenotypic ratios of approximately 15:1, indicating epistatic interaction of two genes dominant for avirulence. Avirulence on Sr9d favored a 3:13 over a 1:3 ratio, possibly indicating two segregating genes-one dominant for avirulence and one dominant for avirulence inhibition. Linkage analysis of eight single dominant avirulence genes and 970 DNA markers identified DNA markers linked to each of these avirulence genes. The closest linkages between AvrT genes and DNA markers were between AvrT6 and the random amplified polymorphic DNA marker crl34-155 (6 centimorgans [cM]) AvrT8a and the amplified fragment length polymorphism marker eAC/mCT-197 (6 cM) and between AvrT9a and the amplified fragment length polymorphism marker eAC/mCT-184 (6 cM). AvrT10 and AvrTU are linked at distance of 9 cM.

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Genetic Analysis with RAPD Markers

Williams

Kubelik

Rafalski

et al. 1991

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High-GC primers are useful in RAPD analysis of fungi

Kubelik

Szabo

1995

Curr Genet

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For genetic analysis of fungal DNAs, we have modified the RAPD method to use primers with G + C contents of 80-100%. In RAPD analysis of Puccinia graminis f. sp. tritici DNAs, these primers generated twice the number of both amplification products per primer and polymorphisms among isolates as compared to the standard 60-70% G + C primers. With respect to segregation and genetic similarity, RAPD markers generated by the high-GC primers behaved as do RAPD markers produced by the standard primers. These high-GC primers also yielded increased numbers of amplification products in RAPDs on the DNAs of a broad range of other fungi.

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Anne R. Kubelik

DNA polymorphisms amplified by arbitrary primers are useful as genetic markers

Gene Action and Linkage of Avirulence Genes to DNA Markers in the Rust Fungus Puccinia graminis

Genetic Analysis with RAPD Markers

High-GC primers are useful in RAPD analysis of fungi

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