Hans-Peter Döring scite author profile

The Glossy2 (Gl2) locus of maize is required for the formation of the epicuticular wax layer of young plants. gl2 mutant seedlings can be visually identified because of their glossy leaf surface which is different from the dull surface of wild-type seedlings. The Gl2 locus was isolated by transposon tagging. Seven unstable mutations, gl2-m2 to gl2-m8, were induced in a parental strain carrying an active transposable Activator (Ac) element in the unstable wx-m7 allele. Genetic tests on the gl2-m2 allele indicated that it was not caused by the Ac element but by the insertion of the transposable element Enhancer/Suppressor-Mutator (En/Spm). A Sa/l restriction fragment segregating with the mutant phenotype was identified, by Southern analysis, using sequences from the En/Spm element as a probe. Part of the fragment was cloned and was shown to carry part of the unstable gl2-m2 allele. These gl2 sequences were used to identify a genomic fragment carrying the wild-type allele and to isolate its corresponding cDNA sequence. The predicted Glossy2 protein consists of 426 amino acids. No similar amino acid sequence was found in protein data banks and the biochemical function of the Gl2 gene product is still unknown. The wild-type Gl2 transcript is found predominantly in juvenile leaves. The transcript level in the leaves of seedlings homozygous for a stable recessive gl2-ref allele is hardly detectable.

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DNA sequence of the maize transposable element Dissociation

Döring

Tillmann

Starlinger

1984

Nature

145

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Molecular Genetics of Transposable Elements in Plants

Döring¹,

Starlinger²

1986

Annu. Rev. Genet.

169

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Barbara McClintock's controlling elements: Now at the DNA level

Döring

Starlinger

1984

Cell

125

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The controlling element Ds at the Shrunken locus in Zea mays: Structure of the unstable sh-m5933 allele and several revertants

Courage-Tebbe

Döring

Fedoroff

et al. 1983

Cell

102

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