Excision of Ds produces waxy proteins with a range of enzymatic activities

The waxy (wx) locus of maize encodes an enzyme responsible for the synthesis of amylose in endosperm tissue. The phenotype of the Dissociation (Ds) insertion mutant wx‐m1 is characterized by endosperm sectors that contain different levels of amylose. We have cloned the Wx gene from this allele and f...

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Bibliographic Details
Published in:The EMBO journal 1986-10, Vol.5 (10), p.2427-2432
Main Authors: Wessler, S.R., Baran, G., Varagona, M., Dellaporta, S.L.
Format: Article
Language:English
Subjects:
Alleles
Amino Acid Sequence
Base Sequence
Biological and medical sciences
Cloning, Molecular
Fundamental and applied biological sciences. Psychology
Genes
Genic rearrangement. Recombination. Transposable element
Molecular and cellular biology
Molecular genetics
Mutation
Nucleic Acid Hybridization
Phenotype
Plant Proteins - genetics
Plants - enzymology
Plants - genetics
Zea mays
Zea mays - enzymology
Zea mays - genetics
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Summary:The waxy (wx) locus of maize encodes an enzyme responsible for the synthesis of amylose in endosperm tissue. The phenotype of the Dissociation (Ds) insertion mutant wx‐m1 is characterized by endosperm sectors that contain different levels of amylose. We have cloned the Wx gene from this allele and from two germinal derivatives, S5 and S9, that produce intermediate levels of amylose. The Ds insertion in wx‐m1 is in exon sequences, is 409 bp in length and represents an example of a class of Ds elements that are not deletion derivatives of the Activator (Ac) controlling element. The two germinal derivatives, S5 and S9, lack the Ds element but contain an additional 9 and 6 bp, respectively, at the site of Ds insertion. The level of Wx mRNA and Wx protein in S5 and S9 is essentially the same as in normal endosperm tissue but Wx enzymatic activity is reduced. Thus, the lesions in S5 and S9 lead to the addition of amino acids in the Wx protein, resulting in Wx enzymes with altered specific activities. This work supports the notion that the maize transposable elements may serve a function in natural populations to generate genetic diversity, in this case, proteins with new enzymatic properties.
ISSN:0261-4189
1460-2075
DOI:10.1002/j.1460-2075.1986.tb04517.x