The Plant Transposable Elements Tam1, Tam2 and Spm-I8 View Full Text


Ontology type: schema:Chapter     


Chapter Info

DATE

1984

AUTHORS

H. Saedler , U. Bonas , A. Gierl , B. J. Harrison , R. B. Klösgen , E. Krebbers , P. Nevers , P. A. Peterson , Zs. Schwarz-Sommer , H. Sommer , K. Upadhyaya , U. Wienand

ABSTRACT

Genetic instability of loci affecting a directly observable property such as pigmentation is often responsible for the strikingly variegated appearance of many plant parts. Variegated plants of this kind may also frequently produce phenotypically wild-type or nearly wild-type progeny due to reversion of mutable allele in germinal tissue. Although variegated plants have been a source of fascination for centuries, as documented by the detailed description of multi-colored maize kernels as early as 1588 in Jacob Thedor von Bergzabern’s herbal, an understanding of the physical basis of mutability began to emerge only 35 years ago as a result of the pioneer work of McClintock on maize. She proposed (1950) that discrete, transposable genetic elements are responsible for the instability of certain mutable alleles in maize and referred to them as “controlling elements” (1956a, b) because of their ability to influence the expression of loci at which they integrate. At the same time mutable alleles with characteristics similar to those of maize were described by classical genetic means in innumerable other plants including Antirrhinum majus (see Nevers et al. 1984 for review). With the help of molecular cloning procedures we are now able to isolate as physical entities the elements previously proposed by classical genetic means, three of which will be described below. More... »

PAGES

54-64

Book

TITLE

The Impact of Gene Transfer Techniques in Eukaryotic Cell Biology

ISBN

978-3-642-70067-5
978-3-642-70065-1

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/978-3-642-70065-1_6

DOI

http://dx.doi.org/10.1007/978-3-642-70065-1_6

DIMENSIONS

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