Boris Springer scite author profile

The Shrunken gene, located on the short arm of chromosome 9 of Zea mays, encodes the enzyme sucrose synthase (EC 2.4.1.13). The gene is known to be expressed in the endosperm of the developing maize kernel and seems to be involved in sucrose breakdown prior to starch synthesis. We have analyzed different tissues of the maize plant for transcripts of the Shrunken gene and have found rather high transcription rates in the etiolated shoot and the primary root of the germinating kernel. If the etiolated seedlings are illuminated, the transcript level drops by about 95% in the greening plant parts (1st and 2nd leaves) which are active in photosynthesis. A very low transcript level is found in mature green leaves where sucrose is formed from products of photosynthesis via a separate pathway. Upon anaerobic stress of the young seedling, the level of Shrunken transcripts increases 10 and 20 times in shoot and root tissue respectively. Apparently anaerobic induction supersedes the negative control that is observed after illumination in the 1st and 2nd leaves. From the experiments outlined here we conclude that the anaerobic protein 87 (ANP87, Hake et al. 1985) is encoded by the Shrunken locus. While the expression of the Shrunken gene varies in different tissues and in response to external stimuli, transcription of the second sucrose synthase (B) gene seems to be irresponsive to anaerobic stress and to be expressed at a similar low level in all of the tissues examined.

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Multiple interactions between nuclear proteins of Zea mays and the promoter of the Shrunken gene

Werr

Springer

Schürmann

et al. 1988

Mol Gen Genet

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Nuclear proteins were extracted from isolated nuclei of immature maize kernels. The promoter region (1.5 kb) of the Shrunken gene, which is highly transcribed in the developing endosperm of the kernel, was scanned for protein-DNA interactions. Several promoter fragments showed protein-DNA complex formation in gel retardation experiments. Two different nucleo-protein complexes (MNP1 and MNP2) have been distinguished in competition and DNase I footprinting experiments. Both nuclear DNA-binding activities are able to recognize multiple sites distributed over a 1.5 kb upstream region of the Shrunken gene. Some of the binding sites established in the in vitro reconstitution experiments are located near to DNase I hypersensitive sites found in the promoter of the Shrunken gene (Frommer and Starlinger 1988).

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Formation of composite nucleoprotein complexes near the transcription start of the Shrunken gene from maize

1990

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We describe an analysis of protein-DNA interactions detectable with nuclear extracts prepared from maize kernels and DNA fragments from the immediate upstream region of the Shrunken gene from maize. The data demonstrate that sequences from position -235 to the transcription start are recognized by sequence specific nuclear proteins. In footprinting and competition experiments at least six different protein-DNA interactions can be distinguished within this upstream region. Two sequence related inverted repeat structures, 67 and 64 bp in length, cross compete for protein recognition.

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Respect – Wertschätzende Kommunikation

Springer¹

2017

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Springer

2015

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Boris Springer

The Shrunken gene on chromosome 9 of Zea mays L is expressed in various plant tissues and encodes an anaerobic protein

Multiple interactions between nuclear proteins of Zea mays and the promoter of the Shrunken gene

Formation of composite nucleoprotein complexes near the transcription start of the Shrunken gene from maize

Respect – Wertschätzende Kommunikation

Weil Werte wirken

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