Your search keyword '"Unte, Ulrike S."' showing total 2 results

1. Disruption of Arabidopsis thaliana MYB26 results in male sterility due to non-dehiscent anthers.

Author

Steiner-Lange, Sabine, Unte, Ulrike S., Eckstein, Luca, Yang, Caiyun, Wilson, Zoe A., Schmelzer, Elmon, Dekker, Koen, and Saedler, Heinz

Subjects

*MALE infertility, *ARABIDOPSIS thaliana, *CORN

Abstract

Summary A male sterile mutant with a defect in anther dehiscence was identified in an Arabidopsis thaliana population mutagenized with the Zea mays transposon En-1/Spm. Mutants produce viable pollen that can fertilize when released mechanically from the anthers. Mutant stamens are of normal size and shape, but lack cell wall fortifications in the endothecial cell layer of the anther, which are required for the dehiscence process. The mutant phenotype was shown to be caused by a transposon insertion in AtMYB26 , disrupting the putative DNA-binding domain of this R2R3-type MYB transcription factor. RT-PCR revealed that expression of AtMYB26 is restricted to inflorescences. Sterility was shown to be stable under several environmental conditions. The high stability of the sterile phenotype, together with the fact that pollen is functional, makes AtMYB26 and its orthologs a valuable tool for manipulating male fertility in higher plants. [ABSTRACT FROM AUTHOR]

Published

2003

2. The Arabidopsis ABORTED MICROSPORES (AMS ) gene encodes a MYC class transcription factor.

Author

Sorensen, Anna-Marie, Kröber, Sandra, Unte, Ulrike S., Huijser, Peter, Dekker, Koen, and Saedler, Heinz

Subjects

GAMETOGENESIS, PLANT spores, MALE infertility, ARABIDOPSIS

Abstract

Summary Visual screening of a T-DNA mutagenised population of Arabidopsis thaliana for an absence of silique elongation lead to the isolation of the aborted microspores (ams ) mutant that shows a sporophytic recessive male sterile phenotype. Homozygous mutant plants are completely devoid of mature pollen. Pollen degeneration occurs shortly after release of the microspores from the tetrad, prior to pollen mitosis I. Premature tapetum and microspore degeneration are the primary defects caused by this lesion, while a secondary effect is visualised in the stamen filaments, which are reduced in length and lie beneath the receptive stigma at flower opening. The disrupted gene was isolated and revealed a T-DNA element to be inserted into the eighth exon of a basic helix-loop-helix (bHLH) gene located on chromosome II. This protein sequence contains a basic DNA binding domain and two alpha helices separated by a loop, typical of a transcription factor belonging to the MYC sub family of bHLH genes. Therefore, AMS plays a crucial role in tapetal cell development and the post-meiotic transcriptional regulation of microspore development within the developing anther. [ABSTRACT FROM AUTHOR]

Published

2003