Dorothee U. Kloos scite author profile

The storage root (taproot) of sugar beet (Beta vulgaris L.) originates from hypocotyl and primary root and contains many different tissues such as central xylem, primary and secondary cambium, secondary xylem and phloem, and parenchyma. It was the aim of this work to characterize the promoters of three taproot-expressed genes with respect to their tissue specificity. To investigate this, promoters for the genes Tlp, His1-r, and Mll were cloned from sugar beet, linked to reporter genes and transformed into sugar beet and tobacco. Reporter gene expression analysis in transgenic sugar beet plants revealed that all three promoters are active in the storage root. Expression in storage root tissues is either restricted to the vascular zone (Tlp, His1-r) or is observed in the whole organ (Mll). The Mll gene is highly organ specific throughout different developmental stages of the sugar beet. In tobacco, the Tlp and Mll promoters drive reporter gene expression preferentially in hypocotyl and roots. The properties of the Mll promoter may be advantageous for the modification of sucrose metabolism in storage roots.

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Isolation and molecular analysis of six taproot expressed genes from sugar beet

Kloos

Oltmanns²,

Dock³

et al. 2002

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The taproot from sugar beet (Beta vulgaris L.) undergoes a specific developmental process to function as a food storage organ. Suppression Subtractive Hybridization (SSH) was utilized for the isolation of cDNA fragments for taproot expressed genes. Isolation and molecular analysis of six cDNAs encoding the complete gene product revealed that these genes comprise homologues of a drought-inducible linker histone, a homologue of a major latex-like protein, a phosphoenolpyruvate carboxylase kinase, a putative vacuolar processing enzyme, a thaumatin-like protein and an alanine- and glutamic acid-rich protein. All genes are transcribed in taproots while transcription in leaves is low or undetectable.

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Post-harvest regulated gene expression and splicing efficiency in storage roots of sugar beet (Beta vulgaris L.)

Rotthues

Kappler

Lichtfuss

et al. 2008

Planta

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Sixteen post-harvest upregulated genes from sugar beet comprising five novel sequences were isolated by subtractive cloning. Transcription profiles covering a period of up to 49 days after harvest under controlled storage conditions and in field clamps are reported. Post-harvest induced genes are involved in wound response, pathogen defense, dehydration stress, and detoxification of reactive oxygen species. An early induction of a cationic peroxidase indicates a response to post-harvest damage. Wound response reactions may also involve genes required for cell division such as a regulator of chromatin condensation and a precursor of the growth stimulating peptide phytohormone phytosulfokine-alpha. Surprisingly, also three putative non-protein coding genes were isolated. Two of these genes show intron specific and storage temperature dependent splicing of a precursor mRNA. The temperature dependent splicing of an intron containing sugar beet mRNA is also maintained in transgenic Arabidopsis thaliana. The storage induced genes are integrated into a model that proposes the response to several post-harvest stress conditions. Temperature regulated splicing may be a mechanism to sense seasonal temperature changes.

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Dorothee U. Kloos

Cloning of Z39Ig, a novel gene with immunoglobulin-like domains located on human chromosome X

The TGF-β–Smad network: introducing bioinformatic tools

Taproot promoters cause tissue specific gene expression within the storage root of sugar beet

Isolation and molecular analysis of six taproot expressed genes from sugar beet

Post-harvest regulated gene expression and splicing efficiency in storage roots of sugar beet (Beta vulgaris L.)

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