Tamara Kleber-Janke scite author profile

Type I allergy is an immunoglobulin E (IgE)-mediated hypersensitivity disease affecting more than 25% of the population. Currently, diagnosis of allergy is performed by provocation testing and IgE serology using allergen extracts. This process defines allergen-containing sources but cannot identify the disease-eliciting allergenic molecules. We have applied microarray technology to develop a miniaturized allergy test containing 94 purified allergen molecules that represent the most common allergen sources. The allergen microarray allows the determination and monitoring of allergic patients' IgE reactivity profiles to large numbers of disease-causing allergens by using single measurements and minute amounts of serum. This method may change established practice in allergy diagnosis, prevention, and therapy. In addition, microarrayed antigens may be applied to the diagnosis of autoimmune and infectious diseases.

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Selective Cloning of Peanut Allergens, Including Profilin and 2S Albumins, by Phage Display Technology

Kleber-Janke¹,

Crameri²,

Appenzeller³

et al. 1999

Int Arch Allergy Immunol

280

237

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Background: Peanut kernels contain many allergens able to elicit IgE–mediated type 1 allergic reactions in sensitized individuals. Sera from sensitized patients recognize variable patterns of IgE–binding proteins. The identification of the IgE–binding proteins of peanut extract would faciliate improvement of diagnostic and immunotherapeutic approaches as well as development of sensitive test systems for the detection of hidden peanut allergens present as additives in various industrial food products and the investigation of their stability during processing of food products. Methods: We applied the pJuFo cloning system based on the phage surface display of functional cDNA expression products to clone cDNAs encoding peanut allergens. Sera (n = 40) of peanut–allergic individuals were selected according to case history, radioallergosorbent test and immunoblot analysis to demonstrate IgE binding towards the newly identified recombinant allergens. Results: In addition to the known allergens Ara h 1 and Ara h 2 we were able to identify four allergens with estimated molecular weights of 36, 16, 14.5 and 14 kDa. Three of them formally termed Ara h 4, Ara h6 and Ara h 7 show significant sequence similarities to the family of seed storage proteins and the fourth (Ara h 5) corresponds to the well–known plant allergen profilin. Immunoblotting of the six expressed recombinant allergens with 40 patients sera shows 14 individual recognition patterns and the following frequency of specific IgE binding: Ara h 1 was recognized by 65%, Ara h 2 by 85%, Ara h 4 by 53%, Ara h 5 by 13%, Ara h 6 by 38% and Ara h 7 by 43% of the selected sera. Conclusions: All of the selected peanut–positive sera can detect at least one of the six identified recombinant allergens which can be used to establish individual patients’ reactivity profiles. A comparison of these profiles with the clinical data will possibly allow a further insight into the relationship between clinical severity of the symptoms and specific IgE levels towards the six peanut allergens.

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Isolation of cDNA clones for genes showing enhanced expression in barley leaves during dark-induced senescence as well as during senescence under field conditions

Kleber-Janke

Krupinska

1997

Planta

116

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Senescence of barley (Hordeum vulgare L. cv. Carina) primary foliage leaves was induced by transfer of the plants into darkness for 2 d. Under these conditions senescence was characterized by a light-reversible decline in the efficiency of photosystem II, and in chlorophyll and protein contents. To isolate senescence-associated genes a differential display of cDNA fragments amplified from reversely transcribed RNA was employed. By this method, gene expression in leaves of control plants collected at the onset of the dark period was compared with gene expression in senescing leaves collected at the end of the extended dark period. The expression of the genes represented by various differentially displayed cDNA fragments was examined by Northern blot hybridizations with RNA derived from primary foliage leaves before and after induction of senescence by darkness. In order to test whether these genes with enhanced expression during dark-induced senescence also show enhanced expression during natural senescence, Northern blot hybridizations were carried out with RNA samples prepared from flag leaves of barley plants during maturation and senescence under field conditions. Five of the cDNA fragments representing transcripts associated with dark-induced senescence, as well as with natural senescence, were selected as probes for screening a cDNA library from senescent flag leaves. With one probe a larger cDNA including a complete open reading frame with homology to the sequence of a known proteinase inhibitor was found. Another cDNA isolated by this means showed high sequence similarity with a gene coding for a 4-hydroxyphenylpyruvate dioxygenase. The other three larger cDNA clones isolated by this procedure so far do not show significant homologies with known sequences.

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Use of Modified BL21(DE3) Escherichia coli Cells for High-Level Expression of Recombinant Peanut Allergens Affected by Poor Codon Usage

Kleber-Janke

Becker

2000

Protein Expression and Purification

104

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Patient-tailored cloning of allergens by phage display: Peanut (Arachis hypogaea) profilin, a food allergen derived from a rare mRNA

Kleber-Janke

Crameri²,

Scheurer

et al. 2001

Journal of Chromatography B: Biomedical Sciences and Applicatio

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