Publikationen

Molekulare Pflanzenzüchtung


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2022


Debener, T. (2022). State of the art of omics technologies in horticultural crops. in G. R. Rout (Hrsg.), Omics in Horticultural Crops (S. 1-14). Academic Press Inc..

doi.org/10.1016/B978-0-323-89905-5.00016-1

Domes, H. S., Neu, E., Linde, M., & Debener, T. (2022). P Starvation in Roses Leads to Strongly Genotype-Dependent Induction of P-Transporter Genes during Black Spot Leaf Disease. Journal of Fungi, 8(6), [549].

doi.org/10.3390/jof8060549

Kawamura, K., Ueda, Y., Matsumoto, S., Horibe, T., Otagaki, S., Wang, L., Wang, G., Hibrand-Saint Oyant, L., Foucher, F., Linde, M., & Debener, T. (2022). The identification of the Rosa S-locus provides new insights into the breeding and wild origins of continuous-flowering roses. Horticulture research, 9, [uhac155].

doi.org/10.1093/hr/uhac155

Landes, T., Debener, T., & Heinemann, D. (2022). Brillouin elastography in horticultural sciences: impact of D. rosea on rose leaves biomechanics. Beitrag in 25th ICO and 16th OWLS conference, Dresden, Deutschland.

doi.org/10.15488/13087


2021


Fang, P., Arens, P., Liu, X., Zhang, X., Lakwani, D., Foucher, F., Clotault, J., Geike, J., Kaufmann, H., Debener, T., Bai, Y., Zhang, Z., & Smulders, M. J. M. (2021). Analysis of allelic variants of RhMLO genes in rose and functional studies on susceptibility to powdery mildew related to clade V homologs. Theoretical and applied genetics, 134(8), 2495-2515.

doi.org/10.1007/s00122-021-03838-7

Nitarska, D., Boehm, R., Debener, T., Lucaciu, R. C., & Halbwirth, H. (2021). First genome edited poinsettias: targeted mutagenesis of flavonoid 3′-hydroxylase using CRISPR/Cas9 results in a colour shift. Plant Cell, Tissue and Organ Culture, 147(1), 49-60.

doi.org/10.1007/s11240-021-02103-5

Schulz, D., Linde, M., & Debener, T. (2021). Detection of Reproducible Major Effect QTL for Petal Traits in Garden Roses. Plants, 10(5).

doi.org/10.3390/plants10050897

Straube, J., Chen, Y. H., Khanal, B. P., Shumbusho, A., Zeisler-Diehl, V., Suresh, K., Schreiber, L., Knoche, M., & Debener, T. (2021). Russeting in Apple is Initiated after Exposure to Moisture Ends: Molecular and Biochemical Evidence. Plants, 10(1), [65].

doi.org/10.3390/plants10010065

Vilperte, V., Boehm, R., & Debener, T. (2021). A highly mutable GST is essential for bract colouration in Euphorbia pulcherrima Willd. Ex Klotsch. BMC GENOMICS, 22(1), [208].

doi.org/10.1186/s12864-021-07527-z

Vilperte, V., Boehm, R., & Debener, T. (2021). Development of a multiplex amplicon-sequencing assay to detect low-frequency mutations in poinsettia (Euphorbia pulcherrima) breeding programmes. PLANT BREEDING, 140(3), 497-507.

doi.org/10.1111/pbr.12925


2020


Chen, Y. H., Straube, J., Khanal, B. P., Knoche, M., & Debener, T. (2020). Russeting in Apple Is Initiated After Exposure to Moisture Ends: I. Histological Evidence. Plants, 9(10), 1-18. [1293].

doi.org/10.3390/plants9101293

Domes, H. S., & Debener, T. (2020). New insights into interactions of roses and pathogenic fungi and crosstalk potential of various stress signalling pathways. in Proceedings of the XXVI International Eucarpia Symposium Section Ornamentals: Editing Novelty: Erfurt, Germany, September 1-4, 2019 (Band 1283, S. 89-96). (Acta Horticulturae).

doi.org/10.17660/actahortic.2020.1283.13

Khanal, B. P., Imoro, Y., Chen, Y-H., Straube, J., & Knoche, M. (2020). Surface moisture increases microcracking and water vapor permeance of apple fruit skin. Plant Biology, 23(1), 74-82.

doi.org/10.1111/plb.13178

Nguyen, T. H. N., Tänzer, S., Rudeck, J., Winkelmann, T., & Debener, T. (2020). Genetic analysis of adventitious root formation in vivo and in vitro in a diversity panel of roses. Scientia horticulturae, 266, [109277].

doi.org/10.1016/j.scienta.2020.109277

Schulz, D. F., Linde, M., & Debener, T. (2020). Association studies in roses reveal robust markers for flower traits. Acta Horticulturae, 1283, 199-207.

doi.org/10.17660/actahortic.2020.1283.27


2019


Nguyen, T. H., Winkelmann, T., & Debener, T. (2019). Development of markers for shoot organogenesis in roses. Acta Horticulturae, 1232, 7-14.

doi.org/10.17660/ActaHortic.2019.1232.2

Röhrs, I. (2019). Role of the Rdr1 gene family in the black spot resistance in roses. [Dissertation, Gottfried Wilhelm Leibniz Universität Hannover]. Leibniz Universität Hannover.

doi.org/10.15488/8303

Ronoh, R., Linde, M., Winkelmann, T., Abukutsa-Onyango, M., Dinssa, F. F., & Debener, T. (2019). Morphological characterization, genetic diversity and population structure of African nightshades (section Solanum L.). Genetic Resources and Crop Evolution, 66(1), 105-120.

doi.org/10.1007/s10722-018-0700-z


2018


Bartkiewicz, A. M., Chilla, F., Terefe-Ayana, D., Lübeck, J., Strahwald, J., Tacke, E., Hofferbert, H. R., Linde, M., & Debener, T. (2018). Maximization of Markers Linked in Coupling for Tetraploid Potatoes via Monoparental Haploids. Frontiers in Plant Science, 9, [620].

doi.org/10.3389/fpls.2018.00620

Menz, I., Straube, J., Linde, M., & Debener, T. (2018). The TNL gene Rdr1 confers broad-spectrum resistance to Diplocarpon rosae. Molecular plant pathology, 19(5), 1104-1113.

doi.org/10.1111/mpp.12589


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