Dr. rer. nat. Alexander Rebl

+49 38208 68-702
Forschungsinstitut für Nutztierbiologie (FBN)
Institut für Genombiologie
Abteilung Fischgenetik
Wilhelm-Stahl-Allee 2
18196 Dummerstorf

Forschungsinteressen

  • Aufklärung von immunologischen und stressphysiologischen Mechanismen, die zur Optimierung von Gesundheitskonzepten in der Aquakultur beitragen
  • Erfassung der molekulargenetischen Unterschiede zwischen Individuen und Populationen etablierter und neuer Aquakulturfischarten in Hinblick auf Immunkompetenz und Performance

Lebenslauf

  • 2014-heute: Wissenschaftler in der Abteilung Fischgenetik am Forschungsinstitut für Nutztierbiologie (FBN) Dummerstorf
  • 2009-2014: Nachwuchsgruppenleiter in der Abteilung Fischgenetik am Leibniz Institut für Nutztierbiologie (FBN)
  • 2007-2009: Postdoc in der Abteilung Fischgenetik am Leibniz Institut für Nutztierbiologie (FBN)
  • 2007: Promotion in Molekularbiologie
  • 2004-2007: Promotionsstudent an der Universität Rostock
  • 1999-2004: Diplomand an der Universität Rostock

Publikationen

Sarais, F.; Kummerow, S.; Montero, R.; Rebl, H.; Köllner, B.; Goldammer, T.; Collet, B.; Rebl, A. (2021):
PIAS Factors from Rainbow Trout Control NF‐κB‐ and STAT‐Dependent Gene Expression. Int J Mol Sci 22 (23): 12815, 1-23
https://doi.org/10.3390/ijms222312815
Bakke, A. F.; Rebl, A.; Frost, P.; Afanasyef, S.; Røyset, K.A.; Søfteland, T.; Lund, H.; Boysen, P.; Krasnov, A. (2021):
Effect of two constant light regimens on antibody profiles and immune gene expression in Atlantic salmon following vaccination and experimental challenge with salmonid alphavirus. Fish Shellfish Immun 118: 118-196
https://doi.org/10.1016/j.fsi.2021.07.002
Goldammer, T.; Verleih, M.; Brunner, R. M.; Rebl, A.; Nguinkal, J. A.; de los Rios Pérez, L.; Schäfer, N.; Stüecken, M.; Swirplies, F.; Wittenburg, D. (2021):
Pikeperch genome data – basis for the smart farming in aquaculture. Mitteilungen der Landesforschungsanstalt für Landw (63): 125-133
https://www.landwirtschaft-mv.de/static/LFA/Dateien/Hefte/MdLFA_Heft63.pdf
Nguinkal, J. A.; Verleih, M.; de los Rios Pérez, L.; Brunner, R. M.; Sahm, A.; Bej, S.; Rebl, A.; Goldammer, T. (2021):
Comprehensive Characterization of Multitissue Expression Landscape, Co-Expression Networks and Positive Selection in Pikeperch. Cells-Basel 11 (9): 610353, 1-16
https://doi.org/10.3390/cells10092289
Gebauer, T.; Gebauer, R.; Palińska-Żarska, K.; Císař, P.; Movchan, O.; Tomášek, O.; Prokešová, M.; Matoušek, J.; Hliwa, P.; Król, J.; Zarski, D.; Rebl, A.; Stejskal, V. (2021):
Assessment of behavioural and physiological traits as indicators of suitability for European perch aquaculture. Aquaculture 544: 737048, 1-10
https://doi.org/10.1016/j.aquaculture.2021.737048
Krasnov, A.; Burgerhout, E.; Johnsen, H.; Tveiten, H.; Bakke, A. F.; Lund, H.; Afanasyef, S.; Rebl, A.; Johansen, L.-H. (2021):
Development of Atlantic salmon (Salmo salar L.) under hypoxic conditions induced sustained changes in expression of immune genes and reduced resistance to Moritella viscosa. Front Ecol Evol 9: 722218, 1-11
https://doi.org/10.3389/fevo.2021.722218
Schäfer, N.; Matoušek, J.; Rebl, A.; Stejskal, V.; Brunner, R. M.; Goldammer, T.; Verleih, M.; Korytář, T. (2021):
Effects of Chronic Hypoxia on the Immune Status of Pikeperch (Sander lucioperca Linnaeus, 1758). BIOLOGY-BASEL 10 (7): 649, 1-19
https://doi.org/10.3390/biology10070649
Schäfer, N.; Kaya, Y.; Rebl, H.; Stüecken, M.; Rebl, A.; Nguinkal, J. A.; Franz, G. P.; Brunner, R. M.; Goldammer, T.; Grunow, B.; Verleih, M. (2021):
Insights into early ontogenesis: characterization of stressand development key genes of pikeperch (Sander lucioperca) in vivo and in vitro. Fish Physiol Biochem 47 (2): 515-532
https://doi.org/10.1007/s10695-021-00929-6
Seibel, H.; Baßmann, B.; Rebl, A. (2021):
Blood Will Tell: What Hematological Analyses Can Reveal About Fish Welfare. Front Vet Sci 8 (194): 616955, 1-21
https://doi.org/10.3389/fvets.2021.616955
Rebl, H.; Bergemann, C.; Rakers, S.; Nebe, B.; Rebl, A. (2021):
Plasma Treatment of Fish Cells: The Importance of Defining Cell Culture Conditions in Comparative Studies. Appl Sci-Basel 11: 2534, 1-14
https://doi.org/10.3390/app11062534
de los Rios Pérez, L.; Nguinkal, J. A.; Verleih, M.; Rebl, A.; Brunner, R. M.; Klosa, J.; Schäfer, N.; Stüeken, M.; Goldammer, T.; Wittenburg, D. (2020):
An ultra-high density SNP-based linkage map for enhancing the pikeperch (Sander lucioperca) genome assembly to chromosome-scale. Sci Rep-UK 10 (22335): 1-13
https://doi.org/10.1038/s41598-020-79358-z
Martorell Ribera, J.; Venuto, M. T.; Otten, W.; Brunner, R. M.; Goldammer, T.; Rebl, A.; Gimsa, U. (2020):
Time-dependent effects of acute handling on the brain monoamine system of the Salmonid Coregonus maraena. FRONT NEUROSCI-SWITZ 14: 1293, 1-18
https://doi.org/10.3389/fnins.2020.591738
de los Rios Pérez, L.; Brunner, R. M.; Hadlich, F.; Rebl, A.; Kühn, C.; Wittenburg, D.; Goldammer, T.; Verleih, M. (2020):
Comparative analysis of the transcriptome and distribution of putative SNPs in two rainbow trout (Oncorhynchus mykiss) breeding strains by using next-generation sequencing. Genes-Basel 11: 841, 1-16
https://doi.org/10.3390/genes11080841
Venuto, M. T.; Martorell Ribera, J.; Bochert, R.; Harduin-Lepers, A; Rebl, A.; Galuska, S. P. (2020):
Characterization of the polysialylation status in ovaries of the salmonid fish Coregonus maraena and the percid fish Sander lucioperca. Cells-Basel 9 (11): 2391, 1-15
https://doi.org/10.3390/cells9112391
Rebl, A.; Korytár, T.; Borchel, A.; Bochert, R.; Strzelczyk, J.; Goldammer, T.; Verleih, M. (2020):
The synergistic interaction of thermal stress coupled with overstocking strongly modulates the transcriptomic activity and immune capacity of rainbow trout (Oncorhynchus mykiss). Sci Rep-UK 10: 14913, 1-15
https://doi.org/10.1038/s41598-020-71852-8
Krasnov, A.; Afanasyef, S.; Nyland, S.; Rebl, A. (2020):
Multigene expression assay for assessment of the immune status of Atlantic salmon. Genes-Basel 11 (11): 1236, 1-11
https://doi.org//10.3390/genes11111236
Sarais, F.; Rebl, H.; Verleih, M.; Ostermann, S.; Krasnov, A.; Köllner, B.; Goldammer, T.; Rebl, A. (2020):
Characterisation of the teleostean κB-Ras family: The two members NKIRAS1 and NKIRAS2 from rainbow trout influence the activity of NF-κB in opposite ways. Fish Shellfish Immun 106: 1004-1013
https://doi.org/10.1016/j.fsi.2020.08.052
Bornhöfft, K.; Martorell Ribera, J.; Viergutz, T.; Venuto, M. T.; Gimsa, U.; Galuska, S. P.; Rebl, A. (2020):
Characterization of sialic acid-binding immunoglobulin-type lectins in fish reveals teleost-specific structures and expression patterns. Cells-Basel 9 (4): 836, 1-19
https://doi.org/10.3390/cells9040836
Venuto, M. T.; Decloquement, M.; Martorell Ribera, J.; Noel, M.; Rebl, A.; Cogez, V.; Petit, D.; Galuska, S. P.; Harduin-Lepers, A. (2020):
Vertebrate Alpha2,8-Sialyltransferases (ST8Sia): A Teleost Perspective. Int J Mol Sci 21 (2): 513, 1-21
https://doi.org/10.3390/ijms21020513
Koll, R.; Martorell Ribera, J.; Brunner, R. M.; Rebl, A.; Goldammer, T. (2020):
Gene profiling in the adipose fin of salmonid fishes supports its function as a flow sensor. Genes-Basel 11 (1): 21, 1-22
https://doi.org/10.3390/genes11010021