Veiko Krauß | Biologe | Wissenschaftliche Veröffentlichungen


Walther, M.; Schrahn, S.; Krauss, V.; Lein, S; Kessler, J.; Jenuwein, T. and Reuter, G. (2020):
Heterochromatin formation in Drosophila requires genome-wide histone deacetylation in cleavage chromatin before mid-blastula transition in early embryogenesis.
Chromosoma https://doi.org/10.1007/s00412-020-00732-x


Lehmann, J.; Eisenhardt, C.; Krauss, V. and Stadler, P.F. (2014):
Intron Positions and Near Intron Pairs.
In Wägele and Bartolomaeus (ed): Deep Metazoan phylogeny. pp.539-548, De Gruyter, Berlin.


Lehmann, J.; Stadler, P.F. and Krauss, V. (2013):
Near Intron Pairs and the Metazoan Tree.
Molecular Phylogenetics and Evolution 66, 811-823.
Die Original-Veröffentlichung ist erhältlich auf www.sciencedirect.com.


Lechner, M.; Marz M.; Ihling, C.; Sinz, A.; Stadler, P.F. and Krauss, V. (2013):
The Correlation of Genome Size and DNA Methylation Rate in Metazoans.
Theory in Biosciences 132, 47-60.
Die Original-Veröffentlichung ist erhältlich auf www.springerlink.com.


Niehuis, O.; Hartig, G.; Grath, S.; Pohl, H.; Lehmann, J.; Tafer, H; Donath, A.; Krauss, V.; Eisenhardt, C.; Hertel, J.; Petersen, M.; Mayer, C.; Meusemann, K.; Peters, R.S.; Stadler, P.F.; Beutel, R.G.; Bornberg-Bauer, E.; McKenna, D.D. and Misof B. (2012):
Genomic and Morphological Evidence Converge to Resolve the Enigma of Strepsiptera.
Current Biology 22, 1309-1313.


Krauss, V. and Reuter, R. (2011):
DNA Methylation in Drosophila - A Critical Evaluation.
Progress in Molecular Biology and Translational Science 101, 177-191.


Lehmann, J.; Eisenhardt, C.; Stadler, P.F. and Krauss, V. (2010):
Some novel intron positions in conserved Drosophila genes are caused by intron sliding or tandem duplication.
BMC Evolutionary Biology 10, 156.


Krauss, V.; Eisenhardt, C. and Unger, T. (2009):
The Genome of the Stick Insect Medauroidea extradentata Is Strongly Methylated within Genes and Repetitive DNA.
PLoS ONE 4(9): e7223.


Krauss, V.; Thümmler, C.; Georgi, F.; Lehmann, J.; Stadler, P.F. and Eisenhardt, C. (2008):
Near intron positions are reliable phylogenetic markers: An application to Holometabolous Insects.
Mol. Biol. Evol. 25, 821-830.


Krauss, V. (2008):
Glimpses of evolution: Heterochromatic histone H3K9 methyltransferases left its marks behind.
Genetica 133, 93-106.
Die Original-Veröffentlichung ist erhältlich auf www.springerlink.com.


Krauss, V.; Fassl, A.; Fiebig, P.; Patties, I. and Sass, H. (2006):
The evolution of the histone methyltransferase gene Su(var)3-9 in metazoans includes a fusion with and a re-fission from a functionally unrelated gene.
BMC Evolutionary Biology 6, 18.


Naumann, K.; Fischer, A.; Hofmann, I.; Krauss, V.; Phalke, S.; Irmler, K.; Hause, G.; Aurich, A.-C.; Dorn, R.; Jenuwein, T. and Reuter, G. (2005):
Pivotal role of AtSUVH2 in heterochromatic histone methylation and gene silencing in Arabidopsis.
EMBO J. 24, 1418-1429.


Krauss, V.; Pecyna, M.; Kurz, K. and Sass, H. (2005):
Phylogenetic mapping of intron positions: A case study of translation initiation factor eIF2gamma.
Mol. Biol. Evol. 22, 74-84.


Ebert, A.; Schotta, G.; Lein, S.; Kubicek, S.; Krauss, V.; Jenuwein, T. and Reuter, G. (2004):
Su(var) genes regulate the balance between euchromatin and heterochromatin in Drosophila.
Gen. Develop. 18, 2973-2983.


Krauss, V. and Dorn, R. (2004):
Evolution of the trans-splicing Drosophila locus mod(mdg4) in several species of Diptera and Lepidoptera.
Gene 331, 165-176.
Die Original-Veröffentlichung ist erhältlich bei Gene.


Dorn, R. and Krauss, V. (2003):
The modifier of mdg4 locus in Drosophila: functional complexity is resolved by trans splicing.
Genetica 117, 165-177.


Schotta, G.; Ebert, A.; Krauss, V.; Fischer, A.; Hoffmann, J.; Rea, S.; Jenuwein, T.; Dorn, R. and Reuter, G. (2002):
Central role of Drosophila SU(VAR)3-9 in histone H3-K9 methylation and heterochromatic gene silencing.
EMBO J. 21, 1121-1131.


Baumbusch, L.O.; Thorstensen, T.; Krauss, V.; Fischer, A.; Naumann, K.; Assalkhou, R.; Schulz, I.; Reuter, G. and Aalen, R.B.(2001):
The Arabidopsis thaliana genome contains at least 29 active genes encoding SET domain proteins that can be assigned to four evolutionarily conserved classes.
Nucleic Acids Res. 29, 4319-4333.


Krauss, V. and Reuter, G.(2000):
Two Genes Become One: The Genes Encoding Heterochromatin Protein SU(VAR)3-9 and Translation Initiation Factor Subunit eIF2gamma Are Joined to a Dicistronic Unit in Holometabolic Insects.
Genetics 156, 1157-1167.


Büchner, K.; Roth, P.; Schotta, G.; Krauss, V.; Saumweber, H.; Reuter, G. und Dorn, R. (2000):
Genetic and Molecular Complexity of the Position Effect Variegation Modifier mod(mdg4) in Drosophila.
Genetics 155, 141-157.


Tschiersch, B.; Hofmann, A.; Krauss, V.; Dorn, R.; Korge, G. and Reuter, G. (1994):
The protein encoded by the Drosophila position-effect variegation suppressor gene Su(var)3-9 combines domains of antagonistic regulators of homeotic gene complexes.
EMBO J. 13, 3822-3831.


Dorn, R.; Krauss, V.; Reuter, G. and Saumweber, H. (1993):
The enhancer of position-effect variegation of Drosophila, E(var)3-93D, codes for a chromatin protein containing a conserved domain common to several transcritional regulators.
Proc. Natl. Acad. Sci. USA 90: 11376-11380.

Veiko Krauß im Januar 2020