see [http://www.openwetware.org/wiki/Quint_Lab:Publications here]
#Delker2010 C Delker, Pöschl Y, Raschke A, Ullrich K, Ettingshausen S, Hauptmann V, Grosse I, Quint M ('''2010''') Natural variation of transcriptional auxin response networks in Arabidopsis thaliana. '''Plant Cell''' doi:10.1105/tpc.110.073957 [http://www.plantcell.org/cgi/content/short/tpc.110.073957?keytype=ref&ijkey=cA9kBGzbeSu5aPE Pubmed].
#Hendrickson2010 A Hendrickson Culler, Quint M, Slovin JP, Cohen JD ('''2010''') Auxin chemical and molecular biology. In: [http://www.elsevier.com/wps/find/bookdescription.cws_home/719035/description#description Comprehensive Natural Products Chemistry – II; Volume 4: Chemical Ecology]. Ed. K Mori, Elsevier, UK. (in press) <br>
#Ludwig-Muller2010 J Ludwig-Müller, Denk K, Cohen JD, Quint M ('''2010''') An inhibitor of tryptophan-dependent biosynthesis of indole-3-acetic acid alters seedling development in Arabidopsis. [http://www.springerlink.com/content/h52m48m283g25777/?p=2fa0ab5fecfe47fdb442effb9736ddc2&pi=0 Journal of Plant Growth Regulation 29:242-248].
#Quint2009 pmid=19395411
#Zhang2008 pmid=18550827
#Delker2008 pmid=18299888
#Quint2008 M Quint, Lübberstedt T (2008) ''Application of resistance gene analogs in breeding for virus resistance''. In: Techniques in Diagnosis of Plant Viruses. Ed. by GP Rao, Valverde RA, Christomas D, Studium Press LLC, USA.
#Quint2006 pmid=16877027
#Quint2005 pmid=16045473
#Frisch2004 pmid=14968304
#Quint2003 pmid=12748766
#Dussle2003 pmid=12589549
#Quint2002 pmid=12582538
#Dussle2002 pmid=12582898
#Quint2000 M Quint, AE Melchinger, CM Dussle, Lübberstedt T (2000) ''Breeding for virus resistance in maize''. [http://www.dgsgenetika.org.rs/abstrakti/vol32_2000_no3_en.htm#Rad26 Genetika 32:529-545.]
</biblio>
==useful links==
==useful links==
Revision as of 04:55, 2 December 2010
in 2007 i started my independent junior research group at the leibniz institute of plant biochemistry in halle, germany. my lab studies hormone responses in the model plant arabidopsis thaliana and related brassicaceae employing mainly genetic approaches such as forward genetic screens or making use of naturally occurring genetic variation in the global gene pool of arabidopsis.