Combinatorial interactions of two amino acids with a single base pair define target site specificity in plant dimeric homeodomain proteins

doi:10.1093/nar/29.23.4866

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Nucleic Acids Research, 2001, Vol. 29, No. 23 4866-4872
© 2001 Oxford University Press

Combinatorial interactions of two amino acids with a single base pair define target site specificity in plant dimeric homeodomain proteins

Adriana E. Tron, Carlos W. Bertoncini, Claudia M. Palena, Raquel L. Chan and Daniel H. Gonzalez^*

Cátedra de Biología Celular y Molecular, Facultad de Bioquímica y Ciencias Biológicas, Universidad Nacional del Litoral, CC 242 Paraje El Pozo, 3000 Santa Fe, Argentina

Four groups of plant homeodomain proteins contain a dimerizationmotif closely linked to the homeodomain. We here show that twosunflower homeodomain proteins, Hahb-4 and HAHR1, which belongto the Hd-Zip I and GL2/Hd-Zip IV groups, respectively, showdifferent binding preferences at a defined position of a pseudopalindromicDNA-binding site used as a target. HAHR1 shows a preferencefor the sequence 5'-CATT(A/T)AATG-3', rather than 5'-CAAT(A/T)ATTG-3',recognized by Hahb-4. To analyze the molecular basis of thisbehavior, we have constructed a set of mutants with exchangedresidues (Phe $->$ Ile and Ile $->$ Phe) at position 47 of the homeodomain,together with chimeric proteins between HAHR1 and Hahb-4. Theresults obtained indicate that Phe47, but not Ile47, allowsbinding to 5'-CATT(A/T)AATG-3'. However, the preference forthis sequence is determined, in addition, by amino acids locatedC-terminal to residue 53 of the HAHR1 homeodomain. A doublemutant of Hahb-4 (Ile47 $->$ Phe/Ala54 $->$ Thr) shows the same bindingbehavior as HAHR1, suggesting that combinatorial interactionsof amino acid residues at positions 47 and 54 of the homeodomainare involved in establishing the affinity and selectivity ofplant dimeric homeodomain proteins with different DNA targetsequences.

^* To whom correspondence should be addressed. Tel: +54 342 4575219;Fax: +54 342 4575219; Email: dhgonza{at}fbcb.unl.edu.ar

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