Multiple AGAMOUS homologs from cucumber and petunia differ in their ability to induce reproductive organ fate
Articolo
Data di Pubblicazione:
1998
Citazione:
Multiple AGAMOUS homologs from cucumber and petunia differ in their ability to induce reproductive organ fate / M. Kater, L. Colombo, J. Franken, M. Busscher, S. Masiero, M.M. Van Lookeren Campagne, G.C. Angenent. - In: PLANT CELL. - ISSN 1040-4651. - 10:2(1998), pp. 171-182. [10.2307/3870696]
Abstract:
The C function in Arabidopsis, which specifies stamen and carpel identity, is represented by a single gene called AGAMOUS (AG). From both petunia and cucumber, two MADS box genes have been isolated. Both share a high degree of amino acid sequence identity with the Arabidopsis AG protein. Their roles in specifying stamen and carpel identity have been studied by ectopic expression in petunia, resulting in plants with different floral phenotypes. Cucumber MADS box gene 1 (CUM1) induced severe homeotic transformations of sepals into carpelloid structures and petals into stamens, which is similar to ectopic AG expression in Arabidopsis plants. Overexpression of the other cucumber AG homolog, CUM10, resulted in plants with partial transformations of the petals into antheroid structures, indicating that CUM10 is also able to promote floral organ identity. From the two petunia AG homologs pMADS3 and Floral Binding Protein gene 6 (FBP6), only pMADS3 was able to induce homeotic transformations of sepals and petals. Ectopic expression of both pMADS3 and FBP6, as occurrs in the petunia homeotic mutant blind, phenocopies the pMADS3 single overexpresser plants, indicating that there is no additive effect of concerted expression. This study demonstrates that in petunia and cucumber, multiple AG homologs exist, although they differ in their ability to induce reproductive organ fate.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
Solanaceae ; DNA-Binding Proteins ; Amino Acid Sequence ; Plant Proteins ; Cucumis sativus ; Transcription Factors ; Sequence Alignment ; MADS Domain Proteins ; Molecular Sequence Data ; AGAMOUS Protein, Arabidopsis ; Arabidopsis ; Gene Expression Regulation, Plant ; Sequence Homology, Amino Acid ; Gene Expression Regulation, Developmental
Elenco autori:
M. Kater, L. Colombo, J. Franken, M. Busscher, S. Masiero, M.M. Van Lookeren Campagne, G.C. Angenent
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