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Are changes at ARP and KNOX genes responsible for the evolution of leaf form in Begonia section Gireoudia?Umbreen, Saima January 2011 (has links)
Leaf primordia initiation takes place at the flanks of SAM and then passes through common developmental stages. Very different final leaf shapes and sizes result from varying the timing and further patterning events within these developmental stages. Similar final leaf shapes may also result from very distinct early events. Begonia section Gireoudia is a recently radiated group of species with highly divergent leaf forms. I have used a classical genetic approach and candidate gene approach to explain the evolution of leaf form in this genus. These results suggest that convergent evolution of peltate leaves may be through changes at different loci. Key developmental regulators KNOX and ARP genes are reported to be involved in the evolution of leaf form in different species. I have shown that in at least one species ARP is linked to the evolution of peltate leaf form. In a second species there is no link between STM-like KNOX genes and leaf dissection. Estimates of the rate of evolution of ARP CDS showed that different domains of the genes are under different selection pressures. Myb domain2 of ARP genes is under positive selection and variable between two copies of ARP genes in Begonia. Results of complementation tests with Begonia ARP genes in Arabidopsis show that ARPs from Begonia are functionally equivalent to Arabidopsis AS1 genes and one of the two ARP genes in Begonia may be a dominant negative. Expression analysis based on insitu hybridization in compound, peltate and simple leaved Begonias is described. There is no variation in expression patterns between peltate, non peltate or compound leaved Begonia species for BARP1 and KNB1 genes.
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Developmental Changes in the Evolution of Fundamental Plant OrganographySanders, Heather Louise January 2007 (has links)
No description available.
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