The use of suppression subtractive hybridization in the identification of a novel gene encoding a protein containing a BTB-POZ domain in the Mediterranean fruit fly, Ceratitis capitata

Untalan, Pia Marie

12 1900

Differential gene expression plays a key role in developmental pathways within an organism. Examples of such pathways include primary sex determination signaling and the formation of secondary sexual characteristics. This dissertation is focused on the use of suppression subtractive hybridization (SSH) to identify genes that are differentially expressed and involved in some aspect of sexual development in the Mediterranean fruit fly (medfly), Ceratitis capitata. In the course ofthis project, a method for sexing individual specimens from pre-adult stages was developed. This method was used to collect sex-specific RNAs at different developmental stages for use in SSH. A total of25 subtraction products were obtained across all the stages examined. Analysis of these products revealed that approximately half were similar to cytoplasmic ribosomal proteins and mitochondrial ribosomal RNA The remaining products represent putative medfly homologs of other previously identified genes or potentially novel genes One ofthe subtraction products, representing a potentially novel gene, was characterized in detail. This gene, named mapotge', represents a novel medfly gene that appears to encode a polypeptide of 299 amino acids. The N-terminus of this polypeptide contains a BTB-POZ domain. This domain functions as a protein-protein interaction motif found in a wide range of organisms from humans to Drosophila that mediates protein dimerization and oligomerization. The temporal expression pattern of mapotge' was determined using RT-PCR and Northern blot analysis. These revealed that the transcript is expressed throughout embryogenesis in both females and males, and in adult females that are > 0.5 days post-eclosion. Minimal expression is observed in female and male third instar larvae, early pupae, and in adult males. Studies were also initiated to characterize the representation of additioual sequences containing a BTB-POZ domain in the medfly genome. This was performed using Southern blot analysis and degenerate primers for the polymerase chain reaction (PCR). These results indicate the presence of at least three sequences in the medfly, in addition to 'mapotge', that contain a BTB-POZ domain. Potential evolutionary relationships ofthe BTB-POZ domain sequences from the medfly and other insect species were also analyzed.

Ceratitis capitata

Suppression subtractive hybridization

BTB-POZ domain

Mediterranean fruit fly

Molecular biology

Characterization of activation tagged potato (Solanum tuberosum L.) mutants

Aulakh, Sukhwinder Singh

02 November 2012

Generation and characterization of activation tagged potato mutants could aid in functional genomic studies. Morphological and molecular studies were conducted to compare potato cv. Bintje, its two mutants, underperformer (up), and nikku generated using the activation tagging vector pSKI074, and nikku revertant plants. Mutant up exhibited a dwarf phenotype (plant height 42 cm vs. 73 cm in cv. Bintje), abundant axillary shoot growth (3.1 shoots/plant compared to 0.7 shoots/plant in cv. Bintje; in vitro plants), greater tuber yield, altered tuber traits and early senescence compared to wild-type Bintje under in vitro conditions. Under in vivo conditions, the dwarf and early senescence phenotypes of the mutant were consistent, but the tuber yield of up was less (250 g/plant compared to 610 g/plant in wild-type Bintje) and had fewer axillary shoots compared to wild-type (1.9 shoots/plant in up vs. 4.7 shoots/plant in Bintje). Mutant nikku plants exhibited an extremely dwarf phenotype (plant height 2 cm in nikku vs. 6 cm in Bintje), had small hyponastic leaves, were rootless, and infrequently produced small tubers when compared to cv. Bintje. The overall nikku phenotype was suggestive of a constitutive stress response, which was further supported by the higher expression levels of several stress-responsive genes in nikku. The nikku revertant plants exhibited near normal stem elongation, larger leaves and consistent rooting, and it was a case of partial reversion. Southern blot analyses indicated the presence of single T-DNA insertions on chromosome 10 in the up and on chromosome 12 in the nikku mutant. The reversion in the nikku plants was not associated with the loss of enhancer copies from the original nikku mutant. Reverse transcriptase PCR analyses indicated transcriptional activation/repression of several genes in the up and nikku mutants, suggesting pleiotropic effects. In revertant, the expression levels of several genes which were differentially regulated in the nikku mutant were similar to Bintje. The gene immediately flanking the right border of the T-DNA insertion, which encoded a novel BTB/POZ (Broad complex, Tramtrac, Bric a brac; also known as Pox virus and Zinc finger) domain-containing protein, was highly up-regulated in the up mutant. This protein domain plays an important role in several important developmental, transcriptional and regulatory pathways. The mRNA-seq analyses resulted in 1,632 genes that were differentially expressed between mutant up and Bintje and the total number of up-regulated genes (661) were less than the number of genes down-regulated (971 genes) in the up mutant. Further analyses indicated that a variety of biological processes including decreased cell division, cell cycle activity, and abiotic stress responses were modified in the up mutant. In the nikku mutant, two potato genes, encoding an Acyl-CoA N-acyltransferases (NAT) superfamily protein, and a predicted major facilitator superfamily protein (MFS) were identified and overexpression lines Bintje/35S::NAT1 and Bintje/35S::PMT1 were created for recapitulation of the nikku mutant phenotype. Methylated DNA-PCR between the nikku and the revertant indicated a change in methylation status of the 35S enhancers, suggesting that the nikku revertant phenotype may be associated with some epigenetic modification. / Ph. D.

GCN5

Sugar transporter

revertant

methylation

Solanaceae

BTB/POZ domain

RNA-seq