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Heterologous expression of MBP1 from C. albicans in S. cerevisiae: A nontraditional approach Gregory Fischer Julie Anderson Daniel Herman Department of Biology University of Wisconsin-Eau Claire Background MBP1 Toxicity in Bacteria Cases of hospital-acquired fungal infections, such as oropharyngeal candidiasis (OPC), continue to increase (Figure 1). Recent studies of ICU fungal infections consistently find C. albicans to be the predominant yeast species isolated (Figure 2) (Shoham, et al., 2009). Studies have identified CPH1 and EFG1 proteins as essential for morphogenesis of C. albicans. Understanding the role certain proteins play in morphogenesis may lead to new therapies (HsiuJung, et al., 1997) (Figures 3 and 4). There is evidence that MBP1 plays a role in the filamentous growth of C. albicans and is similar in sequence to the S. cerevisiae MBP1 gene. Detecting MBP1 Construct via PCR Restriction mapping to verify the integrity of the MBP1 insert confirmed the sequence was maintained before transformation into bacteria (Figure 5). Post-transformation digests of extracted plasmid found that sequence fidelity was lost. Enzymatic digest of transformant plasmid was unsuccessful due to loss of restriction sites in and around the insert site (Figure 6). MBP1 was digested into two fragments (1.6 kb and 900 bp), ligated into the pESC vectors, and transformed into bacteria. Results confirmed DNA integrity was maintained (Figure 7). Therefore, full-length MBP1 seems to be toxic to bacteria. By preferentially amplifying a specific region of the vector, the PCR product will confirm if the plasmid was extracted and whether the MBP1 insert is present. 5’ Distribution of Colonizing and Infecting Candida Species in ICU Patients Expected Fragments 1 Sal1/Xho1 2.5 kb Yes No 2 BamH1 1.6 kb, 4.8 kb Yes No 3 Xba1 5.1 kb, 800 bp, 500 bp Yes No 2.5 kb, 3.9 kb Yes 4 HindIII MBP1 Insert (2.5 kb) MCS2 5’ 20% 2 3 No 4 15% 10% 10% GAL10R Primer 1 2 3 MCS1 5’ PGAL10 4 1,000 bp region 4% DNA inserts are ligated into the vectors at one of two multiple cloning sites (MCS1 or MCS2). Then, expression of the insert DNA is driven by the respective promoter (PGAL1 or PGAL10) upstream of the insert DNA. With the addition of galactose to drive gene expression, the insert protein product should be produced. 0% C. albicans C. parapsilosis C. glabrata Candida Species C. tropicalis C. k rusei Shoham, et al., 2009 We have found MBP1 to be toxic to bacteria, therefore traditional methods for obtaining the expression construct will not work. A new protocol is being used where S. cerevisiae is transformed directly with the vector construct and cultured on selective media. Vector is then isolated and PCR amplified to confirm presence of MBP1. Results of this work will contribute to our understanding of yeast morphogenesis and provide a protocol for studying genes that are toxic to bacteria. Transform into bacteria Leu Figure 6: Restriction Digests of Vector Constructs Containing MBP1 DNA from Figure 5. Notice how complete loss of restriction sites was observed, confirming the loss of sequence integrity in MBP1, suggesting it is toxic in bacteria. Figure 5: Restriction Digests of MBP1 Fragments to Confirm Sequence integrity. From the gel, all expected DNA fragments were accounted for, confirming DNA sequence integrity. Leu MR MF MR Leu MR Leu MR Ura MR Ura MR Figure 7: Restriction Digest Results of MBP1 Fragment Ligations. Sixty-six bacterial colonies had pESC-Leu and Ura vector extracted and digested after the ligation of gene fragments (MF and MR) into the vector and transformation into the bacteria. These results indicate that fulllength MBP1 is toxic to bacteria, while fragments of MBP1 are not. Hsiu-Jung, et al., 1997 Figure 4: C. albicans cph1/cph1, efg1/efg1 ∆ Mutant Virulence Assay. Varying concentrations of nonfilamentous C. albicans with nonfunctional CPH1 and EFG1 were injected into mice for ∆, 1x107; x, 1x106; +, 1x105; o, 1x104. Ura •MBP1 Present: 3.5 kb PCR product •No Insert: 1.0 kb PCR product Ura MF Ura MF Ura MF Leu MF Leu MR MF MR Ura MF Ura MF Ura MF MF MR MF MR Leu MR Leu MF 10L Figure 8: Gel Electrophoresis of Control Vector Samples of pESC-LEU and pESC-URA. Amplification of control samples of both LEU and URA vectors revealed successful amplification of the desired region. However, a PCR test of one sample (10L) did not produce any product. This could be due to insufficient template addition, inadequate DNA extraction from yeast cells, or contamination within the template. Further investigation needs to be carried out in order to use PCR to analyze sample extracts. Morphogenesis of C. albicans Figure 3: C. albicans Wild-type Virulence Assay. Varying concentrations of filamentous yeast with functional CPH1 and EFG1 were injected into mice for ∆, 1x107; x, 1x106; +, 1x105; o, 1x104. GAL1R Primer Direction of DNA Synthesis 3’ 1 3’ PGAL1 5’ 40% Hsiu-Jung, et al., 1997 1. Denaturation of Template 2. Primer Annealing 3. DNA Synthesis 5’ 25% 5’ PGAL10 46% 30% 3’ MCS1 Fragments Observed Fragments Observed in Gel? in Gel? Before Transformation After Transformation (Fig 5) (Fig 6) PCR % of Fungal Infection Cases Figure 2: Distribution of Isolated Yeast Species in ICU Fungal Infections. Recent studies have found that the predominant yeast species isolated in fungal infections to be C. albicans. 50% Enzymes MBP1 Digested With pESC-URA & LEU Vector PGAL1 3’ Lane Leu/Ura AmpR MCS2 Table 1: Restriction Digests Setup of MBP1 Before and After Transformation into Bacteria. Figure 1:Illustration of Oropharyngeal Candidiasis Infection Fungal infections, such as OPC, have increased in recent years as a result of increasing cases of HIV/AIDS and antifungal resistant strains. ori This faculty/student research collaboration was made possible through Differential Tuition and a generous grant from the Office of Research and Sponsored Programs. Future Work PCR confirmation of pESC-LEU/URA-MBP1 construct. Introduction of MBP1 into S. cerevisiae mbp1 ∆ strain. A Western Blot procedure to verify the expression of MBP1 in S. cerevisiae. Observation of altered phenotypes due to the expression of MBP1, for example differences in the cell morphology and changes in the regulation of cell division. Development of a simple protocol using yeast to obtain vector constructs with genes known to be toxic to bacteria.