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Exploring Phylogeny in the Introductory Microbiology Lab. Mohammed Abbas (Schoolcraft College) Kuodi Jian (Metropolitan State University) Shaily Menon (Grand Valley State University) Randy Strobel (Metropolitan State University). Introduction.
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Exploring Phylogeny in the Introductory Microbiology Lab Mohammed Abbas (Schoolcraft College) Kuodi Jian (Metropolitan State University) Shaily Menon (Grand Valley State University) Randy Strobel (Metropolitan State University)
Introduction • A universal introductory lab in Microbiology involves identification of unknown microbes by students • Here, we enhance this activity by incorporating bioinformatics and phylogenetic analysis
Advantages of this approach • Adds an evolutionary component to an otherwise descriptive and physiological exercise • Students can compare a qualitative taxonomy technique with a more phylogenetic technique
Methods • First, students would be asked to fill in a matrix of organisms versus various morphological and physiological characteristics based on laboratory exercises done throughout the semester • Then they would use McClade to construct cladograms
Methods (contd) • Then, students would harvest sequences for an enzyme or marker where sequence information is available for all the species • Next, students would construct a molecular phylogeny using the sequence data • Finally, students would compare the two phylogenies and discuss evolutionary relationships
Case study • For purposes of demonstration, we chose a limited set of 7 microbes including the 3 domains (Archaea, Eukaryotes, Bacteria) • Within the bacteria we included a gram positive, gram negative, and an acid-fast organism • We chose glucokinase (hexokinase) presuming it would be a fairly ubiquitous enzyme and likely to be sequenced in these microbes [Note: Students would pick their own marker]
Amino Acid Sequences of Glucokinase for 7 Microbes >NP_645110.1 Staphylococcus aureus MYYIAIDIGGTQIKSAVIDKQLNMFDYQQISTPDNKSELITDKVYEIVTGYMKQYQLIQPVIGISSAGVV DEQKGEIVYAGPTIPNYKGTNFKRLLKSLSPYVKVKNDVNAALLGELKLHQYQAERIFCMTLGTGIGGAY KNNQGHIDNGELHKANEVGYLLYRPTENTTFEQRAATSALKKRMIAGGFTRSTHVPVLFEAAEEGDDIAK QILNEWAEDVAEGIAQIQVMYDPGLILIGGGISEQGDNLIKYIEPKVAHYLPKDYVYAPIQTTKSKNDAA LYGCLQ >NP_764788.1 Staphylococcus epidermidisMTDIILAADIGGTTCKLGIFDKDLEQLHKWSIDTDTSDHTGELLLKNIYNSFTEKIAEYKYDFNNVVGVGIGVPGPVDFDTGVVYGAVNLHWPDSVNVREIFKQYVNCPVYVDNDANVAALGEKHKGAGEGADDVVAITLGTGLGGGIISNGEIVHGHNGSGAEIGHLRADFDQRFQCNCGKSGCIETVASATGVVNLVNFYYPKLTFKSSILQLIKDNQVTAKAVFDAAKAGDQFCIFITEKVANYIGYLCSIISVTSNPKYIVLGGGMSTAGLILIENIKTEYRNLTFTPAQNNTEIVQAKLGNDAGITGAAGLIKTYIIDKEGAK >NP_416889.1 Escherichia coli K12MTKYALVGDVGGTNARLALCDIASGEISQAKTYSGLDYPSLEAVIRVYLEEHKVEVKDGCIAIACPITGDWVAMTNHTWAFSIAEMKKNLGFSHLEIINDFTAVSMAIPMLKKEHLIQFGGAEPVEGKPIAVYGAGTGLGVAHLVHVDKRWVSLPGEGGHVDFAPNSEEEAIILEILRAEIGHVSAERVLSGPGLVNLYRAIVKADNRLPENLKPKDITERALADSCTDCRRALSLFCVIMGRFGGNLALNLGTFGGVFIAGGIVPRFLEFFKASGFRAAFEDKGRFKEYVHDIPVYLIVHDNPGLLGSGAHLRQTLGHIL >AAL17915.1 Mycobacterium smegmatisIVRRAEKEFPVTGDAAVLRETVQDTVFGCLQGSPLCGVGVASAGLVDHTTGVLRRIDDQPGFSGYPIAASLTRLLGCPVFVDHRARLQVLGDRWFGHGIGRASFASVATGDTLGLGILFEGKVIAPLGGRSGAHITVALGGRRCSCGNLGCWKTIATSTWLRQEAATRGLGPIDGVGDLIAAARGDTGARRLMTDYADNLAVGLSSVQHLLAPGLYIVHGDAAAGGGTFLGRIEERLRAVSEWADFAERPRVVAADTAADDVALLGGAGLVLSRLSGQ >YP_005657.1 Thermus thermophilusMKVVGLDLGGTKIAAGVFDGKRLLSKVVVPTPKEGGERVAEALAEAAERAEREAGVRGEAIGLGTPGPLDFRRGVIRFAPNIPGVQDFPIRRILEEATGRPVFLENDANAAALAEHHLGAAQGEESSLYLTVSTGIGGGVVLGGRVLRGERGQGGELGHLTLLPGGPACGCGLEGCLEALAAGRALERDATYAFQRPVDTRELFRLFQAGDPKAERLVLQAARYVGIGLASLVKAFDPGVVVLGGGVALNAPEGYWEALLEAYRRYLQGWEAPPLRRARLGAEAGLLGAALTAYLEVKDGSG >NP_009890.1 Saccharomyces cerevisiaeMSFDDLHKATERAVIQAVDQICDDFEVTPEKLDELTAYFIEQMEKGLAPPKEGHTLASDKGLPMIPAFVTGSPNGTERGVLLAADLGGTNFRICSVNLHGDHTFSMEQMKSKIPDDLLDDENVTSDDLFGFLARRTLAFMKKYHPDELAKGKDAKPMKLGFTFSYPVDQTSLNSGTLIRWTKGFRIADTVGKDVVQLYQEQLSAQGMPMIKVVALTNDTVGTYLSHCYTSDNTDSMTSGEISEPVIGCIFGTGTNGCYMEEINKITKLPQELRDKLIKEGKTHMIINVEWGSFDNELKHLPTTKYDVVIDQKLSTNPGFHLFEKRVSGMFLGEVLRNILVDLHSQGLLLQQYRSKEQLPRHLTTPFQLSSEVLSHIEIDDSTGLRETELSLLQSLRLPTTPTERVQIQKLVRAISRRSAYLAAVPLAAILIKTNALNKRYHGEVEIGCDGSVVEYYPGFRSMLRHALALSPLGAEGERKVHLKIAKDGSGVGAALCALVA >NP_251883.1 [Pseudomonas aeruginosa PAO1]MNNDNKRSAGGLGLVGDIGGTNARFALWRGQRLESIEVLACADYPRPELAVRDYLARIGESVANIDSVCLACAGPVGAADFRFTNNHWVINRAAFREELGLDHLLLVNDFSTMAWAASRLGADELVQVRAGSAQADRARLIIGPGTGLGVGSLLPLGGGRWEVLPCEGGHVDLPVTSPRDFALWQGLQARYGHVSAERALSGNGLLALYEISCALDGVAVRASSAAEVGALAMAGDAQADAVLEHFFLWLARVAGNAVLTVGALGGVYITGGIVPRFLERFIASGFAEAFASRGKTSGAYLQDVPVWVMTAEHPGLLGAGVALQQALDAEG 45
Molecular Phylogeny Default output from a CLUSTALW alignment of the 7 microbe sequences
Conclusions • Plans are to implement this exercise this fall and update the Bioquest web page with results, modifications, and suggestions for use by others • Other groups have indicated plans to steal and implement our idea