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- BISC220/S12: Mod 3 Lab 11
- BISC220/S12: Mod 3 Lab 12
- BISC220/S12: Mod 3 Lab 8b
- BISC220/S12: Mod 3 Lab 9
- BISC220/S12: OWW Basics
- BISC220/S12: RasMol/ClustalW Write-up
- BISC220/S12: Resources
- BISC220/S12: The Michaelis-Menten Model
- BISC220/S12: Yeast Growth Predictions/BLAST
- BISC220/S12: Yeast Secretory Paper
- BISC220/S13
- BISC220/S13:General lab policy
- BISC220/S13:Guidelines for editing OpenWetWare
- BISC220/S13:Guidelines for literature search & source citation
- BISC220/S13:Guidelines for maintaining your lab notebook
- BISC220/S13:Guidelines for writing a lab report in the form of a scientific paper
- BISC220/S13:OpenWetWare
- BISC220/S13:Series 1
- BISC220/S13:Series 2
- BISC220/S13:Series 3
- BISC220/S13: Assignment 7
- BISC220/S13: Assignment 8
- BISC220/S13: Assignments
- BISC220/S13: Hitachi Spec Instructions
- BISC220/S13: Lab 2 Calculations
- BISC220/S13: Lab 3 Calculations
- BISC220/S13: Lab Calendars/Weekly Planner
- BISC220/S13: Linear Regression
- BISC220/S13: Media Recipes
- BISC220/S13: Mod 1 ClustalW Tutorial
- BISC220/S13: Mod 1 Lab 1
- BISC220/S13: Mod 1 Lab 2
- BISC220/S13: Mod 1 Lab 3
- BISC220/S13: Mod 1 Lab 4
- BISC220/S13: Mod 1 Media
- BISC220/S13: Mod 1 RasMol Tutorial
- BISC220/S13: Mod 1 Science Writing
- BISC220/S13: Mod 2 Background
- BISC220/S13: Mod 2 Lab 5
- BISC220/S13: Mod 2 Lab 6
- BISC220/S13: Mod 2 Lab 7
- BISC220/S13: Mod 2 Media Recipes
- BISC220/S13: Mod 3 Lab 10
- BISC220/S13: Mod 3 Lab 11
- BISC220/S13: Mod 3 Lab 12
- BISC220/S13: Mod 3 Lab 8b
- BISC220/S13: Mod 3 Lab 9
- BISC220/S13: OWW Basics
- BISC220/S13: RasMol/ClustalW Write-up
- BISC220/S13: Resources
- BISC220/S13: Sample Calculations Lab 2
- BISC220/S13: Standard Curve Instructions
- BISC220/S13: The Michaelis-Menten Model
- BISC220/S13: Yeast Growth Predictions/BLAST
- BISC220/S13: Yeast Secretory Paper
- BISC220/S14
- BISC220/S14:General lab policy
- BISC220/S14:Guidelines for editing OpenWetWare
- BISC220/S14:Guidelines for literature search & source citation
- BISC220/S14:Guidelines for maintaining your lab notebook
- BISC220/S14:Guidelines for writing a lab report in the form of a scientific paper
- BISC220/S14:OpenWetWare
- BISC220/S14:Series 1
- BISC220/S14:Series 2
- BISC220/S14: Lab Calendars/Weekly Planner
- BISC220/S14: Mod 1 ClustalW Tutorial
- BISC220/S14: Mod 1 Clustal Omega Tutorial
- BISC220/S14: Mod 1 Lab 1
- BISC220/S14: Mod 1 Lab 2
- BISC220/S14: Mod 1 Lab 3
- BISC220/S14: Mod 1 Lab 4
- BISC220/S14: Mod 1 Lab 5
- BISC220/S14: Mod 1 Media
- BISC220/S14: Mod 1 RasMol Tutorial
- BISC220/S14: Mod 1 Science Writing
- BISC220/S14: Mod 2 Background
- BISC220/S14: Mod 2 Lab 6
- BISC220/S14: Mod 2 Lab 7
- BISC220/S14: Mod 2 Lab 8
- BISC220/S14: Mod 2 Media Recipes
- BISC220/S14: OWW Basics
- BISC220/S14: Resources
- BISC220/S14: Standard Curve Instructions
- BISC220/S14: The Michaelis-Menten Model
- BISC311
- BISC311/F09:Series1
- BISC311/F09:Series2
- BISC311:Cloning
- BISC311:DNA amplification
- BISC311:Double-stranded RNA synthesis
- BISC311:People
- BISC311:Schedule
- BISC314
- BISC314/2010
- BISC314:Full Protocol
- BISC314:Lab1
- BISC314:Lab2
- BISC314:Lab3
- BISC314:Lab4
- BISC314:Lab5
- BISC314:Lab6
- BISC314:Lab7
- BISC314:Lab8
- BISC314:Lab 9
- BISC314:Laboratory Schedule
- BISC314:Lecture Syllabus
- BISC314:Materials
- BISC314:People
- BISC314:Schedule
- BISC 110/F10:OpenWetWare
- BISC 110/F11:OpenWetWare
- BISC 110/F12:OpenWetWare
- BISC 110/F13:OpenWetWare
- BISC 110/S11:OpenWetWare
- BISC 110/S12:OpenWetWare
- BISC 110/S13:OpenWetWare
- BISC 111/113
- BISC 111/113:Calendar and Assignments
- BISC 111/113:Experimental Methods
- BISC 111/113:Lab3assign2012.docx
- BISC 111/113:Lab 10: Laboratory Exam
- BISC 111/113:Lab 10: Population Growth 2
- BISC 111/113:Lab 11: Beetle Presentations
- BISC 111/113:Lab 11: Population Growth 2
- BISC 111/113:Lab 12: Beetle Presentations
- BISC 111/113:Lab 1: Biodiversity
- BISC 111/113:Lab 2: Population Growth
- BISC 111/113:Labs 3-6: Plant Biology
- BISC 111/113:Labs 7-9: Animal Biology
- BISC 111/113:Science Writing Guidelines
- BISC 111/113:Statistics and Graphing
- BISC 111/113: Labs 3-6 Plant Biology
- BISC 111/113:beetleLabMaterialsList.docx
- BISC 209/S12:OpenWetWare
- BISC 209/S13:OpenWetWare
- BISC 219/2009
- BISC 219/2009:Announcements
- BISC 219/2009:Assignments
- BISC 219/2009:Creating a Transgenic Organism
- BISC 219/2009:Gene Mapping
- BISC 219/2009:Glossary
- BISC 219/2009:Guidelines for editing OpenWetWare
- BISC 219/2009:OWW Basics
- BISC 219/2009:OpenWetWare
- BISC 219/2009:People
- BISC 219/2009:RNA interference
- BISC 219/2009:Resources
- BISC 219/2009:Schedule
- BISC 219/2009: Mod 1 C. elegans General Information
- BISC 219/2009: Mod 1 Lab 1
- BISC 219/2009: Mod 1 Lab 2
- BISC 219/2009: Mod 1 Lab 3
- BISC 219/2009: Mod 1 Lab 4
- BISC 219/2009: Mod 1 Lab 5
- BISC 219/2009: Mod 1 Lab 6
- BISC 219/2009: Mod 1 Media and Tools
- BISC 219/2009: Mod 3 Analyzing the data on the putative transgenic and control plants
- BISC 219/2009: Mod 3 Background
- BISC 219/2009: Mod 3 Calculations
- BISC 219/2009: Mod 3 Experiment 1 Creating the transgenic plant
- BISC 219/2009: Mod 3 Experiment 1 Creating the transgenic plant Days 3-5
- BISC 219/2009: Mod 3 Experiment 1 Creating the transgenic plant Week 4-5
- BISC 219/2009: Mod 3 Experiment 1 Creating the transgenic plant Week 8
- BISC 219/2009: Mod 3 Experiment 1 Media Recipes
- BISC 219/2009: Mod 3 Experiment 2 Assaying the transgenic plants
- BISC 219/2009: Mod 3 Experiment 3 Agarose gel electrophoresis of PCR
- BISC 219/2009: Mod 3 GUS Activity Assay by Histochemistry
- BISC 219/2009: Mod 3 Leaf Extract Preparation
- BISC 219/2009: Mod 3 Scientific Paper on Plant Genetic Engineering
- BISC 219/2009: Mod 3 Spectrophotometric Assay for GUS activity
- BISC 219/2009: Mod 3 Structural Evidence for Transgenic Plants
- BISC 219/F10
- BISC 219/F10:Assignments
- BISC 219/F10:Calendars/Planner
- BISC 219/F10:Gene Mapping
- BISC 219/F10:Glossary
- BISC 219/F10:Guidelines for editing OpenWetWare
- BISC 219/F10:Media Recipes
- BISC 219/F10:OWW Basics
- BISC 219/F10:OpenWetWare
- BISC 219/F10:Questions to Guide Your Reading1
- BISC 219/F10:RNA interference
- BISC 219/F10:RNAi General Information
- BISC 219/F10:Resources
- BISC 219/F10: Assignment 1 Lab1
- BISC 219/F10: Assignment Help- Data Analysis 1
- BISC 219/F10: Assignment Series2 Classical Genetics Paper
- BISC 219/F10: Assignment Series2 Complementation
- BISC 219/F10: Assignment Series2 DNA Sequencing
- BISC 219/F10: Assignment Series2 Linkage Testing Crosses
- BISC 219/F10: Assignment Series2 Mapping Crosses
- BISC 219/F10: Assignment Series2 Outline Summary
- BISC 219/F10: Assignment Series3 Materials and Methods
- BISC 219/F10: Assignment Series3 Reverse Genetics Paper using RNAi
- BISC 219/F10: Gene Linkage
- BISC 219/F10: Gene Mapping Info
- BISC 219/F10: Lab 2
- BISC 219/F10: Lab 2 Mutant Hunt
- BISC 219/F10: Lab 3
- BISC 219/F10: Lab 4
- BISC 219/F10: Lab 5
- BISC 219/F10: Lab 6
- BISC 219/F10: Lab 7
- BISC 219/F10: RNAi Lab 10
- BISC 219/F10: RNAi Lab 11
- BISC 219/F10: RNAi Lab 5
- BISC 219/F10: RNAi Lab 6
- BISC 219/F10: RNAi Lab 7
- BISC 219/F10: RNAi Lab 8
- BISC 219/F10: RNAi Lab 9
- BISC 219/F10: Worm Info
- BISC 219/F10 Lecture Syllabus
- BISC 219/F10 People
- BISC 219:OpenWetWare
- BISC 219: Assignment Help- Data Analysis 1
- BISC 219: Assignment Help- Materials and Methods
- BISC 219: Assignment Help- Partial Paper Mapping
- BISC 219: Assignment Help- RNAi full paper
- BISC 219: Assignment Help- Sequence Analysis
- BISC 219: Assignment Help- Transgenic plants research report
- BISC 219: Mod 2 Lab 4
- BISC 219: Mod 2 Lab 5
- BISC 219: Mod 2 Lab 6
- BISC 219: Mod 2 Lab 7
- BISC 219: Mod 2 Lab 8
- BISC 219: Mod 2 Media Recipes
- BISC 219: Mod 2 RNAi General Information
- BI 141/Fall 2013
- BI 141/Fall 2013:Resources
- BI 141/Fall 2013:Series1
- BI 141/Fall 2013: Series 1 Lab 1 Boot Camp
- BI 141/Fall 2013: Series 1 Lab 2 Tetrahymena Behavior
- BLAST
- BM10
- BM20
- BMBMethod
- BMBMethod/Oct21Minutes
- BMBMethod:AgroTransform
- BMBMethod:ArabiDNA
- BMBMethod:BacterialExpression
- BMBMethod:ChemicalTransformation
- BMBMethod:ChemicalTransformation2
- BMBMethod:CompetentCells
- BMBMethod:Equipment
- BMBMethod:EtOHDNA
- BMBMethod:Links
- BMBMethod:PCI
- BMBMethod:Past
- BMBMethod:Presentations
- BMBMethod:Protocols
- BMBMethod:Reagents
- BMBMethod:Schedule
- BMBMethod:TipsandTricks
- BMBMethod:lowry
- BMBMethod:silver
- BMBMethod:western
- BMB Seminar Series
- BMCB625
- BMCB625:Class Postmortem
- BMCB625:DNA Gyrase
- BMCB625:DNA Replication
- BMCB625:DNA Replication (New components)
- BMCB625:Discussion
- BMCB625:Discussion Rep Wk2
- BMCB625:Discussion Univ template
- BMCB625:Exon Jxn Complex
- BMCB625:Helicases
- BMCB625:Help
- BMCB625:How the class works
- BMCB625:Materials
- BMCB625:Mathematics in Biology
- BMCB625:Noncoding Y RNA
- BMCB625:Nucl Code Intro
- BMCB625:Nucleosome Coding
- BMCB625:Organizational Meeting
- BMCB625:People
- BMCB625:Schedule
- BMCB625:Severyn Qual Exam
- BMCB625:Topo
- BMCB625: noncoding RNA (Xist)
- BMCB625:ncRNA
- BMCB625:pdb analysis
- BMCB625:pol-Y (Excision Repair)
- BMCPub Download
- BMCPub Folders
- BMCPub MoreInfo
- BMCPub StartHere
- BME100 S2018
- BME100 f2013
- BME100 f2013:Logistics
- BME100 f2013:People
- BME100 f2013:Photos
- BME100 f2013:Projects1
- BME100 f2013:Projects2
- BME100 f2013:Projects3
- BME100 f2013:Projects4
- BME100 f2013:Projects5
- BME100 f2013:Projects6
- BME100 f2013:TEMPwu5
- BME100 f2013:TEMPwu6
- BME100 f2013:W1200 Group10 L1
- BME100 f2013:W1200 Group10 L2
- BME100 f2013:W1200 Group10 L3
- BME100 f2013:W1200 Group10 L4
- BME100 f2013:W1200 Group10 L5
- BME100 f2013:W1200 Group10 L6
- BME100 f2013:W1200 Group11 L1
- BME100 f2013:W1200 Group11 L2
- BME100 f2013:W1200 Group11 L3
- BME100 f2013:W1200 Group11 L4
- BME100 f2013:W1200 Group11 L5
- BME100 f2013:W1200 Group11 L6
- BME100 f2013:W1200 Group12 L1
- BME100 f2013:W1200 Group12 L2
- BME100 f2013:W1200 Group12 L3
- BME100 f2013:W1200 Group12 L4
- BME100 f2013:W1200 Group12 L5
- BME100 f2013:W1200 Group12 L6
- BME100 f2013:W1200 Group13 L1
- BME100 f2013:W1200 Group13 L2
- BME100 f2013:W1200 Group13 L3
- BME100 f2013:W1200 Group13 L4
- BME100 f2013:W1200 Group13 L5
- BME100 f2013:W1200 Group13 L6
- BME100 f2013:W1200 Group14 L1
- BME100 f2013:W1200 Group14 L2
- BME100 f2013:W1200 Group14 L3
- BME100 f2013:W1200 Group14 L4
- BME100 f2013:W1200 Group14 L5
- BME100 f2013:W1200 Group14 L6
- BME100 f2013:W1200 Group15 L1
- BME100 f2013:W1200 Group15 L2
- BME100 f2013:W1200 Group15 L3
- BME100 f2013:W1200 Group15 L4
- BME100 f2013:W1200 Group15 L5
- BME100 f2013:W1200 Group15 L6
- BME100 f2013:W1200 Group16 L1
- BME100 f2013:W1200 Group16 L2
- BME100 f2013:W1200 Group16 L3
- BME100 f2013:W1200 Group16 L4
- BME100 f2013:W1200 Group16 L5
- BME100 f2013:W1200 Group16 L6
- BME100 f2013:W1200 Group17 L1
- BME100 f2013:W1200 Group17 L2
- BME100 f2013:W1200 Group17 L3