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- 20.109(F08): Yeast transformation
- 20.109(F08): cDNA synthesis and microarray
- 20.109(F09): Mod 2 Day 3 Journal Club I
- 20.109(F09): Mod 2 Day 6 Journal Club I
- 20.109(F09): Mod 2 Day 6 Journal Club II
- 20.109(F10): Fall 2011 schedule
- 20.109(F12): Pre-proposal WF Pinkle
- 20.109(F12): WF Blue pre-proposal
- 20.109(F12): test pages
- 20.109(F12): test pages 2
- 20.109(F12) Pre-Proposal: Engineering Viral Magnetic Nanoparticles for Magnetic Hyperthermic Cancer Therapy
- 20.109(F12) Pre-proposal: Inducing Apoptosis with Sound
- 20.109(F13): Mod 2 Day 2 Tools for Systems Biology
- 20.109(F13): Mod 2 Day 6 Transfection of SH2 Domains
- 20.109(F13): Tools for Systems Biology (Day2)
- 20.109(F14):OpenWetWare
- 20.109(F14): Fall 2012 schedule
- 20.109(F14): Mod 1 Day 6 Lipofection and paper discussion
- 20.109(F14): Practice Virtual Lab
- 20.109(F14): Slides for Journal Club Presentation
- 20.109(F14): System engineering report
- 20.109(F15): DNA engineering methods
- 20.109(F16):Test comet chip assay variables (Day3)
- 20.109(F16): DNA engineering presentation
- 20.109(F16): TA notes for M12
- 20.109(F18):Evaluate cell loading experiment and treat cells for genomic instability experiment (Day3)
- 20.109(F18):Image sub-nuclear foci assay
- 20.109(F18):Image sub-nuclear foci assay (Day6)
- 20.109(F19):Complete in silico cloning (Day1)
- 20.109(F19):Confirm gRNA sequence in pgRNA(Day5)
- 20.109(F19):Guidelines for working in the tissue culture facility
- 20.109(F21):Announcements
- 20.109(S07): Building phage nanowires
- 20.109(S07): Growth of phage materials
- 20.109(S07): Testing redesigned genomes
- 20.109(S08): Fall 2007 schedule
- 20.109(S09):OpenWetWare
- 20.109(S11): Spring 2010 schedule
- 20.109(S14): Spring 2013 schedule
- 20.109(S15):Data analysis and paper discussion (Day6)
- 20.109(S15): Mod 3 Day 1 Growth of phage materials
- 20.109(S15): Mod 3 Day 1 Growth of phage materials (Day 1)
- 20.109(S17):Guidelines for working in the tissue culture facility
- 20.109(S17): Fall 2016 schedule
- 20.109(S18):SECONDARY ASSAY D2 (Day6)
- 20.109(S19):Guidelines for working in the tissue culture facility
- 20.109(S19): M1 Mini-presentation
- 20.109(S20):Guidelines for working in the tissue culture facility
- 20.109(S20):Journal club presentation (Day4 and 6)
- 20.109(S21):M3D5
- 20.109(S22):M3D4
- 20.109 (S07): Atomic force microscopy
- 20.109 (S07): Transmission electron microscopy
- 20.109 Main Page
- 20.309:Learning outcomes
- 20.309: Exam 1 Topics
- 20.309 Assignment 1: Optics bootcamp
- 20.309 development to-do list
- 20.345:Key Factors Table
- 20.345:Literature search
- 20.345: Wiki guidelines
- ANOID Project
- Aligning the optical trap
- Alumni Page
- Assignment 10 Overview
- Assignment 2: epi illuminator for fluorescence microscopy
- Assignment 2 Part 4: Fluorescent imaging of actin
- Assignment 6, Part 3: Identifying unknown filter circuits
- Assignment 7: Amplifiers and feedback
- BEECH Main Page
- BE Classroom Computer Documentation
- BE TA Training(Su16):Homepage
- BE TA Training (Su17)
- BE TA Training (Su18)
- BE TA Training (Su19)
- Beech
- Bode plots and frequency response
- Bryan Hernandez/20.109/Lab notebook/Module 1/Day 2
- Bryan Hernandez/20.109/Lab notebook/Module 1/Day 3
- Bryan Hernandez/20.109/Lab notebook/Module 1/Day 4
- Bryan Hernandez/20.109/Lab notebook/Module 1/Day 5
- Bryan Hernandez/20.109/Lab notebook/Module 1/Day 6
- Bryan Hernandez/20.109/Lab notebook/Module 2/Day 2
- CRISPRi module, Part II: Increasing ethanol yield in E. coli MG1655
- Capacitors and inductors
- Cellular microrheology
- Creating 20.109(S17):Scan slides to identify FKBP12 binders (Day5)
- DNA Melter Improvements
- DNA Melting: Using the Matlab DNAMelter GUI
- DNA Melting II: Using the Matlab DNALockIn GUI
- DNA melting lab wiki pages
- Data Sheets
- Deconvolved Image
- ESTORM
- Equipment on loan
- Error analysis
- Estimating second order system parameters from noise power spectra using nonlinear regression
- Exam 2 study guide
- Fall 2010: DNA melting report outline
- Fall 2010: Problem Set 3
- Fall 2010 Syllabus
- Fall 2012: Journal Presentations
- Final Projects
- Finding and measuring things
- Geometrical Optics
- Intro Electronics Lab Report
- Lab Manual: SLA 3D-Printed Microfluidic Device Master Mold
- Laser cutter safe operating procedure
- Lecture Notes:Modeling real systems with ideal elements
- Limits of Detection:Report Requirements
- MATLAB: Estimating viscoelastic spectrum using Mason's method
- MATLAB: Intensity-weighted centroid noise formula
- MRI lab: FPGA controller documentation
- March14
- Matlab:Image Processing for Fluorescent Microscopy
- Matlab: Simulating Brownian motion
- Measuring biological forces mini-lab
- Measuring optical magnification
- Microscope Objective Lenses
- Nonlinear regression
- Optical Microscopy: Brownian motion and microscopy stability
- Optical Microscopy Data Sheets
- Optical resolution
- Optical trap
- Papers
- Papers to read
- Photobleaching Model
- Power spectral density
- Probability and statistics
- Problem Set 1
- Problem Set 2
- Problem Set 2 Fall 2010
- Procedure: Diffusion in biological gels
- Procedure: Particle tracking
- Procedure: Peptide-DNA Tethering Assay
- Project ideas
- Protocols for making microscopy samples
- QRT-PCR:Get Started
- Resource list: Fiber optics
- Resource list: Image Enhancement
- Resource list: Image processing
- Resource list: Matlab
- Resource list: Microscopy
- Resource list: Particle tracking
- Simulating diffusing microspheres in MATLAB
- Spring 11:CellPrinter
- Spring 11:Confocal Microscope
- Spring 11:SMR
- Spring 11 ChemotaxisAssayWeeklyReports
- Spring 11 Chemotaxis Assay Weekly Reports
- Spring 2011:CellFinder
- Spring 2011:Optical Trapping Lab
- Spring 2012:Snot
- Spring 2012: Jonathan Gootenberg STORM
- Spring 2012: Real Time qPCR
- Spring 2012 Bioinstrumentation Project Lab.
- Spring 2020 assignment 10
- TableTop MRI
- Technical Writing
- Temporary Optics Bootcamp
- Thermal Quenching Model
- ThorLabs OTKB optical trapping kit
- Todo List
- Two-color Yeast Protocols
- Using CRISPRi to increase ethanol yield in E. coli MG1655
- Using nonlinear regression to create a camera specification sheet
- Using tfest to find a system model