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1. 20.109(F15):Student registration and questionnaire
2. 20.109(F15): TA's notes for module 3
3. 20.109(F15): TA notes for module 2
4. 20.109(S16)
5. 20.109(S16):20.109 Class Blog summary page
6. 20.109(S16):Assess protein function (Day8)
7. 20.109(S16):Battery assembly and testing (Day5)
8. 20.109(S16):Begin Western blot protein analysis and choose system conditions (Day2)
9. 20.109(S16):Cathode construction (Day3)
10. 20.109(S16):Cell preparation for DNA repair assays (Day5)
11. 20.109(S16):Characterize protein expression (Day7)
12. 20.109(S16):Complete Western and prepare damaged DNA (Day3)
13. 20.109(S16):DNA repair assays (Day6)
14. 20.109(S16):Data analysis (Day9)
15. 20.109(S16):Design mutation primers (Day2)
16. 20.109(S16):Flow cytometry and paper discussion (Day7)
17. 20.109(S16):General lab policy
18. 20.109(S16):Growth of phage materials (Day1)
19. 20.109(S16):Guidelines for maintaining your lab notebook
20. 20.109(S16):Guidelines for oral presentations
21. 20.109(S16):Guidelines for working in the tissue culture facility
22. 20.109(S16):Guidelines for writing up your research
23. 20.109(S16):Homework
24. 20.109(S16):In situ cloning (Day1)
25. 20.109(S16):Induce protein expression (Day5)
26. 20.109(S16):Introduction to cell strains and plating (Day1)
27. 20.109(S16):Journal Club II (Day8)
28. 20.109(S16):Journal Club I (Day4)
29. 20.109(S16):Lab basics
30. 20.109(S16):Lab tour
31. 20.109(S16):Module 1
32. 20.109(S16):Module 2
33. 20.109(S16):Module 3
34. 20.109(S16):OWW basics
35. 20.109(S16):People
36. 20.109(S16):Prepare expression system (Day4)
37. 20.109(S16):Purify active materials (Day2)
38. 20.109(S16):Purify protein (Day6)
39. 20.109(S16):Research proposal presentation
40. 20.109(S16):Research proposal presentations (Day6)
41. 20.109(S16):Site-directed mutagenesis (Day3)
42. 20.109(S16):Statement on collaboration and integrity
43. 20.109(S16):Student registration and questionnaire
44. 20.109(S16):TEM (Day4)
45. 20.109(S16): Assignments
46. 20.109(S16): Biomaterials engineering report
47. 20.109(S16): Protein engineering presentation
48. 20.109(S16): Protein engineering summary
49. 20.109(S16): Spring 2016 schedule
50. 20.109(S16): System engineering report
51. 20.109(S16): TA notes for module 1
52. 20.109(S16): TA notes for module 2
53. 20.109(S16): TA notes for module 3
54. 20.109(S16): TA notes for orientation
55. 20.109(S18):SECONDARY ASSAY D2 (Day6)
56. 20.109(S22):M3D4
57. 20.109 Main Page
58. 20.309:DAQ System
59. 20.309:Learning outcomes
60. 20.309: Exam 1 Topics
61. 20.309 Main Page
62. 20.309 development to-do list
63. 20.345:Literature search
64. ANOID Project
65. Additional Resources
66. Aligning the optical trap
67. Alumni Page
68. Aperture and field stops
69. Assignment 10, Part 1: Measuring the osmotic shock response of yeast
70. Assignment 11: Tell us about your lab visit
71. Assignment 4 part 1: Make a fake image
72. Assignment 5: Spring 2020
73. Assignment 6, Part 1: build a two-color microscope
74. Assignment 6, Part 2: electronics written problems
75. Assignment 6, Part 3: Identifying unknown filter circuits
76. Assignment 6 Overview: two color microscope
77. Assignment 8, Part 2: build a two-color microscope
78. Assignment 8, Part 2: fabricate a microfluidic device
79. Assignment 8, Part 3: add flow control and test your device
80. Assignment 9, Part 3: Fitting your data
81. BEECH Main Page
82. BE Classroom Computer Documentation
83. BE TA Training(Su16):Homepage
84. BE TA Training (Su17)
85. BE TA Training (Su18)
86. BE TA Training (Su19)
87. Beech
88. Bode plots and frequency response
89. CM March14
90. CM March28
91. CRISPRi module, Part II: Increasing ethanol yield in E. coli MG1655
92. Capacitors and inductors
93. Cartridge Manipulation
94. Cell Printing
95. Cell Printing Experimentation
96. Complex Number Review
97. Confocal Wiki
98. Course Journal -- Nathan S Lachenmyer
99. Coursework
100. DAQ Ribbon Cable
101. DNA Melter Improvements
102. DNA Melting: DNA Sequences
103. DNA melting: Identifying the unknown sample
104. DNA melting lab wiki pages
105. Data Sheets
106. Deconvolved Image
107. Device Creation
108. Emmanuel Quiroz
109. Equipment on loan
110. Error analysis
111. Exam 2 study guide
112. FPGA Design Environment
113. Fall 2010: DNA melting report outline
114. Fall 2010: Problem Set 3
115. Fall 2010 Syllabus
116. Final Project -- Nathan S Lachenmyer
117. Final Projects
118. Hattie Chung
119. Inkjet Technologies
120. Intro Electronics Lab Report
121. Introduction
122. Key Project Elements
123. Key estimates
124. Lab 1 Report -- Nathan S Lachenmyer
125. Lab 2 Report -- Nathan S Lachenmyer
126. Lab Manual:Introduction to electronics
127. Lab Manual: SLA 3D-Printed Microfluidic Device Master Mold
128. Laser cutter safe operating procedure
129. Lecture Notes:Modeling real systems with ideal elements
130. MATLAB: Intensity-weighted centroid noise formula
131. MRI lab: FPGA controller documentation
132. MSD of Sum and Difference Trajectories
133. Main Page
134. Manta G032 camera measurements
135. March14
136. Matlab: Simulating Brownian motion
137. Methods
138. Microscope Objective Lenses
139. Microscopy report general guidelines
140. More info on BJC2100 Attempt
141. Nonlinear regression
142. Objective
143. Optical Microscopy: Part 1 Report Outline
144. Optical Microscopy: Part 2 Report Outline
145. Optical Microscopy: Part 3 Report Outline
146. Optical Microscopy: Part 4 Report Outline
147. Optical Trap Code
148. Optical Trap Graphs
149. Optical aberrations
150. Optical microscopy lab wiki pages
151. Optical trap
152. Papers
153. Papers to read
154. Part 3 Combined Report Outline
155. Particle Tracking Exercise
156. Photobleaching Model
157. Power spectral density
158. Probability and statistics
159. Problem Set 2
160. Problem Set 2 Fall 2010
161. Project ideas
162. Python:DNA melting data analysis
163. Python:Simulating DNA Melting
164. QRT-PCR
165. QRT-PCR:Get Started
166. QRT-PCR:Heated Lid
167. QRT-PCR:LabView-versions
168. Recording, displaying and saving images in MATLAB
169. Reference List
170. Resource list: Fiber optics
171. Results
172. Review of probability concepts
173. Save the curve to a USB memory stick
174. Simulating diffusing microspheres in MATLAB
175. Spring09:Todo list
176. Spring 11:CellPrinter
177. Spring 11:Chemotaxis Assay
178. Spring 11:Confocal Microscope
179. Spring 11:Directed Evolution
180. Spring 11:Directed Evolution/KAF95
181. Spring 11:Directed Evolution/Perfusion Chambers
182. Spring 11:Directed Evolution/Week of 3-14-2011 Status
183. Spring 11:Directed Evolution/Week of 3-21-2011 Status
184. Spring 11:Directed Evolution/Week of 3-28-2011 Status
185. Spring 11:Directed Evolution/Week of 4-04-2011 Status
186. Spring 11:Directed Evolution/Week of 4-11-2011 Status
187. Spring 11:Directed Evolution/Week of 4-18-2011 Status
188. Spring 11:Directed Evolution/Week of 4-25-2011 Status
189. Spring 11:Directed Evolution/Week of 5-02-2011 Status
190. Spring 11:Directed Evolution/Week of 5-09-2011 Status
191. Spring 11:QRT-PCR
192. Spring 11:QRT-PCR: Progress Notes
193. Spring 11:QRT-PCR weekly reports
194. Spring 11:SMR
195. Spring 11:eSTORM
196. Spring 11 ChemotaxisAssayWeeklyReports
197. Spring 11 Chemotaxis Assay Weekly Reports
198. Spring 2011:3D PSF lab:Kristin
199. Spring 2012:Leanna Morinishi Lit Search
200. Spring 2012:Vincent Lee Lab 1
201. Spring 2012:Vincent Lee Lab 2
202. Spring 2012: Williams Key Factors Table
203. Spring 2012 Bioinstrumentation Project Lab
204. Spring 2012 Bioinstrumentation Project Lab.
205. Spring 2020 Assignment 10
206. Spring 2020 Assignment 6
207. Spring 2020 Assignment 7
208. Spring 2020 Assignment 8
209. Spring 2020 assignment 10
210. TableTop MRI
211. Theory
212. Thermal Quenching Model
213. ThorLabs OTKB optical trapping kit
214. Todo List
215. Troubleshooting
216. Two-color Yeast Protocols
217. Weekly Progress Reports
218. Weekly Updates
219. Wikibodeplots.m

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