20.109(F07): TA's notes for module 2: Difference between revisions

From OpenWetWare
Jump to navigationJump to search
No edit summary
 
(18 intermediate revisions by 2 users not shown)
Line 5: Line 5:
Before term begins:
Before term begins:
# Check that all links on all wiki pages for expression engineering modulre properly direct to current version of class and to working webpages. Fix broken ones.  
# Check that all links on all wiki pages for expression engineering modulre properly direct to current version of class and to working webpages. Fix broken ones.  
# Order siRNAs in advance of module. These can take a while. The sequences are found in the following [http://www.ncbi.nlm.nih.gov/sites/entrez?Db=pubmed&Cmd=ShowDetailView&TermToSearch=17012216&ordinalpos=1&itool=EntrezSystem2.PEntrez.Pubmed.Pubmed_ResultsPanel.Pubmed_RVDocSum| publication]. When they arrive, <b> use gloves to handle in RNase free way</b>, spin briefly in microfuge to bring contents to bottom of tube then freeze as dry pellets. Dilute to 0.1 nmoles/ul as follows: for each siRNA mix 40 ul of 5x siRNA buffer from Dharmacon with 160 ul RNAase free water (these are stored at RT in RNA drawer), then add this volume to tube with siRNA. Vortex briefly then aliquot into RNase-free tubes (20 ul/tube), numbered "1 of 10" "2 of 10" etc. Store at -20 with rest of materials for module. Day of lab, <b> dilute 1:10 in OptiMEM</b> in hood in sterile tubes for working concentration of 10 pmoles/ul. Students will need 1 ul of working conc / transfected well in 6 well dish.
# Pre-run the design instructions for day one on all six sections of luciferase and confirm that the students will pick the siRNAs that we plan to order. <b> It's SO important to know if the siRNAs are different, since these are the ones the students must follow all the way through the module</b>. Analysis at the end of the module is much harder if the student's designs aren't the ones they actually use.
# Order siRNAs in advance of module. These can take a while. You can cut and paste the sequences from [[Media:StudentsiRNAs.ppt| here]]. Also the sequences are found in the following [http://www.ncbi.nlm.nih.gov/sites/entrez?Db=pubmed&Cmd=ShowDetailView&TermToSearch=17012216&ordinalpos=1&itool=EntrezSystem2.PEntrez.Pubmed.Pubmed_ResultsPanel.Pubmed_RVDocSum| publication]. When they arrive, <b> use gloves to handle in RNase free way</b>, spin briefly in microfuge to bring contents to bottom of tube then freeze as dry pellets. Dilute to 0.1 nmoles/ul as follows: for each siRNA mix 40 ul of 5x siRNA buffer from Dharmacon with 160 ul RNAase free water (these are stored at RT in RNA drawer), then add this volume to tube with siRNA. Vortex briefly then aliquot into RNase-free tubes (20 ul/tube), numbered "1 of 10" "2 of 10" etc. Store at -20 with rest of materials for module. Day of lab, <b> dilute 1:10 in OptiMEM</b> in hood in sterile tubes for working concentration of 10 pmoles/ul. Students will need 1 ul of working conc / transfected well in 6 well dish.
# Streak out NB165 on LB+Amp. This strain has psiCHECK2 dual luciferase plasmid. Make 4 overnight cultures (each 2.5 ml LB+amp). Miniprep these for the plasmid DNA using Qiagen DNA miniprep kit. Elute each with 50 ul EB then pool. Measure concentration of 2.5 ul in 500 ul H2O (1:200 dilution). <b> done for F'07:</b> A260 of 1:200 was 0.02, giving <b>stock conc of 0.2 ug/ul = 200 ng/ul</b> using 1 OD = 50 ug/ml. Day of lab, <b> dilute 1:10 in OptiMEM</b> in hood in sterile tubes for working concentration of 20 ng/ul. Students will need 1 ul of working conc / transfected well in 6 well dish.   
# Streak out NB165 on LB+Amp. This strain has psiCHECK2 dual luciferase plasmid. Make 4 overnight cultures (each 2.5 ml LB+amp). Miniprep these for the plasmid DNA using Qiagen DNA miniprep kit. Elute each with 50 ul EB then pool. Measure concentration of 2.5 ul in 500 ul H2O (1:200 dilution). <b> done for F'07:</b> A260 of 1:200 was 0.02, giving <b>stock conc of 0.2 ug/ul = 200 ng/ul</b> using 1 OD = 50 ug/ml. Day of lab, <b> dilute 1:10 in OptiMEM</b> in hood in sterile tubes for working concentration of 20 ng/ul. Students will need 1 ul of working conc / transfected well in 6 well dish.   
# LAR/Stop and Glo: check -20 for aliquots and if needed order more.   
# LAR/Stop and Glo: check -20 for aliquots and if needed order more.   
Line 17: Line 18:
# Confirm the microarray slides have been ordered.
# Confirm the microarray slides have been ordered.
# Confirm the scanner is available for needed days.
# Confirm the scanner is available for needed days.
# Confirm Genisphere kit has been ordered.  
# Confirm Genisphere kit has been ordered.


==Daily Notes==
==Daily Notes==
Line 24: Line 25:
# need siRNAs ordered, have copy of spec sheets available so students can compare their design to what was ordered.
# need siRNAs ordered, have copy of spec sheets available so students can compare their design to what was ordered.
# in preparation for lab on Day 2 you will also be seeding some 6 well dishes with J1 cells, grown in the absence of antibiotics (pre-txn media)...so be sure to look ahead to day 2 prep as well.
# in preparation for lab on Day 2 you will also be seeding some 6 well dishes with J1 cells, grown in the absence of antibiotics (pre-txn media)...so be sure to look ahead to day 2 prep as well.
# think through need for high G and low delta G in target sequence. <b>Want area targeted to be naturally unfolded </b>rather than all scrunched up. Since taking folded structure and unfolding it would take energy, presume unfolded to folding would release energy and so unfolded would have low G value and folded would have high G value. Going from unfolded to folded would have negative delta G.


Day of lab:
Day of lab:
Line 31: Line 33:
# In cell culture facililty:
# In cell culture facililty:
#* each student will need 25 cm2 flask of ~ confluent J1 cells. So for lab of 12 students, prep 15 flasks so there can be 2 demo flasks as well and a back up flask in case of mistakes.  
#* each student will need 25 cm2 flask of ~ confluent J1 cells. So for lab of 12 students, prep 15 flasks so there can be 2 demo flasks as well and a back up flask in case of mistakes.  
#* place hemacytometers and 20 ul pipet and box of tips by microscopes.
#* aliquot PBS, trypsin, gelatin, J1 growth media.
#* aliquot PBS, trypsin, gelatin, J1 growth media.
** for Fall 2007 aliquots were:
*** 14 ml gelatin in 15 ml falcon, Marked "G"
*** 5ml trypsin in 15 ml falcon, Marked "T"
*** 12ml PBS in 15 ml falcon, Marked "P"
*** 15 ml growth media in 15 ml falcon, Marked "M". This was to stop trypsinisation.
***  10 ml growth media in 15 ml falcon, Marked "M2." This was to be used for dilution of cells that the students would plate in 6 well dishes.
<b>For each day of lab made 8 tubes like these, since only 6 students in TC at a time and the second crew used up the materials that the first group started. Other sets for teacher (needs only 1 demo set) and want at least one extra. Only exception: M2 tubes...need 12 of these/12 students since each student makes one dilution.</b>
*Preparation of J1 cells
**Cells for both days (Tues, Wed for eg) can both be plated on Mon, you just have to make sure that the cell density for the Wed's slot is lower when you seed the cells. 3 flasks of confluent T25 J1 cells should provide you enough cells for both days.
**For each confluenct T25 J1 cells, after trypsinisation, I resuspended them in 12ml of medium (this is my stock for Tues flask), take 1 ml of the stock and put it in a new flask containing 6ml of fresh medium (this is for the Tues student, you need to prepare at least X+2 flasks for a group of X student and for demonstration. Similarly, for the Wed group, I resuspended 1 confluent flask with 22ml of medium(this is my stock for the Wed's flask, note that it's more diluted than the Tues's stock), add 1 ml of stock to a new flask containing 6ml of fresh mediuim as described above.
**Note that the above described is a very BIG split, but J1 cells grow really very fast!


===[[20.109(F07): Transfection | Notes:Day 2]]===
===[[20.109(F07): Transfection | Notes:Day 2]]===
Before lab:  
Before lab:  
# Need to aliquot luciferase assay reagents.
# Need quiz for day of lab.
# Need to aliquot lipofectamine, and OptiMEM and any cell culture growth reagents.
# Need to aliquot psiCHECK plasmid and siRNAs. Each group needs minimum of 8 ul of diluted plasmid and 2 ul of diluted validated siRNA, and 2 ul of diluted scrambled siRNA and 4 ul of experimental siRNA. These are the minimal volumes.  
# Each pair will need 2 six-well dishes of ~50% confluent J1 cells, growing in pre-txn media. So for lab of 12 students thats 12 dishes plus one or two in case of mistakes.  
# Each pair will need 2 six-well dishes of ~50% confluent J1 cells, growing in pre-txn media. So for lab of 12 students thats 12 dishes plus one or two in case of mistakes.  
#* The most accurate rate to ensure that you have ~50% confluent J1 cells on the day of experiment is to try to grow some cells in advance to get a feel of how fast they grow and do the actual cell counting. For 20.109(F07), I resuspended one flask of fully confluent cell in 22ml of pre-transfection medium (this is my stock), take 1.5ml of stock and top up to 36ml with per-transfection medium. This 36ml is enough for me to plate two 6-well plate (3ml*6*2=36ml). I did this 2 days in advance (did on Sunday for Tuesday class). Cells for Wed class were also prepared on Sunday, I took 0.7ml of stock and top it up to 36ml with pre-transfection medium.
# Need to aliquot luciferase assay reagents (do this day of lab).
#* try 300 ul LARII/group and 300 ul Stop and Glo/group (20 ul/980 ul aliquots of buffer that are frozen -20).
#* try 50 ul of each sample/group. There should be 3 samples (1= no ff, no ren, 2 = high ff, high ren, 3 = high ff, lower ren)
#* all should be kept on ice until just before students try assays then move to RT
# Need to aliquot lipofectamine (50 ul/eppendorf, 12 eppendorfs/12 groups), and OptiMEM (1.4 ml/eppendorf) and any cell culture growth reagents
#* 30 ml PBS/falcon tube, 12 groups worth for both days of lab.
#* 14 ml Pre-Txn media/falcon tube, 12 groups worth for both days of lab.
# Need to aliquot psiCHECK plasmid and siRNAs (do this day of lab). Each group needs minimum of 8 ul of diluted plasmid and 4 ul of diluted validated siRNA, and 2 ul of diluted scrambled siRNA and 2 ul of experimental siRNA. These are the minimal volumes.
#* Plasmid dilution information: 
** stock plasmid (info is also above in "before the module starts" section): Streak out NB165 on LB+Amp. This strain has psiCHECK2 dual luciferase plasmid. Make 4 overnight cultures (each 2.5 ml LB+amp). Miniprep these for the plasmid DNA using Qiagen DNA miniprep kit. Elute each with 50 ul EB then pool. Measure concentration of 2.5 ul in 500 ul H2O (1:200 dilution).  done for F'07: A260 of 1:200 was 0.02, giving stock conc of 0.2 ug/ul = 200 ng/ul using 1 OD = 50 ug/ml.
** dilutions of plasmid: day of lab,  dilute 1:10 in OptiMEM in hood in sterile tubes for working concentration of 20 ng/ul. Students will need 1 ul of working conc / transfected well in 6 well dish. Aliquots of plasmid should have ~10 ul each so can add 90 ul of Optimem to two just before lab and aliquot ~ 25 ul/epp/group.
#* siRNA dilution information:
** stock siRNAs: These were ordered in 20 nmole quantities then diluted to 0.1 nmoles/ul as follows: for each siRNA mix 40 ul of 5x siRNA buffer from Dharmacon with 160 ul RNAase free water (these are stored at RT in RNA drawer), then add this volume to tube with siRNA. Vortex briefly then aliquot into RNase-free tubes (20 ul/tube), numbered "1 of 10" "2 of 10" etc. Stored at -20 with rest of materials for module.
**<b> each group will need one dilution of validated, one dilution of scrambled, and one dilution of student siRNA. </b>
** dilutions for siRNAs on day of lab,  dilute 1:10 in OptiMEM in hood in sterile tubes for working concentration of 10 pmoles/ul. Students will need 1 ul of working conc / transfected well in 6 well dish.
*** student siRNAs 1-6: dilute one of each for each day of lab by adding 180 ul Optimem just before lab.
*** validated and scrambled siRNAs: dilute two of each for each day of lab by adding 180 ul of Optimem just before lab and then aliquoting 40 ul/eppendorf into 6 eppendorf tubes.


Day of lab:
# Need quiz (all quizzes 2 or 3 questions, 5 points).
# Prewarm cell culture reagents in water bath or thaw DNA/RNA just before students will use them.
# Set up luminometers and luciferase assay reagents at RT.
# Thaw lysates to be used in luciferase assays and leave in ice bucket near luminometer. Aliquot so each student group has three samples: a -/- (i.e. no ff, no renilla), a +/+ (both ff and renilla), and a +/- (renilla knocked down).
Day after lab:
Day after lab:
# Change media on student's tranfection plates to 2 ml J1 growth media.
# Change media on student's tranfection plates to 3 ml J1 growth media.


===[[20.109(F07):_DNA_ligation_and_bacterial_transformation | Notes:Day 3]]===
===[[20.109(F07): Luciferase assays and RNA prep | Notes:Day 3]]===
Before lab:  
Before lab:  
# Have LB-Kan plates poured. Need 5/group = 60, 1L makes 30-40 plates, so need to make a couple liters.
# Set out luminometer if put away.
# Refill burners and jars with 100% ethanol
# Check there is sufficient bench paper.
# Put 3 open bottles of RNAse away at the front bench.
# Set up camera at dissecting microscope and set out card reader at front bench.  
# Aliquot 30 ml of room temperature PBS in 50 ml falcon tubes/group. Leave in the teaching lab for the students to use when they wash the cells there before lysis.
# Aliquot sterile water into 15 ml falcon tubes since the students can use this rather than RNase free water to measure RNA concentration.
# Just before lab: 5X PLB to 1X with sterile water in 15 ml falcon tubes. Use a new bottle of water, sterile pipets for measuring the PLB and wear gloves to aliquot to minimize RNase contamination. Need minimum of 6 ml /pair of students. Make 10 ml/pair so there is plenty (2 ml 5X PLB + 8 ml H20) Aliquot so each pair has 10 ml they need, i.e. don't have students using common stock.  
# Just before lab: prepare RLT with BME, each pair of students will need 1 ml aliquot (= 10 ul BME + 990 ul RLT). Make this in the hood wearing gloves and in new, never touched eppendorf tubes with an RNAse-away cleaned pipetmen or the RNA only pipetment.
# Just before lab: thaw luciferase reagents. Each student pair should get 800 ul LAR and 800 ul S+G. See notes of Day 2 for how to prepare S+G. The LAR, if frozen, should already be good to go. 


Day of lab:
Day of lab:
# Need quiz
# Need quiz
# '''Keep cold'''
# Set out RNeasy kit and quishredders. Do not include any reagents that are not needed or are incomplete (e.g. still need EtOH added to them) since students have used these accidentally in the past.
#* 70% ethanol, 6 x 15 ml falcon tubes
# Midway through lab retrieve quartz cuvettes and turn on UV lamp on spec.
#* 100% ethanol, 6 x 15 ml falcon tubes
# Don't forget to turn UV lamp of spec off before leaving lab for the day.
#* From -20&deg;C freezer:
# Freeze RNA samples at -20° in RNase-free box for next time. Should also freeze at -20° some of students luciferase lysates to use as samples next time module is run (label tubes 1 = -/- or 2 = +/+ or 3 = +/-)
#**students' inserts and backbone
Day after lab:
#**T4 DNA ligase, 3 aliquots in PCR tubes in cold-boxes
# Freeze some J1 cells for next time (see general notes above for details).  
#**T4 ligase buffer, has ATP so must be kept cold
#**BamHI, 2 aliquots in PCR tubes in cold-boxes
#**NEB Buffer 2
#**aliquots of yeast tRNA from 109 Antibodies box
#*'''only take out of -80&deg;C freezer when first group is ready''', competency decreases with time on ice
#**super competent XL1-blue cells, one 200 ul aliquot per group
# Sodium acetate 3M, 6 x 100 ul in microtubes
# LB media, 10 ml per group, put in 50 ml conical tubes (3 x 30)
# Sterile water, 6 x 1 ml in microtubes for ligation and resuspending DNA
# LB-Kan plates out of 4C
# Kanamycin, 10 ul per group (2 tubes of 50 ul), '''keep cold'''
# large test tubes (4/group), 5 and 10 ml pipettes
# ice buckets for competent cells
# After incubating xformation plates for one day, blow colony plugs into overnights for use on Day 4. Students will have labelled tubes.
 
===[[20.109(F07):_Examine_candidate_clones | Notes:Day 4]]===
Before lab:
#Make 2L 1X TAE for gels and running buffer
#Pour 3 agarose gels, 1% in TAE (100ml) + 2 ul EtBr each. Use '''2 10-tooth combs'''/gel.
#Aliquot solutions (see below)


Day of lab:
===[[20.109(F07): Journal article discussion | Notes:Day 4]]===
# Need quiz
No prep except to read article for discussion.
# Aliquot solutions for miniprep (Solutions 1, 3, NaOH and SDS) for each group so stocks don't get contaminated.
Can offer a quiz either this day OR next but probably not both.
#*Each group needs:
#**400 ul Solution 1 (6 microtubes of 1000 ul)
#**500 ul SDS 2% (6 microtubes of 1000 ul)
#**500 ul 0.4M NaOH (6 microtubes of 1000 ul)
#**600 ul Sol 3 (6 microtubes of 1000 ul)
#**4 ml 100% Ethanol (6 x full 15 ml tubes)
#**2 ml 70% Ethanol (6 x ~10 ml in 15 ml tubes)
#**sterile water bottle for each group
#Keep cold:
#*buffers
#*restriction enzymes
# ice buckets (one per bench should be fine, just for miniprep)
# 1 ml serological pipets for alcohols (optional)
# loading dye for gels


===[[20.109(F07): M13.1 | Notes:Day 5]]===
===[[20.109(F07): cDNA synthesis and microarray| Notes: Day5]]===
Microarray work. <br>
In advance of lab can autoclave 1X1L ddH2O in 2L flask and 2X2L in 4L flask. <br>To sterile 1L of H2O, add 1 pkg of 20XSSC mix from Ambion (cat # 9764)<br>
Prepare 3L of 6X SSC +0.005% Triton X-100 (300 ml 20X + 50 ul T + 700 ml H20)<br>
Prepare 2L of 2X SSC +0.0016%T (1:3 dilution of 6x) <br>
Prepare 2L of 0.2X SSC + 0.00016%T (1:30 dilution of 6X)


===[[20.109(F07):_Western_analysis | Notes:Day 6]]===
* Just before lab thaw RNAse free water and vials 11 (capture sequences), set one heat block to 80 and other to 42.
Day before lab:
* At start of lab thaw vial 4 ("Superase") and materials for cDNA synthesis cocktail. For 15 reactions worth mix on ice:
# Start overnights of 7x NB271 liquid cultures for plaque assay (3 ml of LB+Kan in large tubes), each group needs ~2 ml cells.  
** 60 ul 5X buffer (comes with enzyme)
# Start overnights of 7x NB251 liquid cultures for + control on Western (3 ml of LB+Kan in large tubes), each group needs ~1 ml.
**15 ul dNTPs
# Pour 2L of LB plates
** 30 ul 0.1M DTT
# Have protein gels and chambers
**15 ul RT (leave in freezer until just before needed)
# For each day, make microtubes of 1X sample buffer without BME (500 ul 2X + 400 ul H20) add 100ul of BME to both on day of lab (could parafilm after adding BME, save 2 days). Need <1 ml / group.  
*Make fresh 0.5 M NaOH/0.5M EDTA (0.1g NaOH into 5 ml 0.5M EDTA). Aliquot 2x 100 ul.  
# Make 3 L of transfer buffer for each day and refrigerate
*Aliquot 2x 100 ul Tris, pH7
# Make 1L 1X TBS-T in graduated cylinder, refrigerate, mix in 5% powdered milk close to lab day
*Aliquot 2x 200 ul Agilent 2X hyb buffer


* Note: 2°Ab is goat antimouse (GAM-AP) in ab freezer box


Day of lab:
Next day hyb solution
* Need quiz
*Prewarm 2X SDS hyb solution (vial 6) to 65* and fluors (vials 1) at RT before washing slide in BMC.
* Turn on water baths and melt top agar
*Fluor hyb, per array (x8)
* Protein gels and blot
**50 ul 2x hyb, vial 6 (400 ul)
# Students' candidates in liquid culture tubes
**1.25 ul red vial 1 (10 ul)
# Blank for spec (900 ul H2O and 100 ul LB)
**1.25 ul blue vial 1 (10 ul)
# Sample buffer + 100 ul BME
**48 ul H2O (384 ul)
# Lid locks for microtubes in hood
*Heat to 80* and at that time dry slide.
# Boiling tank on hot plate in hood with boiling chips, be sure it's turned off once students are done.
# 2 protein gel chambers with 2 gels in one and 1 plus spacer in other, set up
# "Kaleidoscope" protein molecular weight standard, in -20C in enzyme rack, aliquot 2x50 ul in microtubes, denature by boiling when students boil their samples
# Running buffer, 1X TGS made when needed, 1L/chamber, 10X above sink
# Transfer cassettes, ScotchBrite pads, filter paper, nitrocellulose
# Western transfer buffer, 1L/tank so 3L/day
# ice packs for Western
# Blocking buffer TBS-T + 5% milk, 50 ml/group
# Protein gels will have two groups/gel so that blot can be cut in half, and each probed with anti-p3.  
* Plaque assay
# top agar, melted in microwave and kept in 55C water bath
# 200 ul x 10 /group NB271(=ER2267) bacteria for plaque assay
# 10^6 dilution of positive phage control in microtube
# small sterile test tubes, 10/group
# 10 LB plates/group for plaque assay (no phage, + phage control, 4 dilutions supernatant: 10^0,2,4,6, for each of two candidates)
# 5 ml pipets and Pipetmen


===[[20.109(F07):_Probe_western | Notes:Day 7]]===


* EHS rep will come in and talk about cell culture work during first Western incubation period.
===[[20.109(F07): Microarray data analysis | Notes:Day 6]]===
* Talk about M13 refactoring during other incubation
No prep except to read lab in advance to get ready for data analysis.  


Day of lab:
===[[20.109(F07): Mod 2 Day 7| Notes:Day 7]]===
# Need a quiz
No lab. No prep. No quiz.
# 12 small tupperware containers during class
# TBS-T, ~300 ml / group for rinsing/washing blots
# 6 x 15 ul anti-p3 antibody (trying 1:1000 due to lack of anti-p3 material)
# 30 ml / group (1:1000 Goat-Anti-Mouse-Alkaline Phosphatase) in TBS-T + secondary antibody
# 25 ml / group developing solution for AP, 1 ml 25X developing solution (in 4&deg;C) + 24 ml MilliQ water, students add 250 ul of each of two solutions from kit in -20&deg;C
[[Image:Macintosh HD-Users-nkuldell-Desktop-p3Abinfo.jpg|thumb|p3 ab info]]


===[[20.109(F07): Module 1 oral presentations| Notes:Day8]]===
===[[20.109(F07): Module 2 oral presentations | Notes:Day 8]]===
No prep except to help get projector etc to needed room. No quiz.


==Recipes/Reagents==
==Recipes/Reagents==

Latest revision as of 04:44, 2 November 2007

Expression Engineering Module

Current: 20.109(F07)
no wiki archive version, .docs from Spring 2005

General notes

Before term begins:

  1. Check that all links on all wiki pages for expression engineering modulre properly direct to current version of class and to working webpages. Fix broken ones.
  2. Pre-run the design instructions for day one on all six sections of luciferase and confirm that the students will pick the siRNAs that we plan to order. It's SO important to know if the siRNAs are different, since these are the ones the students must follow all the way through the module. Analysis at the end of the module is much harder if the student's designs aren't the ones they actually use.
  3. Order siRNAs in advance of module. These can take a while. You can cut and paste the sequences from here. Also the sequences are found in the following publication. When they arrive, use gloves to handle in RNase free way, spin briefly in microfuge to bring contents to bottom of tube then freeze as dry pellets. Dilute to 0.1 nmoles/ul as follows: for each siRNA mix 40 ul of 5x siRNA buffer from Dharmacon with 160 ul RNAase free water (these are stored at RT in RNA drawer), then add this volume to tube with siRNA. Vortex briefly then aliquot into RNase-free tubes (20 ul/tube), numbered "1 of 10" "2 of 10" etc. Store at -20 with rest of materials for module. Day of lab, dilute 1:10 in OptiMEM in hood in sterile tubes for working concentration of 10 pmoles/ul. Students will need 1 ul of working conc / transfected well in 6 well dish.
  4. Streak out NB165 on LB+Amp. This strain has psiCHECK2 dual luciferase plasmid. Make 4 overnight cultures (each 2.5 ml LB+amp). Miniprep these for the plasmid DNA using Qiagen DNA miniprep kit. Elute each with 50 ul EB then pool. Measure concentration of 2.5 ul in 500 ul H2O (1:200 dilution). done for F'07: A260 of 1:200 was 0.02, giving stock conc of 0.2 ug/ul = 200 ng/ul using 1 OD = 50 ug/ml. Day of lab, dilute 1:10 in OptiMEM in hood in sterile tubes for working concentration of 20 ng/ul. Students will need 1 ul of working conc / transfected well in 6 well dish.
  5. LAR/Stop and Glo: check -20 for aliquots and if needed order more.
  6. MES cells and media, see notes for Day 1 and recipes
  7. Prep TC room: this means make sure the 70% EtOH flasks are full, the pipets are stocked at each station, the traps are empty except for somme bleach in the flasks, autoclave more tips/tubes/pasteurs as needed, confirm there are enotugh 25 cm2 flasks/6 well dishes. Check that necessary solutions are there and are not expired: PBS, DMEM, trypsin, OptiMEM, gelatin, LIF, lipofectamine.
  8. Qiagen prep for RNA
  9. Qiashredders for RNA
  10. After last day of cell culture need to freeze away cells for next term. Grow 2 x 6 well dishes to ~ 80% confluence. Wash each well with 2 ml PBS. Trypsinize with 1 ml trypsin for 1' in hood then aspirate and incubate in incubator 10'. Triterate each well with 1 ml Freezing Media (J1 growth media + 20% serum + 20% TC grade DMSO found in cell culture room)(9 ml JI, 3 ml serum, 3 ml DMSO). Pool 2 ml into each cryotube and wrap in paper towels, pack into styrofoam case and freeze middle shelf of -80. Always want to freeze slowly and thaw fast. If there are samples of J1 cells in -80 that are >1 year old, destroy them.
  11. Confirm there are some saved luciferase lysates for students to pre-run assays.
  12. Thaw J1s by placing mixing 2 ml cryotube stock into 8 ml of J1 media in 25 cm2 flask previously treated with gelatin. Do this for 4 of 6 frozen stock tubes. Grow ON. Change media to dilute DMSO.
  13. Confirm the microarray slides have been ordered.
  14. Confirm the scanner is available for needed days.
  15. Confirm Genisphere kit has been ordered.

Daily Notes

Notes:Day 1

Before lab:

  1. need siRNAs ordered, have copy of spec sheets available so students can compare their design to what was ordered.
  2. in preparation for lab on Day 2 you will also be seeding some 6 well dishes with J1 cells, grown in the absence of antibiotics (pre-txn media)...so be sure to look ahead to day 2 prep as well.
  3. think through need for high G and low delta G in target sequence. Want area targeted to be naturally unfolded rather than all scrunched up. Since taking folded structure and unfolding it would take energy, presume unfolded to folding would release energy and so unfolded would have low G value and folded would have high G value. Going from unfolded to folded would have negative delta G.

Day of lab:

  1. No quiz on day 1
  2. In main teaching lab:
    • no prep, just computers with printer paper
  3. In cell culture facililty:
    • each student will need 25 cm2 flask of ~ confluent J1 cells. So for lab of 12 students, prep 15 flasks so there can be 2 demo flasks as well and a back up flask in case of mistakes.
    • place hemacytometers and 20 ul pipet and box of tips by microscopes.
    • aliquot PBS, trypsin, gelatin, J1 growth media.
    • for Fall 2007 aliquots were:
      • 14 ml gelatin in 15 ml falcon, Marked "G"
      • 5ml trypsin in 15 ml falcon, Marked "T"
      • 12ml PBS in 15 ml falcon, Marked "P"
      • 15 ml growth media in 15 ml falcon, Marked "M". This was to stop trypsinisation.
      • 10 ml growth media in 15 ml falcon, Marked "M2." This was to be used for dilution of cells that the students would plate in 6 well dishes.

For each day of lab made 8 tubes like these, since only 6 students in TC at a time and the second crew used up the materials that the first group started. Other sets for teacher (needs only 1 demo set) and want at least one extra. Only exception: M2 tubes...need 12 of these/12 students since each student makes one dilution.

  • Preparation of J1 cells
    • Cells for both days (Tues, Wed for eg) can both be plated on Mon, you just have to make sure that the cell density for the Wed's slot is lower when you seed the cells. 3 flasks of confluent T25 J1 cells should provide you enough cells for both days.
    • For each confluenct T25 J1 cells, after trypsinisation, I resuspended them in 12ml of medium (this is my stock for Tues flask), take 1 ml of the stock and put it in a new flask containing 6ml of fresh medium (this is for the Tues student, you need to prepare at least X+2 flasks for a group of X student and for demonstration. Similarly, for the Wed group, I resuspended 1 confluent flask with 22ml of medium(this is my stock for the Wed's flask, note that it's more diluted than the Tues's stock), add 1 ml of stock to a new flask containing 6ml of fresh mediuim as described above.
    • Note that the above described is a very BIG split, but J1 cells grow really very fast!

Notes:Day 2

Before lab:

  1. Need quiz for day of lab.
  2. Each pair will need 2 six-well dishes of ~50% confluent J1 cells, growing in pre-txn media. So for lab of 12 students thats 12 dishes plus one or two in case of mistakes.
    • The most accurate rate to ensure that you have ~50% confluent J1 cells on the day of experiment is to try to grow some cells in advance to get a feel of how fast they grow and do the actual cell counting. For 20.109(F07), I resuspended one flask of fully confluent cell in 22ml of pre-transfection medium (this is my stock), take 1.5ml of stock and top up to 36ml with per-transfection medium. This 36ml is enough for me to plate two 6-well plate (3ml*6*2=36ml). I did this 2 days in advance (did on Sunday for Tuesday class). Cells for Wed class were also prepared on Sunday, I took 0.7ml of stock and top it up to 36ml with pre-transfection medium.
  3. Need to aliquot luciferase assay reagents (do this day of lab).
    • try 300 ul LARII/group and 300 ul Stop and Glo/group (20 ul/980 ul aliquots of buffer that are frozen -20).
    • try 50 ul of each sample/group. There should be 3 samples (1= no ff, no ren, 2 = high ff, high ren, 3 = high ff, lower ren)
    • all should be kept on ice until just before students try assays then move to RT
  4. Need to aliquot lipofectamine (50 ul/eppendorf, 12 eppendorfs/12 groups), and OptiMEM (1.4 ml/eppendorf) and any cell culture growth reagents
    • 30 ml PBS/falcon tube, 12 groups worth for both days of lab.
    • 14 ml Pre-Txn media/falcon tube, 12 groups worth for both days of lab.
  5. Need to aliquot psiCHECK plasmid and siRNAs (do this day of lab). Each group needs minimum of 8 ul of diluted plasmid and 4 ul of diluted validated siRNA, and 2 ul of diluted scrambled siRNA and 2 ul of experimental siRNA. These are the minimal volumes.
    • Plasmid dilution information:
    • stock plasmid (info is also above in "before the module starts" section): Streak out NB165 on LB+Amp. This strain has psiCHECK2 dual luciferase plasmid. Make 4 overnight cultures (each 2.5 ml LB+amp). Miniprep these for the plasmid DNA using Qiagen DNA miniprep kit. Elute each with 50 ul EB then pool. Measure concentration of 2.5 ul in 500 ul H2O (1:200 dilution). done for F'07: A260 of 1:200 was 0.02, giving stock conc of 0.2 ug/ul = 200 ng/ul using 1 OD = 50 ug/ml.
    • dilutions of plasmid: day of lab, dilute 1:10 in OptiMEM in hood in sterile tubes for working concentration of 20 ng/ul. Students will need 1 ul of working conc / transfected well in 6 well dish. Aliquots of plasmid should have ~10 ul each so can add 90 ul of Optimem to two just before lab and aliquot ~ 25 ul/epp/group.
    • siRNA dilution information:
    • stock siRNAs: These were ordered in 20 nmole quantities then diluted to 0.1 nmoles/ul as follows: for each siRNA mix 40 ul of 5x siRNA buffer from Dharmacon with 160 ul RNAase free water (these are stored at RT in RNA drawer), then add this volume to tube with siRNA. Vortex briefly then aliquot into RNase-free tubes (20 ul/tube), numbered "1 of 10" "2 of 10" etc. Stored at -20 with rest of materials for module.
    • each group will need one dilution of validated, one dilution of scrambled, and one dilution of student siRNA.
    • dilutions for siRNAs on day of lab, dilute 1:10 in OptiMEM in hood in sterile tubes for working concentration of 10 pmoles/ul. Students will need 1 ul of working conc / transfected well in 6 well dish.
      • student siRNAs 1-6: dilute one of each for each day of lab by adding 180 ul Optimem just before lab.
      • validated and scrambled siRNAs: dilute two of each for each day of lab by adding 180 ul of Optimem just before lab and then aliquoting 40 ul/eppendorf into 6 eppendorf tubes.

Day after lab:

  1. Change media on student's tranfection plates to 3 ml J1 growth media.

Notes:Day 3

Before lab:

  1. Set out luminometer if put away.
  2. Check there is sufficient bench paper.
  3. Put 3 open bottles of RNAse away at the front bench.
  4. Set up camera at dissecting microscope and set out card reader at front bench.
  5. Aliquot 30 ml of room temperature PBS in 50 ml falcon tubes/group. Leave in the teaching lab for the students to use when they wash the cells there before lysis.
  6. Aliquot sterile water into 15 ml falcon tubes since the students can use this rather than RNase free water to measure RNA concentration.
  7. Just before lab: 5X PLB to 1X with sterile water in 15 ml falcon tubes. Use a new bottle of water, sterile pipets for measuring the PLB and wear gloves to aliquot to minimize RNase contamination. Need minimum of 6 ml /pair of students. Make 10 ml/pair so there is plenty (2 ml 5X PLB + 8 ml H20) Aliquot so each pair has 10 ml they need, i.e. don't have students using common stock.
  8. Just before lab: prepare RLT with BME, each pair of students will need 1 ml aliquot (= 10 ul BME + 990 ul RLT). Make this in the hood wearing gloves and in new, never touched eppendorf tubes with an RNAse-away cleaned pipetmen or the RNA only pipetment.
  9. Just before lab: thaw luciferase reagents. Each student pair should get 800 ul LAR and 800 ul S+G. See notes of Day 2 for how to prepare S+G. The LAR, if frozen, should already be good to go.

Day of lab:

  1. Need quiz
  2. Set out RNeasy kit and quishredders. Do not include any reagents that are not needed or are incomplete (e.g. still need EtOH added to them) since students have used these accidentally in the past.
  3. Midway through lab retrieve quartz cuvettes and turn on UV lamp on spec.
  4. Don't forget to turn UV lamp of spec off before leaving lab for the day.
  5. Freeze RNA samples at -20° in RNase-free box for next time. Should also freeze at -20° some of students luciferase lysates to use as samples next time module is run (label tubes 1 = -/- or 2 = +/+ or 3 = +/-)

Day after lab:

  1. Freeze some J1 cells for next time (see general notes above for details).

Notes:Day 4

No prep except to read article for discussion. Can offer a quiz either this day OR next but probably not both.

Notes: Day5

Microarray work.
In advance of lab can autoclave 1X1L ddH2O in 2L flask and 2X2L in 4L flask.
To sterile 1L of H2O, add 1 pkg of 20XSSC mix from Ambion (cat # 9764)
Prepare 3L of 6X SSC +0.005% Triton X-100 (300 ml 20X + 50 ul T + 700 ml H20)
Prepare 2L of 2X SSC +0.0016%T (1:3 dilution of 6x)
Prepare 2L of 0.2X SSC + 0.00016%T (1:30 dilution of 6X)

  • Just before lab thaw RNAse free water and vials 11 (capture sequences), set one heat block to 80 and other to 42.
  • At start of lab thaw vial 4 ("Superase") and materials for cDNA synthesis cocktail. For 15 reactions worth mix on ice:
    • 60 ul 5X buffer (comes with enzyme)
    • 15 ul dNTPs
    • 30 ul 0.1M DTT
    • 15 ul RT (leave in freezer until just before needed)
  • Make fresh 0.5 M NaOH/0.5M EDTA (0.1g NaOH into 5 ml 0.5M EDTA). Aliquot 2x 100 ul.
  • Aliquot 2x 100 ul Tris, pH7
  • Aliquot 2x 200 ul Agilent 2X hyb buffer


Next day hyb solution

  • Prewarm 2X SDS hyb solution (vial 6) to 65* and fluors (vials 1) at RT before washing slide in BMC.
  • Fluor hyb, per array (x8)
    • 50 ul 2x hyb, vial 6 (400 ul)
    • 1.25 ul red vial 1 (10 ul)
    • 1.25 ul blue vial 1 (10 ul)
    • 48 ul H2O (384 ul)
  • Heat to 80* and at that time dry slide.


Notes:Day 6

No prep except to read lab in advance to get ready for data analysis.

Notes:Day 7

No lab. No prep. No quiz.

Notes:Day 8

No prep except to help get projector etc to needed room. No quiz.

Recipes/Reagents

  1. JI Growth Media: 500 ml DMEM (high glucose), 50 ml FBS (Atlanta Biologic, Inc.), 5 ml P/S/G, 1 ml BME, 5 ml NEAA. Filter then add 50 ul LIF. Store 4°C
  2. Pre-Transformation Media: 500 ml DMEM (high glucose), 50 ml FBS (Atlanta Biologic, Inc.), 5 ml 100XG, 1 ml BME, 5 ml NEAA. Filter then add 50 ul LIF. Store 4°C
  3. 0.1% gelatin for TC dishes > 10 min before adding cells: 1 g/L, Heat slightly to dissolve. Autoclave. Store 4°C
Retrieved from "https://openwetware.org/mediawiki/index.php?title=20.109(F07):_TA%27s_notes_for_module_2&oldid=163897"