Line 2,394: | Line 2,394: | ||
− | <p>Did you use pathlength correction during measurement?</p> | + | <p align>Did you use pathlength correction during measurement?</p> |
Yes | Yes | ||
Number of flashes per well | Number of flashes per well | ||
Line 2,453: | Line 2,453: | ||
<img src="https://static.igem.org/mediawiki/2018/archive/5/51/20180915125339%21T--HUST-China--2018-Intelab-pic1.png"> | <img src="https://static.igem.org/mediawiki/2018/archive/5/51/20180915125339%21T--HUST-China--2018-Intelab-pic1.png"> | ||
− | <p> | + | <p> |
− | <p>❏Add 100 μl of ddH2O into wells A2, B2, C2, D2....A12, B12, C12, D12 </p> | + | <p>❏Add 100 μl of ddH2O into wells A2, B2, C2, D2....A12, B12, C12, D12 </p> |
− | <p>❏Vortex the tube containing the stock solution of microspheres vigorously for 10 seconds</p> | + | <p>❏Vortex the tube containing the stock solution of microspheres vigorously for 10 seconds</p> |
− | <p>❏Immediately add 200 μl of microspheres stock solution into A1 </p> | + | <p>❏Immediately add 200 μl of microspheres stock solution into A1 </p> |
− | <p>❏Transfer 100 μl of microsphere stock solution from A1 into A2. </p> | + | <p>❏Transfer 100 μl of microsphere stock solution from A1 into A2. </p> |
− | <p>❏Mix A2 by pipetting up and down 3x and transfer 100 μl into A3…</p> | + | <p>❏Mix A2 by pipetting up and down 3x and transfer 100 μl into A3…</p> |
− | <p>❏Mix A3 by pipetting up and down 3x and transfer 100 μl into A4... </p> | + | <p>❏Mix A3 by pipetting up and down 3x and transfer 100 μl into A4... </p> |
− | <p>❏Mix A4 by pipetting up and down 3x and transfer 100 μl into A5... </p> | + | <p>❏Mix A4 by pipetting up and down 3x and transfer 100 μl into A5... </p> |
− | <p>❏Mix A5 by pipetting up and down 3x and transfer 100 μl into A6... </p> | + | <p>❏Mix A5 by pipetting up and down 3x and transfer 100 μl into A6... </p> |
− | <p>❏Mix A6 by pipetting up and down 3x and transfer 100 μl into A7... </p> | + | <p>❏Mix A6 by pipetting up and down 3x and transfer 100 μl into A7... </p> |
− | <p>❏Mix A7 by pipetting up and down 3x and transfer 100 μl into A8... </p> | + | <p>❏Mix A7 by pipetting up and down 3x and transfer 100 μl into A8... </p> |
− | <p>❏ Mix A8 by pipetting up and down 3x and transfer 100 μl into A9... </p> | + | <p>❏ Mix A8 by pipetting up and down 3x and transfer 100 μl into A9... </p> |
− | <p>❏Mix A9 by pipetting up and down 3x and transfer 100 μl into A10... </p> | + | <p>❏Mix A9 by pipetting up and down 3x and transfer 100 μl into A10... </p> |
− | <p>❏Mix A10 by pipetting up and down 3x and transfer 100 μl into A11... </p> | + | <p>❏Mix A10 by pipetting up and down 3x and transfer 100 μl into A11... </p> |
− | <p>❏Mix A11 by pipetting up and down 3x and transfer 100 μl into liquid waste</p> | + | <p>❏Mix A11 by pipetting up and down 3x and transfer 100 μl into liquid waste</p> |
− | <p>TAKE CARE NOT TO CONTINUE SERIAL DILUTION INTO COLUMN 12. </p> | + | <p>TAKE CARE NOT TO CONTINUE SERIAL DILUTION INTO COLUMN 12. </p> |
<p>❏ Repeat dilution series for rows B, C, D </p> | <p>❏ Repeat dilution series for rows B, C, D </p> | ||
<p>❏ IMPORTANT! Re-Mix (Pipette up and down) each row of your plate immediately</p> | <p>❏ IMPORTANT! Re-Mix (Pipette up and down) each row of your plate immediately</p> |
Revision as of 13:23, 20 September 2018
Interlab
Introduction
It is significant for synthetic biology to develop a reliable and repeatable measurement, the same to all the other engineering disciplines. We HUST-China have volunteered to test some RBS devices (BCDs) that are intended to make gene expression more precise and reliable by measure the expression level of GFP, in order to help the iGEM community collect data about how reliable will these devices turn out to be in labs around the world.
Provenance and release
What chassis did you use?
Escherichia coli DH5αWhat Biosafety Level is your chassis?
BSL1What PPE did you utilize during your experiments?
T ianming gloves Songxinjiujiu labcoats
Instrument
What instrument did you use during your measurements?
plate readerPlease provide the brand and model of your instrument.
Flexstation 3
Calibration protocol
A1. OD600 reference point-LUDOX protocol
Did you use pathlength correction during measurement? YesNumber of flashes per well
6Orbital averaging (nm)
600What temperature setting did you use during the measurement?
22℃What type of 96-well plate did you use?
Black plate (preferred)Did your plate have flat-bottomed or round-bottomed wells?
FlatDid you use pathlength correction during measurement?
Yes Number of flashes per well 6Orbital averaging (nm)
600 What temperature setting did you use during the measurement? 22℃ What type of 96-well plate did you use? Black plate (preferred)Did your plate have flat-bottomed or round-bottomed wells?
FlatB2. Measurement Steps
❏ Obtain the tube labeled “Silica Beads” from the InterLab test kit and vortex
❏vigorously for 30 seconds. NOTE: Microspheres should NOT bestored at 0°C or below, as freezing affects the properties of the microspheres. If you believe your microspheres may have been frozen, please contact the iGEM Measurement
Committee for a replacement (measurement at igem dot org).❏ Immediately pipet 96 μL microspheres into a 1.5 mL eppendorf tube
❏ Add 904 μL of ddH2O to the microspheres
❏ Vortex well. This is your Microsphere Stock Solution.
❏Add 100 μl of ddH2O into wells A2, B2, C2, D2....A12, B12, C12, D12
❏Vortex the tube containing the stock solution of microspheres vigorously for 10 seconds
❏Immediately add 200 μl of microspheres stock solution into A1
❏Transfer 100 μl of microsphere stock solution from A1 into A2.
❏Mix A2 by pipetting up and down 3x and transfer 100 μl into A3…
❏Mix A3 by pipetting up and down 3x and transfer 100 μl into A4...
❏Mix A4 by pipetting up and down 3x and transfer 100 μl into A5...
❏Mix A5 by pipetting up and down 3x and transfer 100 μl into A6...
❏Mix A6 by pipetting up and down 3x and transfer 100 μl into A7...
❏Mix A7 by pipetting up and down 3x and transfer 100 μl into A8...
❏ Mix A8 by pipetting up and down 3x and transfer 100 μl into A9...
❏Mix A9 by pipetting up and down 3x and transfer 100 μl into A10...
❏Mix A10 by pipetting up and down 3x and transfer 100 μl into A11...
❏Mix A11 by pipetting up and down 3x and transfer 100 μl into liquid waste
TAKE CARE NOT TO CONTINUE SERIAL DILUTION INTO COLUMN 12.
❏ Repeat dilution series for rows B, C, D
❏ IMPORTANT! Re-Mix (Pipette up and down) each row of your plate immediately
before putting in the plate reader! (This is important because the beads begin to settle to the bottom of the wells within about 10 minutes, which will affect the measurements.) Take care to mix gently and avoid creating bubbles on the surface of the liquid.❏ Measure Abs600 of all samples in instrument
❏ Record the data in your notebook
❏ Import data into Excel sheet provided (particle standard curve tab)
C1: Fluorescence standard curve - Fluorescein Protocol
Did you use pathlength correction during measurement?
YesNumber of flashes per well
6What gain setting did you use?
Automatic
If you used a filter, what light wavelengths did it pass?
530nm
Emission wavelength
525nmExcitation wavelength
485nmFluorescence reading
Bottom opticWhat type of 96-well plate did you use?
Black plate (preferred)
Did your plate have flat-bottomed or round-bottomed wells?
FlatWhat temperature setting did you use during the measurement?
22℃C2. Measurement Steps
❏Add 100 μl of PBS into wells A2, B2, C2, D2....A12, B12, C12, D12
❏ Add 200 μl of fluorescein 1x stock solution into A1, B1, C1, D1
❏ Transfer 100 μl of fluorescein stock solution from A1 into A2.
❏ Mix A2 by pipetting up and down 3x and transfer 100 μl into A3…
❏ Mix A3 by pipetting up and down 3x and transfer 100 μl into A4...
❏Mix A4 by pipetting up and down 3x and transfer 100 μl into A5...
❏ Mix A5 by pipetting up and down 3x and transfer 100 μl into A6...
❏ Mix A6 by pipetting up and down 3x and transfer 100 μl into A7...
❏ Mix A7 by pipetting up and down 3x and transfer 100 μl into A8...
❏ Mix A8 by pipetting up and down 3x and transfer 100 μl into A9...
❏ Mix A9 by pipetting up and down 3x and transfer 100 μl into A10...
❏ Mix A10 by pipetting up and down 3x and transfer 100 μl into A11...
❏ Mix A11 by pipetting up and down 3x and transfer 100 μl into liquid waste TAKE CARE NOT TO CONTINUE SERIAL DILUTION INTO COLUMN 12.
❏ Repeat dilution series for rows B, C, D
❏ Measure fluorescence of all samples in instrument
❏ Record the data in your notebook
❏ Import data into Excel sheet provided (fluorescein standard curve tab)
Cell culture setup and meaturement
Transformation:
Negative control BBa_R0040 Kit Plate 7 Well 2D
Positive control BBa_I20270 Kit Plate 7 Well 2B
Test Device 1 BBa_J364000 Kit Plate 7 Well 2F
Test Device 2 BBa_J364001 Kit Plate 7 Well 2H
Test Device 3 BBa_J364002 Kit Plate 7 Well 2J
Test Device 4 BBa_J364007 Kit Plate 7 Well 2L
Test Device 5 BBa_J364008 Kit Plate 7 Well 2N
Test Device 6 BBa_J364009 Kit Plate 7 Well 2P
The initial OD600 measurement of our overnight cultures
What type of media did you use for this step?
Luria Bertani
What type of vessel or container did you use to grow your cells?
50 ml Falcon tubeWhat temperature setting did you use during the measurement?
22℃What type of 96-well plates did you use?
Black plates with transparent/clear bottom (preferred)
Flat
Measurement
o Measure OD and fluorescence of all samples
Suggested Plate Layout for 96-well Plate
Interlab result
OD600 reference point
Particle standard curve
Fluorescein standard curve
Raw Plate Reader Measurements