Christian Niederauer/Notebook/RacingBacteria/Calendar: Difference between revisions
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==09.10.2014== | ==09.10.2014== | ||
==10.10.2014== | ==10.10.2014== | ||
=Stock= | |||
==Bacteria== | |||
====Master Plate==== | |||
Created on [http://openwetware.org/wiki/Christian_Niederauer/Notebook/RacingBacteria/Calendar#12.08.2014_Reinoculate_motile_colony 12/08/2014] from liquid culture, which again was created from one motile colony of the original master plate.<br> The original master plate again was created from glycerol stock of [[Christian_Niederauer/Notebook/RacingBacterias/Stock#RP437_Strain | RP437 E. Coli]] on [http://openwetware.org/wiki/Christian_Niederauer/Notebook/RacingBacteria/Calendar#06.08.2014_Revive_Bacteria 06.08.]. | |||
====Liquid Colony==== | |||
*Created on 19/08/2014 ''[disappeared]''<br> | |||
Suspended a few colonies from [[Christian_Niederauer/Notebook/RacingBacteria/Stock#Master_Plate | Master Plate]] into 1ml of LB media. | |||
*Created on 27/08/2014<br> | |||
Suspended a few colonies from [[Christian_Niederauer/Notebook/RacingBacteria/Stock#Master_Plate | Master Plate]] into ~5ml of LB media. | |||
====RP437 Strain==== | |||
[http://openwetware.org/images/0/01/RP437_bacteria_strain.pdf Datasheet of the RP437 Strain] | |||
After reviving this strain, test on soft agar plates and pick a colony that is motile and chemotactic because nonmotile variants arise in room temperature stab-cultures. | |||
==Microfluidics Devices== | |||
====Leveling Petri Dish==== | |||
'''Problem:''' Oven is not even, the PDMS stamps therefore will be to thin at one side or the fluid even leaks over the waver and the stamp will be to thin everywhere.<br> | |||
'''Solution:''' Filling up a Petri Dish with ~20ml PDMS and curing it in the oven (lower rack, placing dish at the very back on the right wall with the marker pointing perpendicular to the backwall). | |||
The fluid's plane will be arranged perpendicular to the gravitational force eventually. | |||
Future petri dishes with PDMS then can be placed on top of this device. | |||
====H-Pattern PDMS stamps==== | |||
{|class="wikitable" | |||
|- | |||
| <gallery>Image:H_pattern.jpg | close up of 20.08. stamp</gallery> || <gallery>Image:H_pattern_wholes.jpg | problem: jagged holes, glass residues in stamp </gallery> | |||
|} | |||
*20.08. (entire pattern) | |||
*22.08. (pre-cut) | |||
*27.08. (Araldite Replica II) | |||
====Various non- or bad-functioning racing tracks==== | |||
====Mother Machine Stamp (without holes / connections)==== | |||
====Original Silicon Wafer with H-Pattern==== | |||
<gallery>Image:Silicon.jpg</gallery> | |||
[http://openwetware.org/wiki/Image:RaBa_h_pattern.pdf Original Pattern etched on the Silicon Wafer]<br> | |||
Track width: 2µm<br> | |||
Track length: 362µm<br> | |||
Number of tracks: 32 | |||
====Araldite Molds==== | |||
{| class='wikitable' | |||
| <gallery>Image:RaBa_ara2.jpg | Araldite Replica II in the making </gallery> || <gallery>Image:RaBa_ara2b.jpg | Araldite Replica II</gallery> | |||
|} | |||
*Araldite Replica I, [http://openwetware.org/wiki/Christian_Niederauer/Notebook/RacingBacteria/Calendar#26.08.2014_ACTUAL_Araldite_Replica_from_PDMS_.26_COMSOL created on 26.08.] from H-Pattern PDMS stamp (20.08.) | |||
*Araldite Replica II, [http://openwetware.org/wiki/Christian_Niederauer/Notebook/RacingBacteria/Calendar#26.08.2014_ACTUAL_Araldite_Replica_from_PDMS_.26_COMSOLcreated on 26.08.] from H-Pattern PDMS stamp (20.08.) with increased thickness | |||
==Material== | |||
*Coring Tool 2mm | |||
*PDMS Chemicals (Sylgard, Silicone Elasteromer KIT 184) | |||
* Araldite Chemicals (Resinova Bondtite) |
Revision as of 00:02, 27 August 2014
August 2014
06.08.2014 Revive Bacteria
- revive bacteria strain RP437 from glycerol stock (see Glycerol Protocol)
- Master Plate is incubated ON, then stored in fridge
- Bacteria have to be checked for motility
08.08.2014 PDMS Preparations
PDMS Duplicate Protocol
Plasma Cleaning Protocol
Problems encountered with creating PDMS stamps:
- oven is not entirely flat
- the "coring tool" is a cut glass pipette which continues to break and creates jagged holes
- device is prone to leakage if the holes are placed near the edge of the stamp
- devices are very thin and making it bigger by sticking additional pdms layer is tedious
-> build leveling device, order coring tool, try cutting stamp so that the device is not near an edge, make deep araldite molds (thick stamp is hard to achieve with silicon wafer, as ideally the surface tension of the PDMS should keep the fluid on the wafer. If you add to much fluid, it will break surface tension and spread over the whole petri dish. Silicon wafer is too delicate to experiment with some ring-shaped devices to keep PDMS on the wafer.)
11.08.2014 Checking for Motility
- make suspension of one big and one small colony from the Master Plate created on 06.08. in eppi with 1mL PBS by picking it up with a micropipette tip and suspend tip into eppi
- cut window in double sided tape and put onto slide
- add a drop of bacteria suspension from the eppi(3µL) and put coverslide onto slide
Result: bacteria from the big colony are motile, whereas bacteria from the small colony were not
-> reinoculate bacteria from one or more big colonies of the master plate into liquid LB medium over night
As a comparison: 1µm latex beads on same coverslip-slide arrangement in 1:1000 dilution
Analysis of Bead Movement
Data: E:\12-08-rp437\ and E:\12-08-beads\
12.08.2014 Reinoculate motile colony
- put 5ml LB broth into falcon tube
- pick up one big colony with pipette tip and discard the tip in falcon tube
- incubate ON
- dip sterile inoculate ring into liquid colony and streak on agar plate the next day
- incubate plate over night => this is the new master plate
13.08.2014 Tracking Beads
As a check, track beads based on microscopy images acquired with Epitome, using BergLab tracking code. Brownian Motion is observed and after binning the frame-to-frame displacements, a rayleigh distribution is fit to the data with the curve fitting tool.
-
tracked positions
Matlab code for binning:
botEdge=0; %first bin should start at 0 displacement
topEdge=25; %last bin should reach to 25
numBins=20; %number of bins
edges=linspace(botEdge,topEdge,numBins+1);
binned=histc(disp,edges);
figure, plot(edges,binned,'.'); %plots the number of displacements which lie in each bin
-
distance in µm
25.08.2014 Araldite Replica from PDMS & COMSOL
COMSOL Multiphysics
Downloading COMSOL Multiphysics 4.3b 64-bit at the fedora linux machine in the dry lab.
Araldite Replica
According to the Araldite Replica Protocol, 9g (5g of part A-resin and 4g of part B-hardener) are prepared, degassed and should have been poured after ~30 minutes. The break during the introduction course about the new microscope was after 1 hour. By then, the epoxy already was beginning to solidify. In addition to that, it seemed that the amount of epoxy mixed should be increased for easier pouring and handling (solidifies more slowly, more tolerance in terms of weight ratio).
Manufacturing of replicas is postponed to 26.08.2014.
Microscopy Course Notes
- make new optical configuration: Configuration-> New Optical Configuration
- basic setting windows: View -> Acquisition Controls -> Clara Settings -> TI PAD, Sensor
- for DIC: ANALY & Condensor DIC N1 (20x,40x)
- always: [D] in, [NCB (neutral color balance)] in
- enable mouse focusing: Device -> Enable Mouse Joystick
- to save current window configurations: Save Current Layout as..
- Fluorescence: turn on NTNSL & filter 1 (blank with paper because shutter is not installed yet)
- high frame rate: no delay, exposure 1 frame, small ROI, Binning
26.08.2014 ACTUAL Araldite Replica from PDMS & COMSOL
Araldite Replica
Using Araldite Protocol: Mixing 10g part A and 8g part B of Araldite and pouring onto the H-Pattern PDMS stamp from 20.08.
The replica will be called Araldite Replica I.
Another Araldite replica is made with a pre-cut PDMS stamp made on 22.08..
An extra layer of PDMS is added below the stamp to achieve a deeper mold in the end. It is called Araldite Replica II.
|
|
Comsol Multiphysics
Always change into usr folder with cd ../
Mount .iso with
sudo mount -r -t iso9660 -o loop COMSOL43b_dvd.iso /media
cd media/
sudo sh setup
Start License Server manually:
cd local/comsol43b/license/glnxa64/
./lmgrd -c ../license.dat -l ../comsol44.log
Run Comsol in local/comsol43b/bin/glnxa64/ -> comsol
Gives error:
27.08.2014 PDMS from Araldite & Liquid Colony
- with PDMS-Protocol: create PDMS from Araldite Replica II and compare with original entire-pattern stamp from 20.08..
- Liquid Colony is created under hood with some left over sterile LB medium by discarding pipette tip into that tube after picking up a few colonys from the Master Plate.
- coring tools are too big (orange: 2.5mm, green: 3mm), have to wait for the right ones
Plan: punch holes into the PDMS from Araldite II, plasma clean with coverslip and attach tubings, then insert safranin. If it works properly, insert bacteria suspension
28.08.2014
29.08.2014
September 2014
01.09.2014
02.09.2014
03.09.2014
04.09.2014
05.09.2014
08.09.2014
09.09.2014
10.09.2014
11.09.2014
12.09.2014
15.09.2014
16.09.2014
17.09.2014
18.09.2014
19.09.2014
22.09.2014
23.09.2014
24.09.2014
25.09.2014
26.09.2014
29.09.2014
30.09.2014
October 2014
01.10.2014
02.10.2014
03.10.2014
06.10.2014
07.10.2014
08.10.2014
09.10.2014
10.10.2014
Stock
Bacteria
Master Plate
Created on 12/08/2014 from liquid culture, which again was created from one motile colony of the original master plate.
The original master plate again was created from glycerol stock of RP437 E. Coli on 06.08..
Liquid Colony
- Created on 19/08/2014 [disappeared]
Suspended a few colonies from Master Plate into 1ml of LB media.
- Created on 27/08/2014
Suspended a few colonies from Master Plate into ~5ml of LB media.
RP437 Strain
After reviving this strain, test on soft agar plates and pick a colony that is motile and chemotactic because nonmotile variants arise in room temperature stab-cultures.
Microfluidics Devices
Leveling Petri Dish
Problem: Oven is not even, the PDMS stamps therefore will be to thin at one side or the fluid even leaks over the waver and the stamp will be to thin everywhere.
Solution: Filling up a Petri Dish with ~20ml PDMS and curing it in the oven (lower rack, placing dish at the very back on the right wall with the marker pointing perpendicular to the backwall).
The fluid's plane will be arranged perpendicular to the gravitational force eventually.
Future petri dishes with PDMS then can be placed on top of this device.
H-Pattern PDMS stamps
|
|
- 20.08. (entire pattern)
- 22.08. (pre-cut)
- 27.08. (Araldite Replica II)
Various non- or bad-functioning racing tracks
Mother Machine Stamp (without holes / connections)
Original Silicon Wafer with H-Pattern
Original Pattern etched on the Silicon Wafer
Track width: 2µm
Track length: 362µm
Number of tracks: 32
Araldite Molds
|
|
- Araldite Replica I, created on 26.08. from H-Pattern PDMS stamp (20.08.)
- Araldite Replica II, on 26.08. from H-Pattern PDMS stamp (20.08.) with increased thickness
Material
- Coring Tool 2mm
- PDMS Chemicals (Sylgard, Silicone Elasteromer KIT 184)
- Araldite Chemicals (Resinova Bondtite)