|
| Status |
Public on Jul 12, 2007 |
| Title |
WT vs TRXB1 |
| Sample type |
RNA |
| |
|
| Channel 1 |
| Source name |
WT
|
| Organism |
Lactiplantibacillus plantarum WCFS1 |
| Characteristics |
L. plantarum containing an empty plasmid (pNZ7021)
|
| Extracted molecule |
total RNA |
| Extraction protocol |
Extraction RNA version 1.2 Collecting cells Quenching Buffer 66.7 mM HEPES (pH 6.5) 60%Methanol Extraction Mixture -500 µll phenol/Chloroform -30 µl10% SDS -30 µl3 M NaAc (pH 5.2) -500 mg glass-beads (75-150 µm) -400 µlTE buffer Prepare in a screw-cap tube 1.For each sample prepare a tube with Extraction Mixture 2.Harvest cells and quench them immediately in Quenching Buffer. Add 4 volumes of Quenching Buffer ( 40°C) to 1 volume of cell culture 3.Mix and store the sample at -40°C 4.Centrifuge cells at -20 C at 9000 rpm for 10 minutes (Centrifuge RC5B) 5.Discard the supernatant; keep the cell pellet cooled and work quickly to prevent condensation of water. Transfer the pellet with a pre-cooled spatula to a screw-crap tube with Extraction Mixture 6.Mix the cell pellet thoroughly with Extraction Mixture by shaking by hand 7.Freeze the tube immediately in liquid nitrogen 8.Break cells in the Savant FastPrep FP120. Three times 40 seconds at speed 4.0 (cool cells between steps if necessary) 9.Centrifuge for 5 minutes at 4°C in an Eppendorf centrifuge at 10.000 rpm 10.Transfer 500 µl of the supernatant to a new tube. Add 400 µl chloroform (chloroform should be cooled at 4°C) 11.Centrifuge for 2 minutes in an Eppendorf centrifuge at full speed (4°C) 5.Continue with the "High Pure RNA Isolation Kit" from Roche (order # 1 828 665) 6.Incubate for 60 minutes with DnaseI, elute with 50 µl elution buffer 7.Store the RNA in at least 2 aliquots, one of 20 µl (for concentration and quality analysis and labelling) and one back-up of 30 µl at 80°C.
|
| Label |
Cy3
|
| Label protocol |
Labeling Protocol 1.1 Annealing Annealing Mix x µl RNA preparation (=25 µg) y µl nuclease-free water 1 µl Random Nonamers 11 µl TOTAL 1. mix Annealing Mix in a 200 µl PCR tube gently by pipetting up and down 2. incubate for 5’ 70°C 3. cool at room temperature for 10’ (annealing) 4. spin down the mixture to the bottom of the tube 5. place on ice Reverse transcription Reverse Transcription Mix 4 µl 5x buffer 2 µl 0.1 M DTT 1 µl dNTP-mix 1 µl AA-dUTP 1 µl TMIII (keep only briefly outside 20°C) 20 µl TOTAL 1. Mix by very gently by pipetting up and down (vigorous pipetting will denature the enzyme!) 2. Incubate for 3 hrs at 42°C (in PCR-machine) 3. Cool on ice for immediate purification or place at 20°C for storage Degradation of mRNA 1. Add 2 µl 2,5 M NaOH 2. Mix (vortex) and spin down 3. Incubate for 15 min. at 37°C 4. Add 10 µl 2 M HEPES free acid 5. Mix (vortex) and spin down 6. Ready for purification or store at 20°C Labelling of cDNA with cyanine dyes Purification of amino allyl-modified cDNA Followed Ge Healthcare kit "Amersham CyDye (Cy3/Cy5)Reactive Dye Protocols for Post Labelling Aminoallyl-cDNA and Aminoallyl-aRNA" code RPN5661 Labelling of amino allyl-modified cDNA with CyDye 1. Add the amino allyl modified cDNA (in 0.1 M sodium bicarbonate) directly into one aliquot of CyDye NHS Ester. Resuspend the ester completely by pipetting several times and transfer the solution to an amber 1.5 ml tube 2. Incubate at room temperature, in the dark for 60 to 90 minutes 3. Add 15 µl 4 M Hydroxylamine to each coupling reaction 4. Mix by stirring and incubate at room temperature, in the dark, for 15 minutes 5. Proceed directly to purification of CyDye-labelled cDNA Purification of CyDye labelled cDNA Followed Ge Healthcare kit "Ame
|
| |
|
| Channel 2 |
| Source name |
trxB1
|
| Organism |
Lactiplantibacillus plantarum WCFS1 |
| Characteristics |
L. plantarum carrying plasmid pMS040 (overexpression of trxB1 after constituitive pPEPN promotor)
|
| Extracted molecule |
total RNA |
| Extraction protocol |
Extraction RNA version 1.2 Collecting cells Quenching Buffer 66.7 mM HEPES (pH 6.5) 60%Methanol Extraction Mixture -500 µll phenol/Chloroform -30 µl10% SDS -30 µl3 M NaAc (pH 5.2) -500 mg glass-beads (75-150 µm) -400 µlTE buffer Prepare in a screw-cap tube 1.For each sample prepare a tube with Extraction Mixture 2.Harvest cells and quench them immediately in Quenching Buffer. Add 4 volumes of Quenching Buffer ( 40°C) to 1 volume of cell culture 3.Mix and store the sample at -40°C 4.Centrifuge cells at -20 C at 9000 rpm for 10 minutes (Centrifuge RC5B) 5.Discard the supernatant; keep the cell pellet cooled and work quickly to prevent condensation of water. Transfer the pellet with a pre-cooled spatula to a screw-crap tube with Extraction Mixture 6.Mix the cell pellet thoroughly with Extraction Mixture by shaking by hand 7.Freeze the tube immediately in liquid nitrogen 8.Break cells in the Savant FastPrep FP120. Three times 40 seconds at speed 4.0 (cool cells between steps if necessary) 9.Centrifuge for 5 minutes at 4°C in an Eppendorf centrifuge at 10.000 rpm 10.Transfer 500 µl of the supernatant to a new tube. Add 400 µl chloroform (chloroform should be cooled at 4°C) 11.Centrifuge for 2 minutes in an Eppendorf centrifuge at full speed (4°C) 5.Continue with the "High Pure RNA Isolation Kit" from Roche (order # 1 828 665) 6.Incubate for 60 minutes with DnaseI, elute with 50 µl elution buffer 7.Store the RNA in at least 2 aliquots, one of 20 µl (for concentration and quality analysis and labelling) and one back-up of 30 µl at 80°C.
|
| Label |
Cy5
|
| Label protocol |
Labeling Protocol 1.1 Annealing Annealing Mix x µl RNA preparation (=25 µg) y µl nuclease-free water 1 µl Random Nonamers 11 µl TOTAL 1. mix Annealing Mix in a 200 µl PCR tube gently by pipetting up and down 2. incubate for 5’ 70°C 3. cool at room temperature for 10’ (annealing) 4. spin down the mixture to the bottom of the tube 5. place on ice Reverse transcription Reverse Transcription Mix 4 µl 5x buffer 2 µl 0.1 M DTT 1 µl dNTP-mix 1 µl AA-dUTP 1 µl TMIII (keep only briefly outside 20°C) 20 µl TOTAL 1. Mix by very gently by pipetting up and down (vigorous pipetting will denature the enzyme!) 2. Incubate for 3 hrs at 42°C (in PCR-machine) 3. Cool on ice for immediate purification or place at 20°C for storage Degradation of mRNA 1. Add 2 µl 2,5 M NaOH 2. Mix (vortex) and spin down 3. Incubate for 15 min. at 37°C 4. Add 10 µl 2 M HEPES free acid 5. Mix (vortex) and spin down 6. Ready for purification or store at 20°C Labelling of cDNA with cyanine dyes Purification of amino allyl-modified cDNA Followed Ge Healthcare kit "Amersham CyDye (Cy3/Cy5)Reactive Dye Protocols for Post Labelling Aminoallyl-cDNA and Aminoallyl-aRNA" code RPN5661 Labelling of amino allyl-modified cDNA with CyDye 1. Add the amino allyl modified cDNA (in 0.1 M sodium bicarbonate) directly into one aliquot of CyDye NHS Ester. Resuspend the ester completely by pipetting several times and transfer the solution to an amber 1.5 ml tube 2. Incubate at room temperature, in the dark for 60 to 90 minutes 3. Add 15 µl 4 M Hydroxylamine to each coupling reaction 4. Mix by stirring and incubate at room temperature, in the dark, for 15 minutes 5. Proceed directly to purification of CyDye-labelled cDNA Purification of CyDye labelled cDNA Followed Ge Healthcare kit "Ame
|
| |
|
| |
| Hybridization protocol |
Hybridization version 4.1" Agilent hybridization protocol v 4.
|
| Scan protocol |
Scanning protocol Using the Scan Array Express microarray scanner. 1.Turn on the scanner and the computer (in this order) 2.Login: scanner 3.Double click the 'ScanArray Express' icon 4.Switch on lasers 1 and 3 at least 15 minutes prior to scanning arrays 5.Click the 'File' button This is to prevent you from accidentally turning off the laser after the 15 minutes warming-up phase 6.Insert the slide with the array-side up and the label towards the outside. On Agilent slides the array side is the side with the label that has the word "Agilent" on it 7.Press 'Scan | Prescan' 8.Put resolution at 50 m, select both labels used, and set PMT values for both channels at for instance 40% (Agilent arrays) 9.Press 'Start' 10.Press 'Palette,' 'Green' as soon as projection of the image has started (first dye), select the red colour as soon as scanning of the second layer (second dye) has started 11.Adjust PMT values to balance signals obtained for both channels. If necessary do a few low-resolution scans to obtain a optimal balance 12.Click the 'Scan' button again 13.Select frame for high resolution scan, adjust resolution (to 10 m) and scan the array for both dyes 14.Press 'File | Save' to save the files, 'Save all' saves both dye layers "Create a new folder for each array "'Save all' saves the signals from both layers in individual files 15.Switch off the lasers and the scanner after use
|
| Description |
wt vs TRXB1
|
| Data processing |
Data Processing" 1.- Background correction (Mean values) 2.-Filtering Flagged spots 3.-Normalization Lowes
|
| |
|
| Submission date |
Jul 02, 2007 |
| Last update date |
Aug 14, 2011 |
| Contact name |
L. Mariela Serrano |
| Organization name |
TI Food and Nutrition
|
| Street address |
Nieuwe Kanaal 9A
|
| City |
Wageningen |
| ZIP/Postal code |
6709 PA |
| Country |
Netherlands |
| |
|
| Platform ID |
GPL4318 |
| Series (1) |
| GSE8348 |
trxB1 overexpression response to hydrogen peroxide stress in Lactobacillus plantarum WCFS1 |
|
| Data table header descriptions |
| ID_REF |
Spot identifier, references platform spot identifier |
| SIGNAL_CH1 |
|
| SIGNAL_CH2 |
|
| VALUE |
-[INV_VALUE]; log2(test/reference) |
| F_CH1_MEAN |
Channel1 mean of spot pixel intensities |
| B_CH1_MEAN |
Channel1 mean of spot background pixel intensities |
| F_CH2_MEAN |
Channel2 mean of spot pixel intensities |
| B_CH2_MEAN |
Channel2 mean of spot background pixel intensities |
| INV_VALUE |
Log2 of ratio (Channel1 normalized signal/Channel2 normalized signal) |
