Team:Stanford/Notebook/Lab Work/Week 4

From 2010.igem.org

(Difference between revisions)
(Karina's Notebook)
 
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==7/19 Monday==
==7/19 Monday==
 +
===Alex's Notebook===
 +
 +
Run diagnostic.
 +
Restreak/inoculate.
 +
Gel extracted B0014.
 +
PCR parts.
 +
Finish other primers.
 +
 +
=== Laura's Notebook ===
=== Laura's Notebook ===
set up the following ligations from the gel extractions done by me, Karina, and Francisco on Friday, 7/14/10)
set up the following ligations from the gel extractions done by me, Karina, and Francisco on Friday, 7/14/10)
Line 41: Line 50:
Goal: Laura will ligate GFP and RFP and ligate them to terminators. We received our RSID + RBS oligos in the mail, so I will work on the PCR. I first need to make freezer stock and working stock of oligos. Won't start PCR until after lunch because we'll leave them overnight with Chris' PCR reactions. <br/><br/>
Goal: Laura will ligate GFP and RFP and ligate them to terminators. We received our RSID + RBS oligos in the mail, so I will work on the PCR. I first need to make freezer stock and working stock of oligos. Won't start PCR until after lunch because we'll leave them overnight with Chris' PCR reactions. <br/><br/>
-
'''Make TRIS ACL'''<br/>
+
'''Make Tris-HCl'''<br/>
-
Need .01 L of  10mM TRIS ACL solution. So, add 15.76 mg TRIS ACL to 10 mL H20.
+
Need .01 L of  10mM Tris-HCl solution. So, add 15.76 mg Tris-HCl to 10 mL H20.
*Hard to weigh out 15.8 mg, so instead got to 18.3 mg.
*Hard to weigh out 15.8 mg, so instead got to 18.3 mg.
*Determined that need to add this to 11.6 mL H20 <br/>
*Determined that need to add this to 11.6 mL H20 <br/>
'''Make Freezer Stock of Oligos'''<br/>
'''Make Freezer Stock of Oligos'''<br/>
-
Want 100 uM solution of TRIS ACL solution <br/>
+
Want 100 uM solution of Tris-HCl solution <br/>
-
*Amount of TRIS ACL to add depends on  how much of the oligo's we received.  
+
*Amount of Tris-HCl to add depends on  how much of the oligo's we received.  
{| border="1"
{| border="1"
Line 53: Line 62:
|amount (nmol)
|amount (nmol)
|mass (mg)
|mass (mg)
-
|amount of TRIS to add (uL)
+
|amount of Tris to add (uL)
|-
|-
|RSID 1 + RBS Forward
|RSID 1 + RBS Forward
Line 83: Line 92:
'''PCR Assembly '''<br/>
'''PCR Assembly '''<br/>
-
PCR Recipe calls for:<br/>
+
PCR Protocol calls for:<br/>
1.25 uL reverse primer <br/>
1.25 uL reverse primer <br/>
1.25 uL forward primer <br/>
1.25 uL forward primer <br/>
 +
DNA Template <br/>
50 uL PCR supermix<br/>
50 uL PCR supermix<br/>
-
*Add 4 times as much of each primer for PCR assembly. <br/>
+
*For PCR Assembly, do not need DNA template. Also, add 4 times as much of each primer for PCR assembly. <br/>
''Revised Recipe''<br/>
''Revised Recipe''<br/>
5 uL Forward Primer <br/>
5 uL Forward Primer <br/>
Line 94: Line 104:
*we'll be using awesome PCR supermix- KEEP ON ICE
*we'll be using awesome PCR supermix- KEEP ON ICE
*Ran PCR with Chris, left running overnight
*Ran PCR with Chris, left running overnight
 +
 +
===Francisco's Notebook===
 +
*Helped Karina and Laura
 +
 +
===Chris's Notebook===
 +
 +
Ligations (Round 2)
 +
*F2620+sfGFP+psb1A2
 +
*pBAD+sfGFP+psb1A2
 +
*F2620+sfGFP+psb3C5
 +
*pBAD+sfGFP+psb3C5
 +
*Ligations were put in 4 degrees on Saturday
 +
 +
Made Electrocompetent Cells using Yvonne Chen (Smolke Lab) Protocol
 +
BW strain for I0500 (final strain), and DH10B cells (intermediate steps)
 +
 +
PCR Assembly of embCAB Promoter
 +
*4 nmol; add 40 ul of Tris-HCl (40 ul of 100 mM reaction)
 +
*Use PCR HF SuperMix
 +
*For each reaction:
 +
*2.5 ul of forward primer (Mine and Jerome’s)
 +
*2.5 ul of reverse primer (Mine and Jerome’s)
 +
*1.0 ul of DNA template (DNA miniprepped from today)
 +
*45.0 ul of PCR HF SuperMix
 +
*Primer Dilution-initially at 100 mM, bring to 10 mM
 +
 +
Inoculate
 +
*pSB3C5
 +
*pSB1A2
 +
*F2620
 +
*I0500
==7/20 Tuesday==
==7/20 Tuesday==
 +
===Alex's Notebook===
 +
 +
1. Pick an isolated colony from an LB plate and grow overnight in 3–5 ml of LB at 37C.
 +
2. Next morning, add 0.5 ml of the culture to 25 ml of LB in a 250-ml flask and grow at 37C to an OD600 of 0.50–0.60.
 +
3. Transfer the culture to a 50-ml Falcon tube and spin at 6,000g in prechilled rotor for 10 min at 4C.
 +
4. Wash the cell pellet with 20 ml of ice-cold H2O then centrifuge again as above.
 +
5. Resuspend the pellet in 1 ml of H2O and transfer to a chilled 1.5-ml tube. Spin at 10,000g for 30 seconds at 4C.
 +
6. Wash the cells again with 1 ml of ice cold H2O and centrifuge as above.
 +
7. Repeat the above wash and spin step.
 +
1. Resuspend the cell pellet in H2O in a final volume of 100μl and keep on ice.
 +
 +
Made LB. Lots of it.
 +
Check primers for MT.
 +
Make more competent cells.
 +
Digested PCR products (E/P). Ran most of the gel. Gel extract. I0500+B0034, F2620+B0034, J23107+B0034, AfsS C, and AfsS N. Ligate onto 1A2.
 +
Transform, with the old samples as well.
 +
Ran another PCR: 3,3,5,5,5.
 +
 +
===Laura's Notebook===
===Laura's Notebook===
helped Alex with preparation of competent cells
helped Alex with preparation of competent cells
Line 107: Line 167:
#RSID2/RBS
#RSID2/RBS
 +
===Karina's Notebook===
 +
Goals: Run gel of PCR Assembly Product, gel extraction, digest, then run PCR clean up. <br/><br/>
 +
 +
'''Make Gel'''<br/>
 +
*Chris made me an 0.8% agarose gel <br/><br/>
 +
 +
'''Load Gel'''<br/>
 +
*added 10 uL loading dye directly into PCR tubes
 +
*loaded 40 uL of each sample into wells <br/><br/>
 +
 +
'''Gel Results''' <br/>
 +
[[Image:072010_RSID1.jpg | none | frame | left to right: 1kb ladder, RSID1 PCR reactions A, B and C]] <br/><br/>
 +
[[Image:072010_RSID2.jpg | none | frame | left to right: 1kb ladder, RSID2 PCR reactions A, B and C]] <br/><br/>
 +
''Analysis/Observations'' <br/>
 +
Gel looked a little streaky to me, but we really only need the brightest bands (as circled). For next time: <br/>
 +
*use 100 bp ladder (instead of 1 kb)
 +
*Don't even bother with gel extraction after running a PCR. It is highly inefficient and a lot of DNA will be lost. Instead, run a a diagnostic gel to check that PCR assembly worked but then proceed to run a PCR cleanup and then digest. <br/><br/>
 +
*Gel with 100bp ladder:
 +
[[Image:072010_gel.jpg | none | frame | left to right: 100bp ladder, RSID 1, RSID 2]]
 +
 +
'''Extraction'''<br/>
 +
Extracted 1A, 1B, 2B, and 2C from the gel. <br/>
 +
 +
{| border="1"
 +
|sample
 +
|tube mass (g)
 +
|mass w/getl (g)
 +
|gel mass (g)
 +
|volume of QG to add (uL)
 +
|-
 +
|1A
 +
|1.01
 +
|1.25
 +
|.24
 +
|720
 +
|-
 +
|1B
 +
|1.01
 +
|1.28
 +
|.27
 +
|810
 +
|-
 +
|2B
 +
|1.01
 +
|1.24
 +
|.23
 +
|690
 +
|-
 +
|2C
 +
|1.01
 +
|1.24
 +
|.23
 +
|690
 +
|-
 +
|}
 +
 +
*extracted and incubated each of the samples separately. To combine, loaded 1A and 1B into one spin column and 2B and 2C into another. Loaded up to 800 uL, spun down, loaded, then spun again. Then continued to follow [http://molecool.wustl.edu/krolllab/Kroll_Lab_Protocols/Molecular%20Biology%20protocols/Cloning%20protocols%20folder/Gel%20extraction-Qiagen.pdf procedure]. <br/><br/>
 +
 +
'''PCR Assembly'''<br/>
 +
Set up another PCR assembly of RSID 1 and RSID 2 so that we have samples that have not been gel extracted. Ran another three samples of each. Will let run overnight.
 +
*Primers were designed to anneal at 55º, but set up a temperature gradient to test annealing at other temperatures.
 +
{| border="1"
 +
|RSID
 +
|temperature (ºC)
 +
|-
 +
|1A
 +
|68
 +
|-
 +
|1B
 +
|63
 +
|-
 +
|1C
 +
|56
 +
|-
 +
|2A
 +
|68
 +
|-
 +
|2B
 +
|63
 +
|-
 +
|2C
 +
|56
 +
|-
 +
|}
 +
 +
===Greg's Notebook===
 +
 +
*Miniprepped pBAD, F2620, pSB1a2, pSB3c5
 +
*Ran nanodrop diagnostic:
 +
{|
 +
|Part # || 280 || 230 || concentration (ng/uL)
 +
|-
 +
|pBAD || 1.95 || 1.33 || 54.7
 +
|-
 +
|F2620 || 1.88 || 1.48 || 185.1
 +
|-
 +
|pSB3c5 || 1.71 || 0.85 || 40.4
 +
|-
 +
|pSB1a2 || 1.81 || 1.38 || 153.4
 +
|}
 +
*Poured large gel
 +
*Helped Chris with electroporation transformation
 +
 +
===Chris's Notebook===
 +
Miniprep of:
 +
 +
-pSB3C5
 +
 +
-pSB1A2
 +
 +
F2620
 +
 +
I0500
 +
 +
Gels of PCR of embCAB Promoter and sfGFP
 +
 +
Ligation Transformations (2 ul of each into 50 ul of electrocompetent)
 +
 +
-F2620+sfGFP+psb1A2
 +
 +
-pBAD+sfGFP+psb1A2
 +
 +
-F2620+sfGFP+psb3C5
 +
 +
-pBAD+sfGFP+psb3C5
 +
 +
PCR of sfGFP and embCAB
==7/21 Wednesday==
==7/21 Wednesday==
 +
===Alex's Notebook===
 +
 +
Redo ligations (3,7,7,2,1). Transform. Plate. Also run control.
 +
PCR: clean up, digest (FUCK UP: CUT w/ EP???), and gel electrophoresis (check lengths of DNA), ligate, and transform. Tomorrow.
 +
Diagnostic:
 +
I0500 (1255 bp) Good
 +
F2620 (1106 bp) Bad => primers were incorrect.
 +
J107 (98 bp) Not seen. Not seen again either on second try (1, 1.5, 2 ul template, working, stock).
 +
AfsS C (123 bp) Good
 +
AfsS NC (104 bp) Good
 +
 +
Redid PCR for J107 (6): 1,1.5,2 template, w/ stock or working primers.
 +
Made more RDs:
 +
1A2 (2079 – 1069, EP),
 +
3C5 (2738 – 1069, EP),
 +
T9 (1945, use BglI, 936 and 1221, EP), and (also use natural minipreped stuff, just diluted, on 1A3, to check transformation growth)
 +
F2620 (1061 – 2079, ES) (also cut at just SP, since on 1A2)
 +
E24 (876 – 2079, ES) and (also cut at just SP, since on 1A2). Mistake.
 +
Minipreped more cultures.
 +
Use above two for ligations to avoid red shit.
 +
 +
===Laura's Notebook===
===Laura's Notebook===
today's digestions:
today's digestions:
*RSID1, RSID2 (gel extracted from first PCR done by Karina)- digest with XbaI, PstI
*RSID1, RSID2 (gel extracted from first PCR done by Karina)- digest with XbaI, PstI
**run overnight; started at 11:30am
**run overnight; started at 11:30am
-
*promoters within backbones (I0500-from Greg's box, and F2620-from Chris' box)- digest with SpeI, then PstI
+
*promoters within backbones (I0500-from Greg's box, and F2620-from Chris' box)- digest with SpeI, then PstI (done by Francisco)
**SpeI digest run for 3 hours, then heat killed 20 min. at 80oC, then PstI added overnight (to reduce enzyme competition for sites on the DNA, since recognition sequences are very close to each other)
**SpeI digest run for 3 hours, then heat killed 20 min. at 80oC, then PstI added overnight (to reduce enzyme competition for sites on the DNA, since recognition sequences are very close to each other)
Recipe:
Recipe:
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|}
|}
 +
===Karina's Notebook===
 +
Goal: Left Laura to gel extract previous PCR product as I worked on the new PCR product. Today, must make and run a diagnostic gel, PCR clean up, then digest RSID 1 and RSID 2. <br/><br/>
 +
 +
'''Make TAE''' <br/>
 +
Need a 1 L solution; we have 50x TAE stock <br/>
 +
* 20 mL 50x TAE + 980 mL H20<br/><br/>
 +
 +
'''Make Gel''' <br/>
 +
Want a 2% agarose gel because oligos are short (~220 bp).
 +
*1 g agarose + 50 mL TAE
 +
*10 uL EtBr <br/>
 +
 +
Also, made Chris an 0.8% agarose gel (to repay him for yesterday). <br/><br/>
 +
 +
'''Load Gel''' <br/>
 +
10 uL 100 bp ladder<br/>
 +
1 uL dye + 1 uL DNA<br/><br/>
 +
 +
'''Results'''<br/>
 +
[[Image:072110_RSID1_RSID2 .jpg | none | frame | 100bp ladder, RSID1 and RSID2 PCR reactions]]<br/>
 +
 +
Great! No difference in the annealing temperatures. All bands are clear and bright, can use all three samples for restriction digests. <br/><br/>
 +
 +
'''PCR Cleanup'''<br/>
 +
Used Qiagen MinElute PCR Purification Kit Protocol. <br/>
 +
*50 uL reaction, therefore use 250 uL buffer PB
 +
*Followed protocol and eluted in 10 uL water. <br/><br/>
 +
 +
''' Restriction Digest''' <br/>
 +
Cut at X and P <br/>
 +
 +
''Recipe''<br/>
 +
* 10 uL DNA
 +
* 5 uL NEBuffer 2
 +
* 5 uL BSA
 +
* 1 uL Xba
 +
* 1 uL Pst
 +
* 28 uL H20
 +
Total volume: 50 uL <br/><br/>
 +
Let run overnight in 37º waterbath
 +
 +
===Francisco's Notebook===
 +
*Digested  RSID+RBS's and promoter backbones
 +
** RSID1+RBS: digested with Xba1 and Pst1
 +
** RSID2+RBS: digested with Xba1 and Pst1
 +
**pBad (I0500): digested with Spe1, then heat inactivated, then digested with Pst1^
 +
**pLux (F2620): digested with Spe1, then heat inactivated, then digested with Pst1^
 +
^The restriction enzymes were added one after the other so that they would not compete when binding to nearby stretches of DNA.
 +
 +
*Made 100uL of 10X BSA stock from 100X BSA stock.
 +
 +
*Laura ligated GFP and RFP inserts to terminator backbones on Monday. Ligated terminator backbones to itself (no insert added) as a control to check that the terminator backbone was cut at both E and X.
 +
 +
===Greg's Notebook===
 +
 +
*Ran restriction digest of miniprepped DNA
 +
*Inoculated 3 tubes each with 5 mL LB and F2620, T9002, pSB3c5, pSB1a2, I0500, E0240
 +
*Gel-extracted some stuff for Alex
 +
*Did two electroporations
 +
 +
===Chris's Notebook===
 +
 +
Run Gel of PCR Products (sfGFP and embCAB promoter)
 +
 +
See if Ligations Worked
 +
 +
Restriction Digests of:
 +
 +
Psb3C5: E/P
 +
 +
pSB1A2: E/P
 +
 +
F2620: S/P
 +
 +
pBAD: E/S
 +
 +
Did two each
 +
 +
Ligations did not grow-possibly because they were sitting for over 5 days at room
 +
temperature.
 +
 +
PCR of embCAB did not work-got multiple products, ran again:
 +
 +
Use PCR HF SuperMix
 +
 +
For each reaction:
 +
 +
5.0 ul of forward primer
 +
 +
5.0 ul of reverse primer
 +
 +
1.0 ul of DNA template (DNA miniprepped from today)
 +
 +
40.0 ul of PCR HF SuperMix
 +
 +
Primer Dilution-initially at 100 mM, bring to 10 mM
 +
 +
PCR of sfGFP worked-got expected bands; approximated 1200 bp
 +
 +
==7/22 Thursday==
 +
===Alex's Notebook===
 +
 +
Do above.
 +
Check plates. Re-streak some.
 +
Gel electrophoresis for miniprep restriction digest. Gel extraction and ligation.
 +
Gel electrophoresis for restriction digest of PCR stuff. Gel extraction and ligation.
 +
PCR cleanup for J107, check with Isis/Ryan first.
 +
Inoculated J23100, J23107, and transformed J23119.
 +
P1, 18A, Plasmid: pSB1A2
 +
 +
Make:
 +
.8% gel with 15 wells. Run green.
 +
3% gel with 15 wells. Run blue.
 +
 +
 +
===Laura's Notebook===
 +
*did gel extraction (Qiaquick Gel Extraction Kit) on the following samples:
 +
{|
 +
| part/digestion || mass tube (g) || mass tube + gel (g) || mass gel (g) || uL QG to add
 +
|-
 +
| I0500 (pBAD) || 1.00 || 1.06 || 0.06 || 180
 +
|-
 +
| F2620 || 1.00 || 1.05 || 0.05 || 150
 +
|-
 +
| RSID1KP || 1.00 || 1.05 || 0.05 || 150
 +
|-
 +
| RSID1LEO || 1.01 || 1.08 || 0.07 || 210
 +
|-
 +
| RSID2KP || 1.00 || 1.07 || 0.07 || 210
 +
|-
 +
| RSID2LEO || 1.01 || 1.05 || 0.04 || 120
 +
|}
 +
**RSID1KP and RSID2KP- PCR done by Karina, then gel extracted prior to digestion, digestion done by Karina
 +
**RSID1LEO and RSID2LEO- PCR done by Karina, digested by Laura
 +
*ran on 1.5% gel at 75V for 1 hour
 +
**10uL ladder (1KB)
 +
**1uL each sample + 1uL loading dye- in order on chart
 +
 +
Gels used for gel extraction
 +
*Digested RSID's:
 +
[[Image:072210_RSID_digests.jpg | none | frame | left to right:  RSID1_KP (cut at X, P), RSID1 uncut ctrl, RSID1_LEO (cut at X, P), RSID2_KP (cut at X, P), RSID2 uncut ctrl, RSID2_LEO (cut at X, P) ]]
 +
*Digested Promoters:
 +
[[Image:072210_pBad_pLux_digests.jpg | none | frame | left to right: pBad uncut ctrl, pBad cut at S, P, pLux uncut ctrl, pLux cut at S, P |]]
 +
 +
Made 4 0.5L bottles of agar
 +
*recipe:
 +
** 5 g bacto-peptone
 +
** 2.5 g yeast extract
 +
** 2.5 g NaCl
 +
** 6 g agar
 +
** 485 mL dH2O (did first bottle in graduated cylinder, powders shifted volume by 15 mL- 450 mL went up to 465 mL, mixed and added to bottle, then used 35 mL dH20 to rinse cylinder contents into bottle)
 +
 +
===Karina's Notebook===
 +
Goal: Laura did gel extraction of RSIDs, F2620, and I500 this morning. We'll need to ligate the IDs to the promoters then transform, but must wait until Francisco gel etracts promoters. In the mean time, I helped Chris with his PCR cleanup:
 +
 +
{| border="1"
 +
|Samples
 +
|Volume
 +
|PB To add (uL)
 +
|-
 +
|G1
 +
|50
 +
|250
 +
|-
 +
|G2
 +
|50
 +
|250
 +
|-
 +
|G3
 +
|50
 +
|250
 +
|-
 +
|LM (X/P)
 +
|50
 +
|250
 +
|} <br/>
 +
 +
Tomorrow; Run diagnostic gel of PCR products, PCR cleanup, digest, ligate <br/><br/><br/>
 +
 +
<br/><br/>
 +
For G1, G2, and G3, elute in 50 uL H20. <br/>
 +
For LM X/P elute in 30 uL H20. Because LM is ready for ligation, eluting in 30 uL makes it more concentrated.<br/><br/>
 +
 +
'''RECIEVED OLIGOS!'''<br/>
 +
''make 100 uMol stock''
 +
 +
{| border="1"
 +
|
 +
|Primer (F or R)
 +
|nmol
 +
|TRIS-HCL to add (uL)
 +
|-
 +
|sRNA_1
 +
|F
 +
|4
 +
|40
 +
|-
 +
|sRNA_1
 +
|R
 +
|4
 +
|40
 +
|-
 +
|sRNA_2
 +
|F
 +
|4
 +
|40
 +
|-
 +
|sRNA_2
 +
|R
 +
|2.7
 +
|33
 +
|-
 +
|sRNA_1C
 +
|F
 +
|4
 +
|40
 +
|-
 +
|sRNA_1C
 +
|R
 +
|3.3
 +
|33
 +
|-
 +
|sRNA_2C
 +
|F
 +
|4
 +
|40
 +
|-
 +
|sRNA_2C
 +
|R
 +
|4
 +
|40
 +
|-
 +
|}
 +
 +
''Make 10 uMol Working Stock''<br/>
 +
90 uL H20 + 10 uL Oligo Stock <br/><br/>
 +
 +
'''Set up PCR of sRNAs'''<br/>
 +
Recipe:<br/>
 +
5 uL forward primer<br/>
 +
5 uL Reverse primer<br/>
 +
40 uL PCR Supermix<br/><br/>
 +
Make 3 PCR reactions of each sRNA to test temperature gradient. <br/>
 +
{|
 +
|sRNA 1 labeled as 1,
 +
|sRNA 2 labeled as 2
 +
|-
 +
|sRNA 1C labeled as 1C,
 +
|sRNA 2C labeled as 2C
 +
|-
 +
|}
 +
<br/>
 +
{| border="1"
 +
|55.4 ºC
 +
|61.9ºC
 +
|52.0ºC
 +
|-
 +
|1a
 +
|1b
 +
|1c
 +
|-
 +
|2a
 +
|2b
 +
|2c
 +
|-
 +
|1Ca
 +
|1Cb
 +
|1Cc
 +
|-
 +
|2Ca
 +
|2Cb
 +
|2Cc
 +
|}
 +
 +
===Francisco's Notebook===
 +
*Digested RSID's did not show up in the diagnostic gel:
 +
[[Image: 072210_pBad_pLux_RSID1_RSID2_digest_diagnostic.jpg | none | frame | left to right: 1kb ladder, digested parts: pBad, pLux, RSID1, RSID2 (latter two not so visible)]]
 +
*Rerun diagnostic gel for the RSID's, using high percentage gel and 100kb ladder:
 +
[[Image: 072210_RSID1_RSID2_digest_diagnostic_2.jpg | none | frame | left to right: 100bp ladder, RSID1_KP, RSID1_LEO, RSID2_KP, RSID2_LEO. Notes: loaded every other lane, KP lanes do not have visible bands, LEO lanes have very faint bands under high exposure]]
 +
*Possible problems:
 +
**Gel extraction has low yield. Plan for next time: re-run PCR of RSID's, but forgo gel extract if PCR reaction is clean.
 +
**Not enough DNA was loaded in the gel. Plan for next time: try loading more volume of DNA
 +
 +
*We have prepared GFP-terminator and RFP-terminator ligations on Monday, and a control ligation with the terminator backbone and no insert on Wednesday. Hope to transform bacteria with those ligations soon.
 +
**Re-aliquoted 1000uL of electrompetent cells Alex prepared into 20 tubes of 50uL each. Stored in 80 deg C freezer and will start transformations on Friday.
 +
 +
===Chris's Notebook===
 +
 +
Run Diagnostic Gel of embCAB PCR
 +
 +
Run Gel of Restriction Digests:
 +
 +
Psb3C5: E/P 2738 bp
 +
 +
pSB1A2: E/P 2000 bp
 +
 +
F2620: S/P 4000 bp
 +
 +
pBAD: E/S 1210 bp
 +
 +
PCR Cleanup of sfGFP
 +
 +
Ligations of:
 +
 +
-Linearized F2620+sfGFP
 +
 +
-pBAD+sfGFP+psb1A2
 +
 +
-pBAD+sfGFP+psb3C5
 +
 +
DNA vector
 +
 +
Insert
 +
 +
10x buffer
 +
 +
Ligase
 +
 +
ATP (optional)
 +
 +
NP water
 +
 +
Wait 2 hours, then transform
 +
 +
250-500 ng (5 ul of vector)
 +
 +
5-20x of vector (equal amounts 5 ul of each insert)
 +
 +
2 μl
 +
 +
1 μl
 +
 +
1 μl of 10 mM stock (4C)
 +
 +
Bring to 20 μl total volume
 +
 +
==7/23 Friday==
 +
 +
===Friday Recap Meeting===
 +
*Leader: Francisco
 +
 +
 +
===Alex's Notebook===
 +
Ran e0240 and i0500 on .8% gel.
 +
PCR RD => do MinElute and record concentration, ligate, and transform as appropriate (DH5a). Run diagnostic; determine which is which and check for brightness.
 +
Primers.
 +
Redo PCR; gradient.
 +
Sequence J23107.
 +
 +
===Karina's Notebook===
 +
Goal: Diagnostic gel of sRNA's. PCR cleanup ad digest. <br/><br/>
 +
 +
'''Make 2% Agarose gel'''<br/>
 +
And make .8% and 3% diagnostic gel for Alex<br/>
 +
Four our diagnostic gel, Load 10uL 100 bp ladder, 1uL dye + 1uL sample<br/>
 +
Run at 75 V for 45 min. <br/><br/>
 +
 +
'''Redo PCR for RSIDs''' <br/>
 +
Rayka says:
 +
*Keep samples on ice until very last minute, right before you place them in PCR block <br/>
 +
*make sure to preheat the block before you place samples in<br/>
 +
*want high specificity of melting and annealing temperatures<br/><br/>
 +
 +
'''PCR Cleanup of sRNAs'''<br/>
 +
RUINED. I mixed up the buffers. :(
 +
 +
===Laura's Notebook===
 +
designed primers for colony PCR
 +
 +
tips for primer design (from Smolke Lab, via Chris VanLang)
 +
*18-24 bases
 +
*~60oC annealing temperature
 +
*avoid: high or low GC content, repeats of >3 bases
 +
*for use in later sequencing reactions, place primers ~ 50 bp outside region of interest
 +
 +
primer sequences:
 +
 +
pBADfor:
 +
gattagcggatcctacctgacgc
 +
 +
2K3rev:
 +
GGAAGCCTGCATAACGCGAAGT
 +
 +
F2620for:
 +
gggtgggcctttctgcgtttatat
 +
 +
IA2rev:
 +
AGTGAGCTGATACCGCTCGC
 +
 +
pairs:
 +
*pSB2K3, I0500 (pBAD)
 +
*pSB1A2, F2620 (pLUX)
 +
 +
===Francisco's Notebook===
 +
*Reran PCR assembly (30 cycles of 'YA' program) of RSID's+RBS
 +
**ran three reactions for RSID1+RBS (tubes labelled 1a, 1b, 1c) and RSID2+RBS (tubes labelled 2a, 2b, 2c)
 +
**annealing temperatures (deg C): 57.0, 55.2, 53.7 for a, b, c respectively.
 +
**gel results looked good:
 +
[[Image:072310_RSIDs+RBS_PCR_diagnostic.jpg | none | frame | left to right: 1a, 1b, 1c, 2a, 2b, 2c, 100bp ladder, 1a, 1b, 1c, 2a, 2b, 2c. Note: left of the ladder - 1ul sample + 1ul dye; right of the ladder - 5uL sample + 1uL dye.]]
 +
 +
*Transformed E. coli BW strain with ligations prepared earlier in the week: GFP-terminator, RFP-terminator, and terminator ligated with no insert (negative control). 0.5 uL of DNA was used for each transformation and the settings on the zapper was 2000 V, 25 uF, 200 ohms. Some of the cells sparked and had to be discarded. Incubated for almost an hour after electroporation, spun down the cells at 3000g for 3 min. Transferred cells to plates, and left the plates to incubate overnight.
 +
 +
*Saturday morning update: None of the plates had colonies. =(
 +
 +
===Chris's Notebook===
 +
 +
Retransform Ligations:
 +
 +
-F2620+sfGFP+psb1A2
 +
 +
-pBAD+sfGFP+psb1A2
 +
 +
-F2620+sfGFP+psb3C5
 +
 +
-pBAD+sfGFP+psb3C5
 +
 +
Spin cells down (14000xg for 5 minutes); re-suspend in 100 ul of SOC, plate)
 +
 +
Gel Extract I0500 (pBAD); concentrate into 1 elution.
 +
 +
Restriction Digest of embCAB Promoter
 +
 +
Plasmid
 +
 +
Each enzyme
 +
 +
NEB buffer 2
 +
 +
10x BSA
 +
 +
NP water
 +
 +
Use EcoR1-HF with NEBuffer 2
 +
 +
12.0 μl
 +
 +
1.0 μl
 +
 +
5.0 μl
 +
 +
5 μl (optional depending on enzymes used)
 +
 +
Bring to 50 μl total volume (26 ul)
 +
 +
==7/24 Saturday==
 +
===Alex's Notebook===
 +
Inoculated 100, 107, and 119 at 2:10 pm
 +
 +
Ligations: A few. 4, 6.5, 6.5, 2, 1 or 4, 6, 2, 1, 7 H2O.
 +
3C5: T9 and I5+E24 In progress
 +
1A2: T9 and I5+E24 In progress
 +
 +
PCR:
 +
sGFP In progress
 +
ATEAM: 45 supermix, 1.5 ul primers, and 2 ul template (I746908 2093 bp).
 +
 +
DpnI: get rid of template
 +
Cuts: GAmeTC/ CTAmeG
 +
Reacts: 37 C for 1 hour
 +
Denatures: 20 min at 80 C
 +
Nanodrop
 +
Diagnostic gel (883 bp)
 +
 +
PCR purify
 +
Nanodrop
 +
 +
Restriction Digest
 +
Some at EP and some at XP
 +
Nanodrop
 +
 +
Enz clean up
 +
Nanodrop
 +
 +
Promoters
 +
Freezer stock: 100 uM (use 10 mM Tris-HCL)
 +
Working stock: 20 uM (5x dilution)
 +
Std. PCR: 45 supermix, 500 nM primers (1.25 ul from 20 uM), 250 ng (varies by concentration) template, variable H2O.
 +
Stiching PCR: 40 supermix, 5 ul each promoter (2000 nM).
 +
Try: 45sm, 1.25 ul each (500 nM) and 3.75 H2O.
 +
Gel: 12 (40), 34, 12 (45), 34, 1.25, .625, O4, O5, C3, C6, N3, and N5
 +
 +
To be done:
 +
I5+RBS: 160 ul total, split into 8x 20 ul. 144 ul of supermix, 8 ul (2x 4 ul) primers, 800 ng template (),
 +
variable H2O.
 +
Grad (50-60): 50, 50.8, 52.1, 54, 56.2, 58, 59.3, 60
 +
F26+RBS
 +
Primers not here.
 +
 +
J100+RBS
 +
Template not ready until 3 am.
 +
 +
J107+RBS
 +
Template unconfirmed. Wait until 3 am.
 +
 +
 +
In progress:
 +
Afs C: 160 ul total, split into 8x 20 ul. 144 ul of supermix, 8 ul (2x 4 ul) primers.
 +
Grad (50-60), 5 cycles
 +
Conc. Fwd: .027 umoles
 +
Rev: .023 umoles
 +
Afs NC: 160 ul total, split into 8x 20 ul. 144 ul of supermix, 8 ul (2x 4 ul) primers.
 +
Grad (50-60), 5 cycles
 +
Conc. Fwd: .030 umoles
 +
Rev: .030 umoles
 +
 +
Afs 4: 160 ul total, split into 8x 20 ul. 144 ul of supermix, 8 ul (4x 2 ul) primers.
 +
Original AfsS promoter.
 +
Grad (50-60), 5 cycles
 +
Conc. 1: .027 umoles
 +
2: .029 umoles
 +
3: .029 umoles
 +
4: .027 umoles
 +
 +
Inoculate: All on Amp
 +
100 In progress
 +
107 In progress
 +
119 In progress
 +
 +
Digest:
 +
B0034 at XP In progress
 +
 +
J100 at ES Not begun
 +
J107 at ES Not begun
 +
J119 at ES Not begun
 +
 +
Ligate into 3C5
 +
Screen C first, then Amp to confirm one plasmid present.
 +
 +
 +
Gel for PCR purification Ones that got f-ed up. In progress.
</div>
</div>

Latest revision as of 00:42, 27 October 2010

Contents

7/19 Monday

Alex's Notebook

Run diagnostic. Restreak/inoculate. Gel extracted B0014. PCR parts. Finish other primers.


Laura's Notebook

set up the following ligations from the gel extractions done by me, Karina, and Francisco on Friday, 7/14/10)

  • Francisco ran and imaged diagnostic gel on Friday
Ligation Recipe
dH2O none
vector (with terminators attached) 5.0 uL
insert (RFP or GFP) 12.0 uL
10X buffer 2.0 uL
T4 ligase 1.0 uL
  • normally run for 10 minutes at room temperature, overnight this time (started at 11:30 am)


Nanodrop data (deemed unreliable based on 260/230, possibly due do residual EtBr contamination)

part 260/280 260/230 ng/uL
vector/terminator 1.77 0.03 19.1
RFP 1.86 0.02 16.2
GFP 1.83 0.02 14.8


Karina's Notebook

Goal: Laura will ligate GFP and RFP and ligate them to terminators. We received our RSID + RBS oligos in the mail, so I will work on the PCR. I first need to make freezer stock and working stock of oligos. Won't start PCR until after lunch because we'll leave them overnight with Chris' PCR reactions.

Make Tris-HCl
Need .01 L of 10mM Tris-HCl solution. So, add 15.76 mg Tris-HCl to 10 mL H20.

  • Hard to weigh out 15.8 mg, so instead got to 18.3 mg.
  • Determined that need to add this to 11.6 mL H20

Make Freezer Stock of Oligos
Want 100 uM solution of Tris-HCl solution

  • Amount of Tris-HCl to add depends on how much of the oligo's we received.
amount (nmol) mass (mg) amount of Tris to add (uL)
RSID 1 + RBS Forward 70.2 1.82 702
RSID 1 + RBS Reverse 76.7 1.85 767
RSID 2 + RBS Forward 81.1 2.22 811
RSID 2 + RBS Reverse 83.5 2.09 835


Make Working Stock
Want a 10uM working stock solution

  • 900 uL water + 100 uL Freezer Stock Solution

PCR Assembly
PCR Protocol calls for:
1.25 uL reverse primer
1.25 uL forward primer
DNA Template
50 uL PCR supermix

  • For PCR Assembly, do not need DNA template. Also, add 4 times as much of each primer for PCR assembly.

Revised Recipe
5 uL Forward Primer
5 uL Reverse Primer
40 uL PCR Supermix

  • we'll be using awesome PCR supermix- KEEP ON ICE
  • Ran PCR with Chris, left running overnight

Francisco's Notebook

  • Helped Karina and Laura

Chris's Notebook

Ligations (Round 2)

  • F2620+sfGFP+psb1A2
  • pBAD+sfGFP+psb1A2
  • F2620+sfGFP+psb3C5
  • pBAD+sfGFP+psb3C5
  • Ligations were put in 4 degrees on Saturday

Made Electrocompetent Cells using Yvonne Chen (Smolke Lab) Protocol BW strain for I0500 (final strain), and DH10B cells (intermediate steps)

PCR Assembly of embCAB Promoter

  • 4 nmol; add 40 ul of Tris-HCl (40 ul of 100 mM reaction)
  • Use PCR HF SuperMix
  • For each reaction:
  • 2.5 ul of forward primer (Mine and Jerome’s)
  • 2.5 ul of reverse primer (Mine and Jerome’s)
  • 1.0 ul of DNA template (DNA miniprepped from today)
  • 45.0 ul of PCR HF SuperMix
  • Primer Dilution-initially at 100 mM, bring to 10 mM

Inoculate

  • pSB3C5
  • pSB1A2
  • F2620
  • I0500

7/20 Tuesday

Alex's Notebook

1. Pick an isolated colony from an LB plate and grow overnight in 3–5 ml of LB at 37C. 2. Next morning, add 0.5 ml of the culture to 25 ml of LB in a 250-ml flask and grow at 37C to an OD600 of 0.50–0.60. 3. Transfer the culture to a 50-ml Falcon tube and spin at 6,000g in prechilled rotor for 10 min at 4C. 4. Wash the cell pellet with 20 ml of ice-cold H2O then centrifuge again as above. 5. Resuspend the pellet in 1 ml of H2O and transfer to a chilled 1.5-ml tube. Spin at 10,000g for 30 seconds at 4C. 6. Wash the cells again with 1 ml of ice cold H2O and centrifuge as above. 7. Repeat the above wash and spin step. 1. Resuspend the cell pellet in H2O in a final volume of 100μl and keep on ice.

Made LB. Lots of it. Check primers for MT. Make more competent cells. Digested PCR products (E/P). Ran most of the gel. Gel extract. I0500+B0034, F2620+B0034, J23107+B0034, AfsS C, and AfsS N. Ligate onto 1A2. Transform, with the old samples as well. Ran another PCR: 3,3,5,5,5.


Laura's Notebook

helped Alex with preparation of competent cells

  • see protocol: [http://openwetware.org/wiki/Stanford/BIOE44:Module_1:Day3 Preparing Electrocompetent Cells]


ran diagnostic gel for PCR-assembled DNA (Karina set up PCR rxns yesterday)

  • order on gel:
  1. 100 bp ladder
  2. RSID1/RBS
  3. RSID2/RBS

Karina's Notebook

Goals: Run gel of PCR Assembly Product, gel extraction, digest, then run PCR clean up.

Make Gel

  • Chris made me an 0.8% agarose gel

Load Gel

  • added 10 uL loading dye directly into PCR tubes
  • loaded 40 uL of each sample into wells

Gel Results

left to right: 1kb ladder, RSID1 PCR reactions A, B and C


left to right: 1kb ladder, RSID2 PCR reactions A, B and C


Analysis/Observations
Gel looked a little streaky to me, but we really only need the brightest bands (as circled). For next time:

  • use 100 bp ladder (instead of 1 kb)
  • Don't even bother with gel extraction after running a PCR. It is highly inefficient and a lot of DNA will be lost. Instead, run a a diagnostic gel to check that PCR assembly worked but then proceed to run a PCR cleanup and then digest.

  • Gel with 100bp ladder:
left to right: 100bp ladder, RSID 1, RSID 2

Extraction
Extracted 1A, 1B, 2B, and 2C from the gel.

sample tube mass (g) mass w/getl (g) gel mass (g) volume of QG to add (uL)
1A 1.01 1.25 .24 720
1B 1.01 1.28 .27 810
2B 1.01 1.24 .23 690
2C 1.01 1.24 .23 690
  • extracted and incubated each of the samples separately. To combine, loaded 1A and 1B into one spin column and 2B and 2C into another. Loaded up to 800 uL, spun down, loaded, then spun again. Then continued to follow [http://molecool.wustl.edu/krolllab/Kroll_Lab_Protocols/Molecular%20Biology%20protocols/Cloning%20protocols%20folder/Gel%20extraction-Qiagen.pdf procedure].

PCR Assembly
Set up another PCR assembly of RSID 1 and RSID 2 so that we have samples that have not been gel extracted. Ran another three samples of each. Will let run overnight.

  • Primers were designed to anneal at 55º, but set up a temperature gradient to test annealing at other temperatures.
RSID temperature (ºC)
1A 68
1B 63
1C 56
2A 68
2B 63
2C 56

Greg's Notebook

  • Miniprepped pBAD, F2620, pSB1a2, pSB3c5
  • Ran nanodrop diagnostic:
Part # 280 230 concentration (ng/uL)
pBAD 1.95 1.33 54.7
F2620 1.88 1.48 185.1
pSB3c5 1.71 0.85 40.4
pSB1a2 1.81 1.38 153.4
  • Poured large gel
  • Helped Chris with electroporation transformation

Chris's Notebook

Miniprep of:

-pSB3C5

-pSB1A2

F2620

I0500

Gels of PCR of embCAB Promoter and sfGFP

Ligation Transformations (2 ul of each into 50 ul of electrocompetent)

-F2620+sfGFP+psb1A2

-pBAD+sfGFP+psb1A2

-F2620+sfGFP+psb3C5

-pBAD+sfGFP+psb3C5

PCR of sfGFP and embCAB

7/21 Wednesday

Alex's Notebook

Redo ligations (3,7,7,2,1). Transform. Plate. Also run control. PCR: clean up, digest (FUCK UP: CUT w/ EP???), and gel electrophoresis (check lengths of DNA), ligate, and transform. Tomorrow. Diagnostic: I0500 (1255 bp) Good F2620 (1106 bp) Bad => primers were incorrect. J107 (98 bp) Not seen. Not seen again either on second try (1, 1.5, 2 ul template, working, stock). AfsS C (123 bp) Good AfsS NC (104 bp) Good

Redid PCR for J107 (6): 1,1.5,2 template, w/ stock or working primers. Made more RDs: 1A2 (2079 – 1069, EP), 3C5 (2738 – 1069, EP), T9 (1945, use BglI, 936 and 1221, EP), and (also use natural minipreped stuff, just diluted, on 1A3, to check transformation growth) F2620 (1061 – 2079, ES) (also cut at just SP, since on 1A2) E24 (876 – 2079, ES) and (also cut at just SP, since on 1A2). Mistake. Minipreped more cultures. Use above two for ligations to avoid red shit.


Laura's Notebook

today's digestions:

  • RSID1, RSID2 (gel extracted from first PCR done by Karina)- digest with XbaI, PstI
    • run overnight; started at 11:30am
  • promoters within backbones (I0500-from Greg's box, and F2620-from Chris' box)- digest with SpeI, then PstI (done by Francisco)
    • SpeI digest run for 3 hours, then heat killed 20 min. at 80oC, then PstI added overnight (to reduce enzyme competition for sites on the DNA, since recognition sequences are very close to each other)

Recipe:

component amount (uL)
DNA 12.0
H2O 26.0
10X NEB buffer #2 5.0
10 X BSA 5.0
each enzyme 1.0 (2.0 total)

Karina's Notebook

Goal: Left Laura to gel extract previous PCR product as I worked on the new PCR product. Today, must make and run a diagnostic gel, PCR clean up, then digest RSID 1 and RSID 2.

Make TAE
Need a 1 L solution; we have 50x TAE stock

  • 20 mL 50x TAE + 980 mL H20

Make Gel
Want a 2% agarose gel because oligos are short (~220 bp).

  • 1 g agarose + 50 mL TAE
  • 10 uL EtBr

Also, made Chris an 0.8% agarose gel (to repay him for yesterday).

Load Gel
10 uL 100 bp ladder
1 uL dye + 1 uL DNA

Results

100bp ladder, RSID1 and RSID2 PCR reactions

Great! No difference in the annealing temperatures. All bands are clear and bright, can use all three samples for restriction digests.

PCR Cleanup
Used Qiagen MinElute PCR Purification Kit Protocol.

  • 50 uL reaction, therefore use 250 uL buffer PB
  • Followed protocol and eluted in 10 uL water.

Restriction Digest
Cut at X and P

Recipe

  • 10 uL DNA
  • 5 uL NEBuffer 2
  • 5 uL BSA
  • 1 uL Xba
  • 1 uL Pst
  • 28 uL H20

Total volume: 50 uL

Let run overnight in 37º waterbath

Francisco's Notebook

  • Digested RSID+RBS's and promoter backbones
    • RSID1+RBS: digested with Xba1 and Pst1
    • RSID2+RBS: digested with Xba1 and Pst1
    • pBad (I0500): digested with Spe1, then heat inactivated, then digested with Pst1^
    • pLux (F2620): digested with Spe1, then heat inactivated, then digested with Pst1^

^The restriction enzymes were added one after the other so that they would not compete when binding to nearby stretches of DNA.

  • Made 100uL of 10X BSA stock from 100X BSA stock.
  • Laura ligated GFP and RFP inserts to terminator backbones on Monday. Ligated terminator backbones to itself (no insert added) as a control to check that the terminator backbone was cut at both E and X.

Greg's Notebook

  • Ran restriction digest of miniprepped DNA
  • Inoculated 3 tubes each with 5 mL LB and F2620, T9002, pSB3c5, pSB1a2, I0500, E0240
  • Gel-extracted some stuff for Alex
  • Did two electroporations

Chris's Notebook

Run Gel of PCR Products (sfGFP and embCAB promoter)

See if Ligations Worked

Restriction Digests of:

Psb3C5: E/P

pSB1A2: E/P

F2620: S/P

pBAD: E/S

Did two each

Ligations did not grow-possibly because they were sitting for over 5 days at room temperature.

PCR of embCAB did not work-got multiple products, ran again:

Use PCR HF SuperMix

For each reaction:

5.0 ul of forward primer

5.0 ul of reverse primer

1.0 ul of DNA template (DNA miniprepped from today)

40.0 ul of PCR HF SuperMix

Primer Dilution-initially at 100 mM, bring to 10 mM

PCR of sfGFP worked-got expected bands; approximated 1200 bp

7/22 Thursday

Alex's Notebook

Do above. Check plates. Re-streak some. Gel electrophoresis for miniprep restriction digest. Gel extraction and ligation. Gel electrophoresis for restriction digest of PCR stuff. Gel extraction and ligation. PCR cleanup for J107, check with Isis/Ryan first. Inoculated J23100, J23107, and transformed J23119. P1, 18A, Plasmid: pSB1A2

Make: .8% gel with 15 wells. Run green. 3% gel with 15 wells. Run blue.


Laura's Notebook

  • did gel extraction (Qiaquick Gel Extraction Kit) on the following samples:
part/digestion mass tube (g) mass tube + gel (g) mass gel (g) uL QG to add
I0500 (pBAD) 1.00 1.06 0.06 180
F2620 1.00 1.05 0.05 150
RSID1KP 1.00 1.05 0.05 150
RSID1LEO 1.01 1.08 0.07 210
RSID2KP 1.00 1.07 0.07 210
RSID2LEO 1.01 1.05 0.04 120
    • RSID1KP and RSID2KP- PCR done by Karina, then gel extracted prior to digestion, digestion done by Karina
    • RSID1LEO and RSID2LEO- PCR done by Karina, digested by Laura
  • ran on 1.5% gel at 75V for 1 hour
    • 10uL ladder (1KB)
    • 1uL each sample + 1uL loading dye- in order on chart

Gels used for gel extraction

  • Digested RSID's:
left to right: RSID1_KP (cut at X, P), RSID1 uncut ctrl, RSID1_LEO (cut at X, P), RSID2_KP (cut at X, P), RSID2 uncut ctrl, RSID2_LEO (cut at X, P)
  • Digested Promoters:
072210 pBad pLux digests.jpg

Made 4 0.5L bottles of agar

  • recipe:
    • 5 g bacto-peptone
    • 2.5 g yeast extract
    • 2.5 g NaCl
    • 6 g agar
    • 485 mL dH2O (did first bottle in graduated cylinder, powders shifted volume by 15 mL- 450 mL went up to 465 mL, mixed and added to bottle, then used 35 mL dH20 to rinse cylinder contents into bottle)

Karina's Notebook

Goal: Laura did gel extraction of RSIDs, F2620, and I500 this morning. We'll need to ligate the IDs to the promoters then transform, but must wait until Francisco gel etracts promoters. In the mean time, I helped Chris with his PCR cleanup:

Samples Volume PB To add (uL)
G1 50 250
G2 50 250
G3 50 250
LM (X/P) 50 250

Tomorrow; Run diagnostic gel of PCR products, PCR cleanup, digest, ligate




For G1, G2, and G3, elute in 50 uL H20.
For LM X/P elute in 30 uL H20. Because LM is ready for ligation, eluting in 30 uL makes it more concentrated.

RECIEVED OLIGOS!
make 100 uMol stock

Primer (F or R) nmol TRIS-HCL to add (uL)
sRNA_1 F 4 40
sRNA_1 R 4 40
sRNA_2 F 4 40
sRNA_2 R 2.7 33
sRNA_1C F 4 40
sRNA_1C R 3.3 33
sRNA_2C F 4 40
sRNA_2C R 4 40

Make 10 uMol Working Stock
90 uL H20 + 10 uL Oligo Stock

Set up PCR of sRNAs
Recipe:
5 uL forward primer
5 uL Reverse primer
40 uL PCR Supermix

Make 3 PCR reactions of each sRNA to test temperature gradient.

sRNA 1 labeled as 1, sRNA 2 labeled as 2
sRNA 1C labeled as 1C, sRNA 2C labeled as 2C


55.4 ºC 61.9ºC 52.0ºC
1a 1b 1c
2a 2b 2c
1Ca 1Cb 1Cc
2Ca 2Cb 2Cc

Francisco's Notebook

  • Digested RSID's did not show up in the diagnostic gel:
left to right: 1kb ladder, digested parts: pBad, pLux, RSID1, RSID2 (latter two not so visible)
  • Rerun diagnostic gel for the RSID's, using high percentage gel and 100kb ladder:
left to right: 100bp ladder, RSID1_KP, RSID1_LEO, RSID2_KP, RSID2_LEO. Notes: loaded every other lane, KP lanes do not have visible bands, LEO lanes have very faint bands under high exposure
  • Possible problems:
    • Gel extraction has low yield. Plan for next time: re-run PCR of RSID's, but forgo gel extract if PCR reaction is clean.
    • Not enough DNA was loaded in the gel. Plan for next time: try loading more volume of DNA
  • We have prepared GFP-terminator and RFP-terminator ligations on Monday, and a control ligation with the terminator backbone and no insert on Wednesday. Hope to transform bacteria with those ligations soon.
    • Re-aliquoted 1000uL of electrompetent cells Alex prepared into 20 tubes of 50uL each. Stored in 80 deg C freezer and will start transformations on Friday.

Chris's Notebook

Run Diagnostic Gel of embCAB PCR

Run Gel of Restriction Digests:

Psb3C5: E/P 2738 bp

pSB1A2: E/P 2000 bp

F2620: S/P 4000 bp

pBAD: E/S 1210 bp

PCR Cleanup of sfGFP

Ligations of:

-Linearized F2620+sfGFP

-pBAD+sfGFP+psb1A2

-pBAD+sfGFP+psb3C5

DNA vector

Insert

10x buffer

Ligase

ATP (optional)

NP water

Wait 2 hours, then transform

250-500 ng (5 ul of vector)

5-20x of vector (equal amounts 5 ul of each insert)

2 μl

1 μl

1 μl of 10 mM stock (4C)

Bring to 20 μl total volume

7/23 Friday

Friday Recap Meeting

  • Leader: Francisco


Alex's Notebook

Ran e0240 and i0500 on .8% gel. PCR RD => do MinElute and record concentration, ligate, and transform as appropriate (DH5a). Run diagnostic; determine which is which and check for brightness. Primers. Redo PCR; gradient. Sequence J23107.

Karina's Notebook

Goal: Diagnostic gel of sRNA's. PCR cleanup ad digest.

Make 2% Agarose gel
And make .8% and 3% diagnostic gel for Alex
Four our diagnostic gel, Load 10uL 100 bp ladder, 1uL dye + 1uL sample
Run at 75 V for 45 min.

Redo PCR for RSIDs
Rayka says:

  • Keep samples on ice until very last minute, right before you place them in PCR block
  • make sure to preheat the block before you place samples in
  • want high specificity of melting and annealing temperatures

PCR Cleanup of sRNAs
RUINED. I mixed up the buffers. :(

Laura's Notebook

designed primers for colony PCR

tips for primer design (from Smolke Lab, via Chris VanLang)

  • 18-24 bases
  • ~60oC annealing temperature
  • avoid: high or low GC content, repeats of >3 bases
  • for use in later sequencing reactions, place primers ~ 50 bp outside region of interest

primer sequences:

pBADfor: gattagcggatcctacctgacgc

2K3rev: GGAAGCCTGCATAACGCGAAGT

F2620for: gggtgggcctttctgcgtttatat

IA2rev: AGTGAGCTGATACCGCTCGC

pairs:

  • pSB2K3, I0500 (pBAD)
  • pSB1A2, F2620 (pLUX)

Francisco's Notebook

  • Reran PCR assembly (30 cycles of 'YA' program) of RSID's+RBS
    • ran three reactions for RSID1+RBS (tubes labelled 1a, 1b, 1c) and RSID2+RBS (tubes labelled 2a, 2b, 2c)
    • annealing temperatures (deg C): 57.0, 55.2, 53.7 for a, b, c respectively.
    • gel results looked good:
left to right: 1a, 1b, 1c, 2a, 2b, 2c, 100bp ladder, 1a, 1b, 1c, 2a, 2b, 2c. Note: left of the ladder - 1ul sample + 1ul dye; right of the ladder - 5uL sample + 1uL dye.
  • Transformed E. coli BW strain with ligations prepared earlier in the week: GFP-terminator, RFP-terminator, and terminator ligated with no insert (negative control). 0.5 uL of DNA was used for each transformation and the settings on the zapper was 2000 V, 25 uF, 200 ohms. Some of the cells sparked and had to be discarded. Incubated for almost an hour after electroporation, spun down the cells at 3000g for 3 min. Transferred cells to plates, and left the plates to incubate overnight.
  • Saturday morning update: None of the plates had colonies. =(

Chris's Notebook

Retransform Ligations:

-F2620+sfGFP+psb1A2

-pBAD+sfGFP+psb1A2

-F2620+sfGFP+psb3C5

-pBAD+sfGFP+psb3C5

Spin cells down (14000xg for 5 minutes); re-suspend in 100 ul of SOC, plate)

Gel Extract I0500 (pBAD); concentrate into 1 elution.

Restriction Digest of embCAB Promoter

Plasmid

Each enzyme

NEB buffer 2

10x BSA

NP water

Use EcoR1-HF with NEBuffer 2

12.0 μl

1.0 μl

5.0 μl

5 μl (optional depending on enzymes used)

Bring to 50 μl total volume (26 ul)

7/24 Saturday

Alex's Notebook

Inoculated 100, 107, and 119 at 2:10 pm

Ligations: A few. 4, 6.5, 6.5, 2, 1 or 4, 6, 2, 1, 7 H2O. 3C5: T9 and I5+E24 In progress 1A2: T9 and I5+E24 In progress

PCR: sGFP In progress ATEAM: 45 supermix, 1.5 ul primers, and 2 ul template (I746908 2093 bp).

DpnI: get rid of template Cuts: GAmeTC/ CTAmeG Reacts: 37 C for 1 hour Denatures: 20 min at 80 C Nanodrop Diagnostic gel (883 bp)

PCR purify Nanodrop

Restriction Digest Some at EP and some at XP Nanodrop

Enz clean up Nanodrop

Promoters Freezer stock: 100 uM (use 10 mM Tris-HCL) Working stock: 20 uM (5x dilution) Std. PCR: 45 supermix, 500 nM primers (1.25 ul from 20 uM), 250 ng (varies by concentration) template, variable H2O. Stiching PCR: 40 supermix, 5 ul each promoter (2000 nM). Try: 45sm, 1.25 ul each (500 nM) and 3.75 H2O. Gel: 12 (40), 34, 12 (45), 34, 1.25, .625, O4, O5, C3, C6, N3, and N5

To be done: I5+RBS: 160 ul total, split into 8x 20 ul. 144 ul of supermix, 8 ul (2x 4 ul) primers, 800 ng template (),

variable H2O.

Grad (50-60): 50, 50.8, 52.1, 54, 56.2, 58, 59.3, 60 F26+RBS Primers not here.

J100+RBS Template not ready until 3 am.

J107+RBS Template unconfirmed. Wait until 3 am.


In progress: Afs C: 160 ul total, split into 8x 20 ul. 144 ul of supermix, 8 ul (2x 4 ul) primers. Grad (50-60), 5 cycles Conc. Fwd: .027 umoles Rev: .023 umoles Afs NC: 160 ul total, split into 8x 20 ul. 144 ul of supermix, 8 ul (2x 4 ul) primers. Grad (50-60), 5 cycles Conc. Fwd: .030 umoles Rev: .030 umoles

Afs 4: 160 ul total, split into 8x 20 ul. 144 ul of supermix, 8 ul (4x 2 ul) primers. Original AfsS promoter. Grad (50-60), 5 cycles Conc. 1: .027 umoles 2: .029 umoles 3: .029 umoles 4: .027 umoles

Inoculate: All on Amp 100 In progress 107 In progress 119 In progress

Digest: B0034 at XP In progress

J100 at ES Not begun J107 at ES Not begun J119 at ES Not begun

Ligate into 3C5 Screen C first, then Amp to confirm one plasmid present.


Gel for PCR purification Ones that got f-ed up. In progress.