Latest revision as of 20:22, 3 August 2010

Lab work

Ordered DNA + Solvent Tolerance and Hydrocarbon Sensing

The colony PCR of yesterday was put on1% agarose gel

Lane description:

#	Description	Expected lenght (bp)	Primers	Status
0	SmartLadder	n/a	n/a	n/a
1	transformant #1 of ligation mix AlkS + pSB1C3		G00100 + G00101	✗
2	transformant #2 of ligation mix AlkS + pSB1C3		G00100 + G00101	✗
3	transformant #3 of ligation mix AlkS + pSB1C3		G00100 + G00101	✗
4	transformant #4 of ligation mix AlkS + pSB1C3		G00100 + G00101	✗
5	transformant #1 of ligation mix ladA + pSB1C3		G00100 + G00101	✗
6	transformant #2 of ligation mix ladA + pSB1C3		G00100 + G00101	✗
7	transformant #1 of ligation mix RubA3 + pSB1C3		G00100 + G00101	✗
8	transformant #2 of ligation mix RubA3 + pSB1C3		G00100 + G00101	✗
9	transformant #3 of ligation mix RubA3 + pSB1C3		G00100 + G00101	✗
10	transformant #4 of ligation mix RubA3 + pSB1C3		G00100 + G00101	✗
11	transformant #5 of ligation mix RubA3 + pSB1C3		G00100 + G00101	✗
12	transformant #1 of ligation mix PhPFDbeta + pSB1C3		G00100 + G00101	✗
13	transformant #1 of ligation mix AlnA + pSB1C3		G00100 + G00101	✗
14	transformant #2 of ligation mix AlnA + pSB1C3		G00100 + G00101	✗
15	transformant #1 of ligation mix OprG + pSB1C3		G00100 + G00101	✗
16	transformant #2 of ligation mix OprG + pSB1C3		G00100 + G00101	✗
17	transformant #3 of ligation mix OprG + pSB1C3		G00100 + G00101	✗
18	transformant #1 of ligation mix PhPFDalpha + pSB1C3		G00100 + G00101	✗
19	transformant #2 of ligation mix PhPFDalpha + pSB1C3		G00100 + G00101	✗

We harvested the 1 mL bacterial cells of possible correct transformations. The pellets were stored at -20 °C. We used 3 mL of the bacterial cells to make -80 °C stocks.

Characterization of Anderson RBS sequences

Fluorescence measurements Attempt #2

Data analysis to follow shortly (good stuff!)

Assembly of reference construct & positive control

Yesterday's digestion products of K081005 and I13401 were set for ligation over the weekend at 4 °C:

#	BioBrick	Fragment	Recipient plasmid	Final volume
1	[http://partsregistry.org/wiki/index.php?title=Part:BBa_K136011 K136011]	17.5 μL ‘E-K081005-S’	4 μL ‘E-pSB1A2 I13401-X’	25 μL
2	[http://partsregistry.org/wiki/index.php?title=Part:BBa_K136011 K136011]	17.5 μL ‘E-K081005-S’	4 μL ‘E-pSB1A2 I13401-X	25 μL
3	Ligation control	None	4 μL ‘E-pSB1A2 I13401-X	25 μL

To all samples with an end volume of 25 μL, 2.5 μL Ligase buffer was added.

The Birnboim method was used to isolate J23100 and I13522 (both in pSB1A2) from the o/n 5 mL LB cultures. We used 3 mL of the bacterial cells to make -80 °C stocks . The following concentrations of plasmid were obtained:

BioBrick	Concentration (ng/μL)
[http://partsregistry.org/wiki/index.php?title=Part:BBa_J23100 J23100]	130.7
[http://partsregistry.org/wiki/index.php?title=Part:BBa_I13522 I13522]	106.7

@@ Line 1: / Line 1: @@
 =Lab work=
-<h4>Ordered DNA + Solvent Tolerance and Hydrocarbon Sensing</h4>
+==Ordered DNA + Solvent Tolerance and Hydrocarbon Sensing==
-The colony PCR of [https://2010.igem.org/Team:TU_Delft#/blog?blog=15_July_2010 yesterday] was put on[[Team:TU_Delft/protocols/agarose_gel|1% agarose gel]]
+The colony PCR of [https://2010.igem.org/Team:TU_Delft#page=pages/blog&blog=15_July_2010 yesterday] was put on[[Team:TU_Delft/protocols/agarose_gel|1% agarose gel]]
+[[Image:TU Delft E 20100716 PCR.jpg|450px|1% agarose of colony PCR. Gel runned at 100V for 1 hour. Of all samples 10 μL + 2 μL loadingbuffer was loaded. 5 μL was loaded of marker]]
+Lane description:
+{| style="color:black; background-color:white;" cellpadding="5" cellspacing="0" border="1"
+|'''#'''
+|'''Description'''
+|'''Expected lenght (bp)'''
+|'''Primers'''
+|'''Status'''
+|-
+|0
+|SmartLadder
+|n/a
+|n/a
+|n/a
+|-
+|1
+|transformant #1 of ligation mix AlkS + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|2
+|transformant #2 of ligation mix AlkS + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|3
+|transformant #3 of ligation mix AlkS + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|4
+|transformant #4 of ligation mix AlkS + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|5
+|transformant #1 of ligation mix ladA + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|6
+|transformant #2 of ligation mix ladA + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|7
+|transformant #1 of ligation mix RubA3 + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|8
+|transformant #2 of ligation mix RubA3 + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|9
+|transformant #3 of ligation mix RubA3 + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|10
+|transformant #4 of ligation mix RubA3 + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|11
+|transformant #5 of ligation mix RubA3 + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|12
+|transformant #1 of ligation mix PhPFDbeta + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|13
+|transformant #1 of ligation mix AlnA + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|14
+|transformant #2 of ligation mix AlnA + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|15
+|transformant #1 of ligation mix OprG + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|16
+|transformant #2 of ligation mix OprG + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|17
+|transformant #3 of ligation mix OprG + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|18
+|transformant #1 of ligation mix PhPFDalpha + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|19
+|transformant #2 of ligation mix PhPFDalpha + pSB1C3
+|
+|G00100 + G00101
+|<font color=red>✗</font>
+|-
+|}
 We harvested the 1 mL bacterial cells of possible correct transformations. The pellets were stored at -20 °C.
@@ Line 8: / Line 142: @@
 ==Characterization of Anderson RBS sequences==
-<h5>Fluorescence measurements Attempt #2</h5>
+====Fluorescence measurements Attempt #2====
 Data analysis to follow shortly (good stuff!)
-<h5>Assembly of reference construct</h5>
+====Assembly of reference construct & positive control====
-The [[Team:TU_Delft/protocols/birnboim_plasmid_isolation Birnboim method ]] was used to isolate J23100 and I13522 (both in pSB1A2) from the o/n 5 mL LB cultures.
+[https://2010.igem.org/Team:TU_Delft#page=pages/blog&blog=15_July_2010 Yesterday's] digestion products of K081005 and I13401 were set for ligation over the weekend at 4 °C:
+{| style="color:black; background-color:white;" cellpadding="5" cellspacing="0" border="1"
+|'''#'''
+|'''BioBrick'''
+|'''Fragment'''
+|'''Recipient plasmid'''
+|'''Final volume'''
+|-
+|1
+|[http://partsregistry.org/wiki/index.php?title=Part:BBa_K136011 K136011]
+|17.5 μL ‘E-K081005-S’
+|4 μL ‘E-pSB1A2 I13401-X’
+|25 μL
+|-
+|2
+|[http://partsregistry.org/wiki/index.php?title=Part:BBa_K136011 K136011]
+|17.5 μL ‘E-K081005-S’
+|4 μL ‘E-pSB1A2 I13401-X
+|25 μL
+|-
+|3
+|Ligation control
+|None
+|4 μL ‘E-pSB1A2 I13401-X
+|25 μL
+|}
+To all samples with an end volume of 25 μL, 2.5 μL Ligase buffer was added.
+The [[Team:TU_Delft/protocols/birnboim_plasmid_isolation|Birnboim method]] was used to isolate J23100 and I13522 (both in pSB1A2) from the o/n 5 mL LB cultures. We used 3 mL of the bacterial cells to make [[Team:TU_Delft/protocols/freezing_bacterial_stocks|-80 °C stocks]] . The following concentrations of plasmid were obtained:
+{| style="color:black; background-color:white;" cellpadding="5" cellspacing="0" border="1"
+|'''BioBrick'''
+|'''Concentration (ng/μL)'''
+|-
+|[http://partsregistry.org/wiki/index.php?title=Part:BBa_J23100 J23100]
+|130.7
+|-
+|[http://partsregistry.org/wiki/index.php?title=Part:BBa_I13522 I13522]
+|106.7
+|}

Team:TU Delft/16 July 2010 content

From 2010.igem.org