Team:Uppsala-SwedenWeek15

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Revision as of 19:38, 26 October 2010

Week-15

Plasmid concentration of K1, K2, K3, (old version) and digestion

Sample	DNA-concentration (µL/ml)	DNA	Enzymes (E & P)	FDB (10X)	H20	Total (µL)
K1C1	32,7	15.3	0,5 &0.5	2	1.7	20
K1C2	98.3	5.0	0,5 &0.5	2	12	20
K1C3	74.4	6.7	0,5 &0.5	2	10.3	20
K1C4	516.4	0.9	0,5 &0.5	1	7.1	10
K1C5	135.4	3.6	0,5 &0.5	1	4.4	10
K2C1	161.7	3.1	0,5 &0.5	1	4.9	10
K2C2	92.3	5.4	0,5 &0.5	1	2.6	10
K2C3	112.2	4.3	0,5 &0.5	1	3.7	10
K2C4	45.6	10.9	0,5 &0.5	2	6.1	20
K2C5	348.1	1.4	0,5 &0.5	1	6.6	10
K2C6	91.3	5.4	0,5 &0.5	1	2.6	10
K3C1	88.4	5.6	0,5 &0.5	1	2.4	10
K3C2	109.9	4.5	0,5 &0.5	1	3.5	10
K3C3	116.6	4.3	0,5 &0.5	1	3.8	10
K3C4	110.0	4.6	0,5 &0.5	1	3.5	10
K3C5	90.67	5.5	0,5 &0.5	1	2.5	10
K3C6	109.5	4.6	0,5 &0.5	1	3.4	10

E= EcorI P= PstI FDB= Fast Digest Buffer

Gel of digested samples with 0.8% agarose gel . picture missing

Counting from the ladder. K1(Colony 1-5) and K2(colony 1-6)

K2 K1

K3

Sample	DNA (µL/ml)	DNA 100X)	DNA required	Enzymes (E & P)	FDB (10X)	H20	Total (µL)
K1C1	0.941	94.1	5.3	0,5 &0.5	1	2.7	20
K1C2	0.670	67.0	7.4	0,5 &0.5	1	0.6	20
K1C3	0.736	73.6	6.7	0,5 &0.5	1	1.3	20
K1C4	0.522	52.2	9.5	0,5 &0.5	2	7.5	10
K1C5	0.622	62.2	8.0	0,5 &0.5	2	9.0	10
K2C1	0.806	80.6	6.2	0,5 &0.5	1	1.8	10
K2C2	0.567	56.7	8.8	0,5 &0.5	2	2.6	10
K2C3	0.611	61.1	8.1	0,5 &0.5	2	3.7	10
K2C4	0.671	67.1	7.4	0,5 &0.5	1	6.1	20
K2C5	0.828	82.8	6.0	0,5 &0.5	1	6.6	10
K3C1	0.678	67.8	7.3	0,5 &0.5	1	2.6	10
K3C2	0.955	95.5	5.2	0,5 &0.5	1	2.4	10
K3C3	0.841	84.1	5.9	0,5 &0.5	1	3.5	10
K3C4	1.11	111.0	4.5	0,5 &0.5	1	3.8	10
K3C5	0.868	86.8	5.7	0,5 &0.5	1	3.5	10

K1 K2

K2 K3

The K4, K5 and K6 construct are composed of J1, J2 and J3 assembled with BB_I0460 which contains both Ampicillin and Kanamycin cassettes in its backbone, psB1AK3, and the J- construct contains Chloramphinicol cassette, psB1C3. The Tetracyclin antibiotic hasn’t work as expected. Therefore the 3A assembly technique wouldn’t be possible to apply due there is no antibiotics left available with a corresponding backbone.

One option to get around this obstacle was to run the gel, after digestion of BB_I04060, and cut the band with the Biobrick-length and then 3A assembly it with the J-construct and E-P digested psB1C3.

Another option was to switch backbone of J-construct to psB1C3 and then use 3A-assembly it with BB_I0460 and E-P digested psB1C3. We used the second method because it’s a more safer way even though it takes longer time to finish.

Ligation of: J1 = I1+H6 , J2 = I2 + H3, J3 = I3 + H8.to a psB1C3 – vector. Transformation and incubation overnight.

@@ Line 436: / Line 436: @@
 [[Image:Labnotes html m7c8f4d24.jpg|300px|thumb|left|K2 K1]]
-[[Image:Labnotes html 7746e05a.jpg|300px|thumb|right|K3]]
+[[Image:Labnotes html 7746e05a.jpg|300px|thumb|K3]]
@@ Line 867: / Line 867: @@
 </TABLE>
-[[Image:Labnotes html m15593582.jpg|500px|thumb|left|K1 K2]] [[Image:Labnotes html m4d07be2b.jpg|500px|thumb|right|K2 K3]]
+[[Image:Labnotes html m15593582.jpg|400px|thumb|left|K1 K2]] [[Image:Labnotes html m4d07be2b.jpg|400px|thumb|right|K2 K3]]
@@ Line 875: / Line 875: @@
 Another option was to switch backbone of J-construct to psB1C3 and then use 3A-assembly it with BB_I0460 and E-P digested psB1C3. We used the second method because it’s a more safer way even though it takes longer time to finish.
+Ligation of: J1 = I1+H6 , J2 = I2 + H3, J3 = I3 + H8.to a psB1C3 – vector.
+Transformation and incubation overnight.