User:Allancrossman

From 2011.igem.org

(Difference between revisions)

Revision as of 17:01, 12 September 2011

Allan Crossman

Allan Crossman, member of Edinburgh 2011.

Personal TODO list

Get INP-YFP localisation info from Sylvia.
Get those pics from Eugene.

Work out complete sequence of the PlacLacZ-INP we have and prepare for Gibson using it.
RFC for BioSandwich
Table of all our stuff, whether it has RBS, start codon, stop codon, etc.
Add hints.

Plan for pIII beads reactor?
Can we suppress the hover-over thing for pages with no hard words?
Team:Edinburgh/Carotenoids

Notes to self

[http://mic.sgmjournals.org/content/142/7/1659.full.pdf+html bglX info]
We must have a "data page" that explains the system and links to actual data which must be on the Registry.
We must have (somewhere) a team description page, a project abstract, a complete project description, a lab notebook, and a safety page.
User:Allancrossman/Gibson and User:Allancrossman/Gibson2
inaZ is [http://www.ncbi.nlm.nih.gov/nuccore/71553748?from=1850733&to=1855854 here], broken by an IS.
[http://www.lifesci.dundee.ac.uk/groups/tracy_palmer/docs/signals.htm Substrates of TAT pathway in E. coli]
RBS strengths from Warsaw 2010
[http://www.ncbi.nlm.nih.gov/nuccore/AF130864.1 pG8SAET]
Contributions: Yassen
Contributions: Lukasz

Large display of small GIF

Non-synergistic versus synergistic systems. Dark regions are places where the cellulose has been degraded down to free glucose molecules.

Video game concept

You control a humble ribosome. You are powered by sugar. Outside the cell is cellobiose floating around. You can express B-glucosidase on the cell exterior to get more sugar. You can express other stuff. There's cellulose floating around too. You can express cellulases. There's phage. You can express proteases or somesuch?

Lignin degradation

Requires glucose oxidase to supply H2O2, a cofactor for other enzymes...
- Lignin peroxidase
- Manganaese peroxidase
- Laccase?

Some of these use flavin cofactors but it seems proteins using these can be successfully displayed using INP (Van Bloois et al, 2009).

Gold medal criteria

Our wiki watch page is clearly a type of collaboration.
Cooperation with Trieste re: C. fimi BGlu sequence.
Cooperation with Trieste re: C. fimi BGlu assay.
Registry update for K415151.
Registry update for K392008.
Registry update for K265008.
All our human practices stuff.

Tables for Yassen

Equipment	Size (m³)	Cost constant (£)	Index	Purchase cost (£)	Number required	Total cost (£)
Boiler	8	70	0.8	13,218.33	4	52,873.31
Reactor 1	4	18,5000	0.45	47,158.74	1	47,158.74
Reactor 2	4	18,500	0.45	34,522.22	1	34,522.22
Reactor 3	4	18,500	0.45	34,522.22	1	34,522.22
Reactor 4	4	18,500	0.45	34,522.22	1	34,522.22
Reactor 5	4	18,500	0.45	34,522.22	1	34,522.22
Reactor 6	4	18,500	0.45	34,522.22	1	34,522.22
Tank 100-102	3.3	1,400	0.55	2,699.67	3	8099.01
Tank 103	93.2	1,400	0.55	16,955.35	1	16,955.35
Tank 104	40	1,400	0.55	10,647.83	1	10,647.83
Tank 105	147	1,400	0.55	21,784.75	1	21,784.75
Tank 106	17	1,400	0.55	6,650.82	1	6,650.82

Factorial number	Item	Factor
f1	Equipment erection	0.45
f2	Piping	0.45
f3	Instrumentation	0.15
f4	Electrical	0.1
f5	Buildings, process	0.1
f6	Ancillary buildings	0.2
		Total = 1.45
f10	Design and Engineering	0.25
f11	Contractor’s Fee	0.05
f12	Contingency	0.1
		Total = 0.4

Type	Amount	Unit price	Cost
Steam	200 kg/h	£7/t	£9811.2
Cooling water	3,000 kg/h	1.5p/t	£315.36
Power	100 kwh/d	1.2p/mj	£43,200

Equipment number	Equipment name	Comment
Tank 100,101,102	Feed storage tanks	Capacity: 3.3 m³
Tank 103	Product storage tank	Capacity: 93.2 m³
Tank 104	Product storage tank	Capacity: 40 m³
Tank 105	Product storage tank	Capacity: 147 m³
Tank 106	Product storage tank	Capacity: 17 m³

R-1	Pre-treatment reactor	Capacity:8 m^{3, 140 C, 20 bar}
R-2	Thermal depolymerisation of hemicellulose	Capacity: 4 m³
R-3	Hydrous pyrolysis of lignin	Capacity: 4 m³
R-4	Degradation of cellulose	Capacity: 4 m³
R-5	Conversion of glucose to sorbitol	Capacity: 4 m³
R-6	Conversion of glucose to fructose syrup	Capacity 4 m³
P-1, P-2	Pumps
D-1	Recovery column	1 bar
HE-1, 2, 3, 4	Heat exchangers
LI-1, 2, 3, 4, 5, 6, 7, 8, 9	Level indicators	PID control
TI-1, 2, 3, 4, 5, 6	Temperature indicators	PID control
FI-1 to FI-15	Flow indicators	PID control
V-1, 2, 3, 6, 7, 8	Mixing valve
V-4, 5	Angle valve
V-9 to V-42	Gate valve

References

Van Bloois E, Winter RT, Janssen DB, Fraaije MW (2009) [http://www.springerlink.com/content/d471504054865565/fulltext.pdf Export of functional Streptomyces coelicolor alditol oxidase to the periplasm or cell surface of Escherichia coli and its application in whole-cell biocatalysis]. Applied Microbiology and Biotechnology 83: 679-687 (doi: 10.1007/s00253-009-1904-0).

</div>

@@ Line 244: / Line 244: @@
 |1.2p/mj
 |&pound;43,200
+|}
+{| class="wikitable centredtext"
+|-
+!Equipment number
+!Equipment name
+!Comment
+|-
+|Tank 100,101,102
+|Feed storage tanks
+|Capacity: 3.3 m<sup>3</sup>
+|-
+|Tank 103
+|Product storage tank
+|Capacity: 93.2 m<sup>3</sup>
+|-
+|Tank 104
+|Product storage tank
+|Capacity: 40 m<sup>3</sup>
+|-
+|Tank 105
+|Product storage tank
+|Capacity: 147 m<sup>3</sup>
+|-
+|Tank 106
+|Product storage tank
+|Capacity: 17 m<sup>3</sup>
+|-
+|
+|
+|
+|-
+|R-1
+|Pre-treatment reactor
+|Capacity:8 m<sup>3, 140 C, 20 bar
+|-
+|R-2
+|Thermal depolymerisation of hemicellulose
+|Capacity: 4 m<sup>3</sup>
+|-
+|R-3
+|Hydrous pyrolysis of lignin
+|Capacity: 4 m<sup>3</sup>
+|-
+|R-4
+|Degradation of cellulose
+|Capacity: 4 m<sup>3</sup>
+|-
+|R-5
+|Conversion of glucose to sorbitol
+|Capacity: 4 m<sup>3</sup>
+|-
+|R-6
+|Conversion of glucose to fructose syrup
+|Capacity 4 m<sup>3</sup>
+|-
+|P-1, P-2
+|Pumps
+|
+|-
+|D-1
+|Recovery column
+|1 bar
+|-
+|HE-1, 2, 3, 4
+|Heat exchangers
+|
+|-
+|LI-1, 2, 3, 4, 5, 6, 7, 8, 9
+|Level indicators
+|PID control
+|-
+|TI-1, 2, 3, 4, 5, 6
+|Temperature indicators
+|PID control
+|-
+|FI-1 to FI-15
+|Flow indicators
+|PID control
+|-
+|V-1, 2, 3, 6, 7, 8
+|Mixing valve
+|
+|-
+|V-4, 5
+|Angle valve
+|
+|-
+|V-9 to V-42
+|Gate valve
+|
 |}