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| - | : [[Team:BYU_Provo/Phage_Purification|Overview]] | + | <font size = "4"> |
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| | + | : <u> '''Phage Purification''' </u> </font> |
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| | : [[Team:BYU Provo/Notebook/Phage_Purification/Winterexp|March-April]] | | : [[Team:BYU Provo/Notebook/Phage_Purification/Winterexp|March-April]] |
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| - | <font size="4"> '''4/2/13''' </font> | + | <br> |
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| - | -Liquid culture 4/2/2013
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| - | We put a colony from our W3110 plate of E.coli into 1mL LB broth and placed in the 37 C incubator overnight. We did this with 5 colonies.
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| | + | <font size="4"> '''4/2/13''' </font> |
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| - | -Results: the control tube of broth showed no contamination.
| + | : Created a 50 mL liquid culture of W3110 |
| | + | : [[Team:BYU_Provo/Notebook/Phage_Purification/Winterexp/Period1/Exp/4.2W311050mLLiquidCulture|4.2 W3110 50mL Liquid Culture]] |
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| - | -We also put 500microL of 40% glycerol into cryovials for use tomorrow to prepare freezer sotcks. | + | -We also put 500 µL of 40% glycerol into cryovials for use tomorrow to prepare freezer sotcks. |
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| | <font size="4"> '''4/3/13''' </font> | | <font size="4"> '''4/3/13''' </font> |
| | + | : Created 5 liquid cultures of W3110 to create 1 mL glcerol stocks of bacteria. |
| | + | : [[Team:BYU_Provo/Notebook/Phage_Purification/Winterexp/Period1/Exp/4.3W3110LiquidCulture|4.3 W3110 Liquid Culture]] |
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| - | - Today we will be setting up an overnight culture of E. coli, to grow for use with phage amplification.
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| - | :We will take a 500 flask; with 50 mL LB broth, and place a culture from the W3310 E.coli culture plate to grow overnight in the 37 C incubator
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| - | :We will create a glycerol stock of the E.coli culture to save in the -80 C freezer.
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| | <font size="4"> '''4/4/13''' </font> | | <font size="4"> '''4/4/13''' </font> |
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| - | - We made glycerol stocks W3110 E. Coli
| + | : We made glycerol stocks W3110 E. Coli |
| | + | : [[Team:BYU_Provo/Notebook/Phage_Purification/Winterexp/Period1/Exp/4.4GlycerolStocks|4.4 Glycerol Stocks]] |
| | :We put .5mL glycerol in cryovials and .5mL liquid culture from the overnights prepared yesterday. | | :We put .5mL glycerol in cryovials and .5mL liquid culture from the overnights prepared yesterday. |
| | :We vortexed each tube for 10 seconds and then we stored the tubes in the -80°C freezer in Dr. Grose’s lab. | | :We vortexed each tube for 10 seconds and then we stored the tubes in the -80°C freezer in Dr. Grose’s lab. |
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| | <font size="4"> '''4/5/13''' </font> | | <font size="4"> '''4/5/13''' </font> |
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| - | -We did spot tests of phage on E. Coli BL21
| + | : We did spot tests of phage on E. Coli BL21 |
| - | :We plated together .5mL of BL21 with 1XLBTA. | + | : [[Team:BYU_Provo/Notebook/Phage_Purification/Winterexp/Period1/Exp/4.5PhageSpotTest|4.5 Phage Spot Test]] |
| - | :We separated the plates into different segments and then spot tested the following phages.
| + | |
| - | ::14 T3
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| - | ::13 T5
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| - | ::10 T2
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| - | ::20OX171
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| - | ::40ØX174
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| - | :The plates were then put in a 37°C incubator
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| - | <font size="4"> '''3/22/13''' </font>
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| - | - Next step: find procedures for purifying different phage. Become experts on phage structure. possibly help with designing point mutations.
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| - | :osmotic procedure
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| - | :procedure from Dr. Grose
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| - | -Phage structure:
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| - | :T7 has proteins 10 A and 10 B for capsid, and an assembly protein
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| - | :T4 has SOC and HOC proteins
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| - | - We are currently waiting for our phage to come in so that we can begin running tests to purify the capsid. We have several procedures in mind. We need to prepare the reagents so that when the virus comes in we can immediately begin attempting to purify it. Most of the procedures we have found apply specifically to T7 but we will also try them on T4. We will continue to look for other procedures that may apply specifically to T4.
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| - | <font size="4"> '''3/25/13''' </font> | + | <font size="4"> '''4/8/13''' </font> |
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| - | -Come up with a list of needed reagents for phage purification, so that when phage arrive we can begin testing procedure effectiveness for phage purification. Our findings may also be useful for the cholera group, since they also need phage to disrupt biofilms/kill cholera. | + | -We performed a phage titer test to determine which bacteria would be most viable for our phage propagation. |
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| - | -List of materials for Phage Purification Procedure from Dr. Grose
| + | : [[Team:BYU_Provo/Notebook/Phage_Purification/Winterexp/Period1/Exp/4.8BacteriaDeterminingTiter|4.8 Bacteria Determining Titer]] |
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| - | :1. Phage suspension buffer also called TM buffer (Tris-Mg2+ Buffer) 10 mM Tris–HCl (pH 7.2–7.5), 100 mM NaCl, 10 mM MgCl2. Addition of 1–10 mM CaCl2 in the suspension buffer may be required for the stability of some phages.
| + | -We performed a phage titer test to determine which bacteria would be most viable for our phage propagation. |
| | + | :We used BL21 and W3110 strains of E. Coli. |
| | + | :We placed 100 µL of broth into 5 ependorf tubes. |
| | + | :We used as phage 10 µL of 1L, 10L, 40T4, T4DOS, and T4 infected phage and placed them each in one of tubes labeled -1. |
| | + | :We performed a dilution series taking out 10 µL each time and placing it into the next tube, 5 times. The total volume in the last tube was 110 µL. |
| | + | :We added 4.5 mL of 1X top agar to .5 mL of broth and plated it on LB plates. |
| | + | :We spotted each concentration on the plates and incubated it overnight at 37°C. |
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| - | :2. DNase I and RNase A from Bovine Pancreas (Roche or Cal- biochem). Stock solutions 1 mg/mL are stored at −20 ◦C.
| + | -Results from 04/08: |
| | + | :Phage 10L w/ w3110 had large scale infection every concentration |
| | + | :Phage 10L w/ BL21 had infection in very large concentrations |
| | + | :Phage 1L w/ w3110 had infection in very large concentrations |
| | + | :Phage 1L w/ BL21 had infection in very large concentrations |
| | + | :Phage T4 DOS w/ w3110 had infection in very large concentrations |
| | + | :Phage T4 DOS w/ BL21 had infection in very large concentrations |
| | + | :Phage 40 T4 w/ w311o had no phage infection |
| | + | :Phage 40 T4 w/ BL21 had large scale infection at every concentration |
| | + | :Phage T4 inf w/ w311o had large scale infection at every concentration |
| | + | :Phage T4 inf w/ BL21 had large scale infection at every concentration |
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| - | :3. Chloroform. | + | :We had a significant amount of running that occurred on almost every plate, so the results were a little difficult to read. We concluded that the phage is a high enough concentration that we would have to do another phage titer to a smaller dilution in order to determine actual concentration. The controls were all a lawn of bacteria. |
| - | | + | |
| - | :4. Sodium chloride powder: NaCl ≥ 99. 5 % for molecular biology.
| + | |
| - | | + | |
| - | :5. Polyethylene glycol powder: PEG 6,000 (MW 5,000–7,000 g/mol) for molecular biology and biochemicalpurposes.
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| - | :6. Cesium chloride: CsCl ≥ 99. 9 % for density gradient purification.
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| - | :7. Ultracentrifuge equipments: Beckman L8-55M or equiva- lent.
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| - | :8. Swinging-bucket rotors (Beckman): SW41 or SW28 and SW50 or SW65.
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| - | | + | |
| - | :9. Centrifuge tubes (Beckman): thinwall or thickwall open-top polyallomer tubes:
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| - | ::13.2 mL, 14 mm × 89 mm for the SW41 rotor.
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| - | ::38.5 mL, 25 mm × 89 mm for the SW28 rotor.
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| - | ::5.0 mL, 13 mm × 51 mm for the SW50 or SW65 rotors.
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| - | | + | |
| - | :10. Syringes and 18–22 gauge hypodermic needles.
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| - | | + | |
| - | :11. Dialysis tubing: Spectra/Por molecular-porous membranetubing, MWCO 12–14,000.
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| - | | + | |
| - | :12. Refractometer (optional).
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| - | | + | |
| - | -Another Procedure to use: https://cpt.tamu.edu/wp-content/uploads/2011/12/CsCl-phage-prep-08-17-2011.pdf
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| - | I think it uses the same materials as above, but the procedure is really easy to follow.
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| - | | + | |
| - | -Procedure for the self assembly of T13 phage - not sure if we'll need this
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| - | https://cpt.tamu.edu/wp-content/uploads/2011/12/CsCl-phage-prep-08-17-2011.pdf
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| - | Next, need to figure out what we are going to do with our purified phage - cleave tails? mutate for cholera group?
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| - | | + | |
| - | -Osmotic shock materials: phage, 3M Na2SO4, 2.8M MgSO4, DNAse, centrifuge that can control temperature at 10 degrees C, saline
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| - | | + | |
| - | :1. 2.9 ml. of the above phage + 6 ml. 3M Na2SO4 for 2 min., then + 140 ml. cold water rapidly with agitation
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| - | Residual infectivity by plaque count was 5 X 108/ml.
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| - | | + | |
| - | :2. Number 1 + 0.15 ml. saturated MgSO4 (2.8M) + 0.15 mg. DNAse left at 5°C. overnight
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| - | | + | |
| - | :3. Number 2 centrifuged at 3500 for one half hr.; supernatant
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| - | | + | |
| - | :4. Number 3 centrifuged at 100,000 X g for 1 hr. in a Spinco refrigerated centrifuge at 10°C.
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| - | :5. Supernatant from number 4
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| - | :6. Residue from number 4 dissolved in cold saline
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| - | :7. Number 6 centrifuged at 2,000 for 15 min.; supenatant
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| - | :8. Number 7 centrifuged at 18,000 × g in a Servall SS-2 for 1 hr.
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| - | :9. Supernatant from number 8.
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| - | | + | |
| - | :10. Residue from number 8 dissolved in saline
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| - | - Plan of attack for the week:
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| - | :We will be coming up with a list of reagents needed for the purification of proteins.
| + | |
| - | :We are still waiting for purified phage to start propagating them and purifying them. In the meantime we are still reading papers on capsid structure and design as well as applications of capsids in nanotechnology.
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| - | ::We have found some interesting articles on capsid batteries and drug epitopes. Articles are on the learningsuite website.
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| - | <font size="4"> '''3/27/13''' </font> | + | <font size="4"> '''4/10/13''' </font> |
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| - | AC 3/27/2013
| + | -We performed titers of T4 infected phage from off of two separate E. Coli strands, BL21 and W3110. |
| | + | :We added .1mL of the liquid culture to 1 mL of both strands of bacteria. |
| | + | :After allowing infection to occur overnight, we centrifuged the tubes to separate the bacteria from the phage. |
| | + | :We separated the supernatant into a new eppendorf tube, and used 10 µL as the 0 concentration. |
| | + | :We then performed a phage titer using five tubes of 90 µL LB each, adding 10 µL from each one to the next. |
| | + | :Using a micropipette we spotted 2µL of each dilution onto both 4.5 ml 1x plates and .5 mL W3110 plates. |
| | + | :To avoid smearing, we allowed the plates to sit for over an hour and then we incubated them at 37 C overnight. |
| | | | |
| - | Found a great article on the structure and proteins of bacteriophage T4 http://www.farisaka.bio.titech.ac.jp/text/CMLS-Leiman-20031.pdf
| + | -Results: |
| - | The paper goes into detail on the morphogenesis of the capsid head, tail, and LTF. I will be using this paper for the bulk of my presentation on Monday. The main proteins of my focus will be: | + | :The concentrations we used are still way too strong. We will have to dilute the concentration even further if we want to see anything more than cleared plaques. |
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| - | :GP-23
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| - | ::160 hexamers
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| - | :GP-24
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| - | ::11 pentamers
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| - | :GP-20
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| - | ::dodecamer portal vertex
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| - | :GP-SOC & GP-HOC
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| - | ::increased vitality
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| - | :T = 13 & Q = 21
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| - | DL 3/27
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| - | Capsid formation can follow several different pathways. This first is which proteins come together by single bonds, gradually forming the different parts that make up the capsid. In the second pathway, different parts are formed and then come together making multiple bonds at one time.
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| - | T4 structure
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| - | http://link.springer.com/content/pdf/10.1007%2Fs00018-003-3072-1
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| - | shell has icosohedral ends and a cylindrical equatorial midsection that has a unique portal vertex where the tail attaches
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| - | head has gp hoc and gp soc attached to the outside of it
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| - | gp soc helps maintain head integrity in extreme environments but neither gp hoc or gp soc are required
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| - | head and midsection are formed by the gene product (gp)23
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| - | AB 3/27/2013
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| - | How they use T7 in medicine - kit from Novagen - http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3499470/
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| - | Bacteriophage T7 has six tail fibers that attatch to E.coli. These fibers are homotrimers (composed of three identical units of polypeptide) of gene 17. These kinked fibers attach to the LPS on E.coli.
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| - | Replication: The bacteriophage T7 replisome is an ideal model system for studying replication dynamics because it recapitulates the key features of more complicated systems, yet can be reconstituted in vitro with only four proteins. DNA synthesis is carried out by a stable, one-to-one complex of gene 5 protein (gp5) and thioredoxin, a processivity factor produced by the E. coli host. Gene 4 protein (gp4) contains both helicase and primase domains whereas gene 2.5 protein (gp2.5) is the single-stranded DNA binding protein (15).
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| - | Head made of 415 copies of 10B protein
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| - | Large-scale Amplification and Purification of T7 Phage Nanoparticles
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| - | The T7-p66, T7-p66x2 and T7-wt nanoparticles were propagated in the log phase culture of E. coli BL21 (OD600~0.8) grown in M9-LB broth (LB broth supplemented with 50 ml 20X M9 salts, 20 ml 20% glucose and 1 ml of 1 M MgSO4 per liter) at a multiplicity of infection (MOI) of 0.001 and incubated at 37°C until complete lysis of the culture (3–6 hours). Thirty minutes before removing the culture from the shaker, DNAse I and RNAse A (Roche, Germany) were added to degrade released bacterial nucleic acids. T7 phage nanoparticles were precipitated from the culture supernatant by addition of 1 M NaCl and 10% polyethylene glycol (PEG 6000, Merck) followed by overnight incubation at 4°C. The T7 phage pellet was resuspended in Tris-NaCl buffer (PH 8) and PEG and cell debris was removed by centrifugation at 10,000 rpm for 10 min. To remove residual PEG and debris, an equal volume of chloroform was added, gently inverted and the top aqueous phase was harvested after low-speed centrifugation at 4°C. The purified T7 nanoparticles were sterilized using a pyrogen-free 0.2 µm pore-size cellulose acetate filter (Millipore) and stored at 4°C until further analysis.
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| - | Removal of Bacterial Endotoxin from T7 Phage Nanoparticles
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| - | The bacterial endotoxin (LPS) concentration in all T7 nanoparticle preparations was determined in triplicate using a sensitive colorimetric Limulus Amebocyte Lysate (LAL) QCL-1000® kit (Lonza, USA) according to the manufacturer's instructions. LPS was removed from T7 phage nanoparticles based on a method for removal of endotoxin from protein solutions by phase separation using Triton X-114 as described by Aida et al. [22] and modified by Hashemi et al. (manuscript submitted for publication).
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| - | Genes of T7: http://www.uniprot.org/uniprot/?query=organism%3a10760+keyword%3a1185&offset=25
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| - | Thus phage T7 has an icosahedral shape with an edge of 37.7±0.5nm, a volume of (120±10)x103nm3, and a small tail that is 6-7% of the head volume. (STRUCTURE OF BACTERIOPHAGE T7 Small-AngleX-rayandNeutronScatteringStudy)
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| - | How T7 infects: http://www.sciencemag.org/content/339/6119/576.full.pdf?sid=178e4a68-d44f-4f10-b403-1ef7f893efa8 (excellent pictures for structure)
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| - | <font size="4"> '''3/29/13''' </font> | + | <font size="4"> '''4/12/13''' </font> |
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| - | DL 3/29
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| - | We prepared our presentation on a power point for this upcoming Monday. We will be presenting on the background and structure of T7 and T4
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| - | AC 3/29
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| - | We put together our powerpoint presentation for Monday. I took all my information from http://www.farisaka.bio.titech.ac.jp/text/CMLS-Leiman-20031.pdf
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| | + | -We watched presentations from the Cholera Group Today |
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