Team:BYU Provo/Notebook/Phage Purification/Winterexp/Period1/Exp/6.24CsClGradient

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Phage Purification May - June Notebook: Experiments

6.24 CsCl Gradient

I) Purpose

Further purify the phage to a high level of purification.

II) Expected Outcome

Purified and viable phage will be extracted from the CsCl gradient.

III) Reagants Used

T7 purified phage

CsCl

dialysis tubing

phage suspension buffer

IV) Actual Procedure

Create different concentrations of CsCl solutions to create a gradient.

Add 1.64 g of CsCl to 4 ml of phage suspension buffer to create a 1.3 g/ml density gradient.

Add 4.10 g of CsCl to 6 ml of phage suspension buffer to create a 1.5 g/ml density gradient.

Add 4.92 g of CsCl to 6 ml of phage suspension buffer to create a 1.6 g/ml density gradient.

Add 5.76 g of CsCl to 6 ml of phage suspension buffer to create a 1.7 g/ml density gradient.

Layer a centrifuge tube with 3 mL 1.7 g/mL, 3 mL 1.6 g/mL, 3 mL of 1.5 g/mL, and then 2 mL of 1.3 g/mL.

Layer T7 on top of the gradient in separate tubes(as much as is available).

Fill the remaining space in the tube with phage suspension buffer to the top.

Centrifuge at 26500 rpms (100,000 g) for 2.5 hours.

Extract using a needle and puncturing the side of the tube, placing the needle underneath the band.

Place phage in dialysis tubing and place in flask with 1 L of phage suspension buffer for 30 minutes at 4^◦ C.

Repeat previous step two more times.

Remove purified phage from dialysis tubing and store in 4^◦ C.

V) Results

We were able to successfully extract phage from the CsCl. Dr. Grose explained that the band which we had previously thought to be the bacterial debris was probably the purified phage. We removed the phage from this band and purified it through dialysis. Next class we will be performing a titer to determine the concentration of the phage.

@@ Line 43: / Line 43: @@
 : T7 purified phage
 : CsCl
+: dialysis tubing
 : phage suspension buffer
@@ Line 54: / Line 55: @@
 :: Add 5.76 g of CsCl to 6 ml of phage suspension buffer to create a 1.7 g/ml density gradient.
 : Layer a centrifuge tube with 3 mL 1.7 g/mL, 3 mL 1.6 g/mL, 3 mL of 1.5 g/mL, and then 2 mL of 1.3 g/mL.
-:Layer T7 on top of the gradient in separate tubes(as much as is available).
+: Layer T7 on top of the gradient in separate tubes(as much as is available).
-:Fill the remaining space in the tube with phage suspension buffer to the top.
+: Fill the remaining space in the tube with phage suspension buffer to the top.
-:Centrifuge at 26500 rpms (100,000 g) for 2.5 hours.
+: Centrifuge at 26500 rpms (100,000 g) for 2.5 hours.
-:Extract using a needle and puncturing the side of the tube, placing the needle underneath the band.
+: Extract using a needle and puncturing the side of the tube, placing the needle underneath the band.
+: Place phage in dialysis tubing and place in flask with 1 L of phage suspension buffer for 30 minutes at 4<sup>◦</sup> C.
+: Repeat previous step two more times.
+: Remove purified phage from dialysis tubing and store in 4<sup>◦</sup> C.
 '''V) Results'''
-: We were able to successfully extract phage from the CsCl.  Dr. Grose explained that the band which we had previously thought to be the bacterial debris was probably the purified phage.  We extracted phage from this band and will be performing a titer on it next class.
+: We were able to successfully extract phage from the CsCl.  Dr. Grose explained that the band which we had previously thought to be the bacterial debris was probably the purified phage.  We removed the phage from this band and purified it through dialysis.  Next class we will be performing a titer to determine the concentration of the phage.
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