Discovery of Ryadel

Sep 4

Isolation Protocol 5.1 – Collecting Environmental Samples

-GPS taken via iPhone.

*The original GPS corrdinents were corrected due to inaccuracy.

Sample	1. Lake Kirby Abilene TX	2. Under rotten hay bail Stephenville TX	3. Home Depot Granbury TX	4. Base of tree near LDS Stake Center Weatherford TX
Collector Name	Travis Miller	Travis Miller	Travis Miller	Travis Miller
Date of Collection	Sep 4, 2017	Sep 4, 2017	Sep 4, 2017	Sep 4, 2017
Sample Type (Soil/Water)	top layer rocky -1/2 down clay-creamy grey color	sand, clay, silt	Peaty	clay, silt
Location Description (compost, lake bed, etc)	low amounts of vegetation. High amount of carp feeding	Overgrown old garden, sold underneath rotting hay bails falling apart.	Kellogg Potting Mix Premium Mix for Outdoor Containers	Base of small tree a lot of thick grass covering soil
General Location (forest, subdivision, etc)	Shore side of rocky lake Kirby,	Back yard of a remote subdivision	Stacked on a pallet of soil in the garden section of Home Depot, Out side in the direct sun light	near Weatherford High School
Specific Location (GPS coordinates)	32°22’11.7″N 99°43’35.0″W	32°16’43.6″N 98°08’52.1″W	32°25’57.0″N 97°46’55.2″W	32°43’20.3″N 97°48’32.8″W
Sample Depth	1in water 1 in soil	2 in	1 in within bag	2 in
Ambient Temperature	88F	92F	93F	92F

Sep 6

Isolation Protocol 5.2 Direct isolation

Protocol was followed, no changes or modifications occurred.

Observations

Direct – Sample #2

8mL of liquid observed

2 layers of soil

top layer dark

bottom layer light

after 10 mixtures x 2000 centrifuge – 3 layers

new layer is light on top

Sep 6

Isolation Protocol 5.3 Plaque Assay

Day 1

protocol followed, only modification was increased time in incubator

sample sat undisturbed for 7 minutes

allowed for a 20 minute for agar solidification

placed in incubator 3pm 37C

Day 2

Direct Isolation pulled after 96 hours incubation and placed in fridge

Sep 6

Isolation Protocol 5.5 Enriched Isolation

Both samples #3 and #4 were tested under Enriched conditions

#3 observations – 35 mL Enriched solution

floating particles

liquid is cloudy and dark brown

two observable soil layers

top layer – near black

bottom layer – dark brown with light brown

After 10 minutes centrifuge x2000 – gray color particle at bottom formed

#3 filtration – 25 mL

observable yellow tint

#4 observations 37.5 mL Enriched Solution

3 layers formed, grass floating in mixture

top layer – gray material with mix of roots and grass

middle layer – layer of light and dark material

bottom layer – combination of light and dark

#4 filtration – 25 mL

faint tint of yellow

Isolation Protocol 5.6 Spot Test

First spot test completed, procedure was followed. Second spot test preformed procedure was modified

Direct Sample placed #1 spot of 9 spot agar plate

Enriched #3 placed on both the 5 and 7 spot

48 hours incubating – non turbid, yellow tint, all collection of light yellow debris/bacteria

Enriched #4 48 hours incubating, turbid, creamy yellow, small yellow debris present

Two plates were spotted.

First plate

1-3 spots were #3

4-6 spots were control

7-9 spots were #4

After 48 hours, 24 in the incubator and 24 in the fridge, both plates shared evidence of phage. Plate 1 which contained only enriched and control showed phage in sections 1-2-4-5-7-8 and 9-6.

Plate #2 was needed due to a spot error, I forgot to add Direct Isolation sample on plate #1 for spot test. Placed in incubator at the same time as Plate #1, it was also taken out and placed in the fridge as well at the same time.. However, prior to incubation and upon cleaning my workstation I bumped the plate and fell into the floor. The lid did come off which may cause a contamination or a shift in the spots made. Dr. Edwards stated not to worry and to carry on with the experiment. Plate #2 was labeled similar to #1 with 9 sections, section 1 and 3 were spotted with Direct Isolation. A control was placed on section 5 and sample #3 at section 7 and sample #4 was placed in section 9. Sections 2,4,6,8 were all left empty to prevent cross contamination.

After 48 hours, 24 in incubator and 24 in fridge phage was present in direct sections 1 and 3. #3 sample showed evidence of phage in sections 4-5-7-8. This may have been due to the drop. Sample #4 showed no sign of phage growth or progress. Splatter dots were also visible throughout the plate, also attributed to the drop.

Potential mess-ups of class and corrections to be made.

a lot of shifted spots

-to correct problem we all change protocol to 30 minute wait time as opposed to 20 minutes, this will allow more time to set and dry as well as soak in

– Dr. Edwards is testing incubator to ensure incubator is plumb

– to help prevent shift we will also only spot 5mL not 10 as directed

Spot Test 2

Plate labeled in 9 sections.

Section 1 – Direct

Section 3 – sample #3

Section 5 – control

Section 7 & 9 – sample #4

Sample #4 was placed in two sections due to previous spot test. I was curious to know if #4 could actually yield a phage since Direct and #3 sample produced phage from the last spot test, I gave #4 sample two spots.

#4 sample did not yield any phage, Direct and #3 samples once again did yield sign of phage.

Sep 20

Purification Protocol 6.1 Plaque Assay for Purification

Purification Protocol 6.2 Serial Dilution (Direct isolation)

Isolation Protocol 5.4 Picking Plaque

Purification Protocol 6.3 Collecting Plate Lysates

– allowed several colleagues to pick #3 smaple, sample shared with Dannielle, Miranda and Musgrave

-Sample #3 was given to Miranda to carry on into the SEA-PHAGE program

plague picked placed in 1.5mL tube with 100mL of buffer

placed 90 uL of buffer in six 1.5 centrifuge tubes

direct isolation sample picked 10 uL placed in 10^-1 vortex 5 seconds

10^-1 extracted 10 uL placed into the 10^-2 vortex continued steps until 10^-6

gathered six 250 uL of bacteria inoculated each tube of bacteria with the centrifuge tube diluted phage

top agar -3 mL into tube with bacteria and phage

plate onto agar allow to sit 20-30 mins start time 1030-1055 am

Sep 22

Purification Protocol 6.2 Serial Dilutions

Observations over Sept 20th procedure pulled plaque assays 24 hours after incubation placed in fridge

small sign of phage present in 10^-1, 10^-2, 10^-3 no sign of phage in 10^-4, 10^-5, 10^-6

Dr. Pierce informed my dilutions looked good but perhaps my phage needed more incubation time because it was so small it was called “slow grower” placed back in incubator 25th of Sept 10 am left until 9 am Sept 27th

results on serial dilutions

10^-1 hard to see visible virus bacteria

10^-2 virus apparent in bacterial carpet extremely webbed will use 10^-2 for webbed plate collectedly lysate protocol 6.3

10^-3 virus still present appears to look like swiss cheese

10^-4 prior to another 2 days of incubation there is no visible virus now 10^-4 is countable

10^-5 no virus present prior to last incubation cycle 10^-5 showed signs of isolated virus to a single plaque

10^-6 no visible sign of phage no more incubation will be tested because web plate and isolated virus have been achieved

Sept 27

Purification Protocol 6.3 Collecting Plate Lysates

all protocol was followed as directed

web plate was used on 10^-2 dilution finished flooding at 945 am

at 3 pm 5.5 mL recovered from flooded plate

plaque assay 3 mL of top agar 250 mL bacteria mixed to create bacterial carpet let sit 20 mins during that time all serial dilution were made all the way from 10^-1 to 10^-8

spots were made with each dilution and a control with a total of 9 dilutions being tested

spots 10^-1, 10^-2, 10^-3, 10^-4 showed visible spots after an incubation time of 26 hours

speaking to Dr. Edwards he instructed me the plate incubated too long and re-do spot checking every 6 hours

Oct 2

Purification Protocol 6.4 Spot Titer

spot titer used previous serial dilutions spotted plate with 10^-1 to 10^-8 as well as the control

allowed plate to sit for 30 mins once spotted to allow for absorption and then placed in incubator at 1040 am will check again within 6 hours also at 430 pm

returned at 430 pm no visible sign of any bacteria or phage will allow to sit over night and check early morning

Oct 3

Purification Protocol 6.5 Full Plate Titer

dilutions 10^-4, 10^-5, 10^-6

10^-5 showed trace amounts of phage present

10^-4, 10^-6 full plate titers will be made along with 10^-5 to better determine what dilution to full plate titer is most sufficient

plates were still slightly cold from fridge in order to have a better plate skin contact was used to warm up the plastic

plaque assay made at 10 am placed in incubator at 1020 am

Oct 4

after another 24 hours at exactly 910 am plates pulled for observation no growth or phage detected in 10^-4, 10^-5, 10^-6

plates returned to incubator at 950 am another round of incubation

Oct 5

all plates pulled at 920 am after another 24 hours of incubation totaling incubation so far for full plate titer 1 day 22 hours 55 mins

plates 10^-4, 10^-5, 10^-6 are now within counting

10^-4 counted 23

10^-5 counted 10

10^-6 counted 2

instructed by Dr. Edward to allow another cycle of incubation

placed in incubator Oct 5th at 1030 am

extracted plates Oct 6th 1 pm

Oct 6

8 mL phage buffer placed on agar for flooding at 140 pm allowed to sit until 420 pm tome which letting sat 2 hours 40 mins

was only able to extract 3.5 mL of 8 mL

loss of buffer could be due to dry agar absorbing liquid for rehydration another possibly for loss would be filter absorption

after another round of incubation 10^-4 dilution yielded 40 plaques this number will be used to calculate a PFU per mL

estimated plaques on the full plate to create webbed plate would be roughly 4000 plaques per agar

40 pfu / (.01 mL) (1e-4) – – 40 pfu / (1e-6 mL) = 40e-6 = 4e-7 pfu/mL

Oct 9

Protocol 7.1 – Making webbed plate from a lysate of known Titer

Estimated 4000 plaques per plate

volume needed mL lysate = 4000/ 4e-7 pfu/mL

1e-4 mL lysate

1e-4 * 1000 = .1 uL

Webbed plates

.1 uL calculated to be ideal amount for proper webbed plate

It is ideal to test 10x more and 10x less than the amount calculated of lysate to determine if calculating are accurate.

In order to produce enough lysate for analysis it is recommended to have 8-10 mL.

Using a total of 6 plates, 2 plates per dilution.

Dilutions being .01 uL, .1uL, and 1uL

Full plate titer dilution of 10^-4

10 uL used to create a .1uL and .01uL for webbed plate
plaque assay, several dilutions and webbed plate
6 plates used 2 per concentration
9uL added to tubed, 1uL added to 10^-4 to produce a 1uL dilution
transferred in normal plaque assay step added to 3mL of top agar and plated
plating completed at 135pm allowed to sit for 20 minutes for solidification before placing in incubator
started incubation at 2 pm

Oct 10

plates extracted form incubator at 340 pm for a total incubation time of 25 hours 40 minutes. All plates contain phage.

Oct 11

1uL concentration has the most potential to create a webbed plate

plate left out at room temperature from 340pm to 920 am, this allowed for growth but at a slower rate as opposed to the incubator. Total incubation time for plates

1 day 1 hr 40 min in incubator + 17 hrs 40 min = total growth time 1 day 18 hours 20 minutes

Oct 12

Flooded webbed plated of the 1uL sample used collecting lysate protocol to collect total lysate from flooded plated. 14mL collected lysate, placed in fridge

Oct 17

Dr. Edwards and Dr. Pierce pleased with progress, suggested to do another spot test and full plate titer to verify results.

Followed protocol of spot titer and serial dilution protocol

Oct 18

Dilutions 10^-5 and 10^-6 both best based on countability, pulled at 1015 am

Oct 20

Full plates of 10^-5 and 10^-6 used for plate, however, no plates were available at this time.

Oct 23

Full plate titer on 10^-4, 10^-5, 10^-6 plated

retested the serial dilution

plaque assay

10 uL into 250 uL of bacteria incubation started at 1050 am

Oct 24

plates taken out of incubator at 1210 pm for incubation time of 25 hours 20 minutes

phage present on all dilutions, 10^-4 dilution appears to be the best webbed.

Originally 10^-2 dilution was the best webbed plates it appears to have pushed back the dilution to 10^-4

Oct 25

Procedure 9.1 Phage DNA Extraction

procedure followed as directed in Phage Discovery Guid

Nov 6

Qubit ds DNA Analysis kit

2 .5mL tubes

1 master mix 1.5mL tube

Labeled tube 1 and 2 with master

Dilute 1:200 of Quibit buffer

– add 796 uL buffer into tube master mix

– added 4 uL reagent to same tube

-10uL standard in new tube

added 10 uL standard into tube 2
add 190 uL master mix to each, mix well

-add 2uL DNA sample in new tube

-add 198uL mix to tube

vortex 4 tubes -> 2 standards

put samples in Quibit reader

Quibit reader calculated DNA to be 99ng/uL

Nov 6

Restriction Enzyme

.5 g	mL	1000 uL
	99 ug	1mL

= 5.05 uL

Began incubation at 1229 pm, 10 minutes at 65˚ C

25uL H₂O added to all 6 tubes along with 2.5uL reaction buffer

1	2	3	4	5	6
BamHi	ClaI	EcoRI	Hae III	Hindi III	Sal I
red	green	clear	green	blue	red
3.1	cut smart	EcoRI Buffer	cut smart	2.1	3.1

incubate at 37˚ C for 60 minutes

126pm -> 226 pm

Agar Gel

.8% gel

1% = 1g/100mL

.8g/100mL -> .4g/50mL = 400mg/50mL

8% = x needed / 100mL -> .8*50mL/100 = .4g

Buffer 1x dilute TBE

Final 300mL

30mL buffer 5mL buffer

270mL H2O 45 mL H2O

EtBa

(300mL)(.5ug/mL EtBa) = x 10mg/mL

actual ager = .4003g

2uL EtBa into gel (non solidified)

10.3 Gel Electrophoresis

5uL dye of 6x loading dye (purple)

65˚ C for 5 min starting time 349 pm -> 354 pm

ice immediately then placed in vortex for 15 seconds at 10,000 rpm

9uL DI H2O 1uL ladder 2uL dye

1000bp

100 bp

Began electrophoresis at 505 pm -> 545pm electrophoresis complete

Photos were taken of the gel on the blue light transilluminator

Gel placed back in electrophoresis for 10 minutes more 610 pm -> 620 pm

more photos taken

Nov 8

Protocol 8.1 Mounting Phage Samples for TEM and Staining with Uranyl Acetate

1 hour centrifuge at 4˚C from 3:46 pm -> 4:46 pm

pulled at 447 pm

supernate extracted, then added 100uL of buffer

4:57 pm placed in freezer 4˚C until 5:45 pm

placed at 10uL lysate on grid at 5:52

5-7 minutes required time to leave on grid due to pfu/mL calculation of 4.0e-7

wicked paper, wash 2 times with H2O

6:00 pm 2 minutes -> 6:02 pm wicked paper -> 6:03 pm -> 6:05 pm wicked paper

6:06 pm 5 uL UA added -> 2 min -> 6:08 pm wicked away access and allowed to dry for 8 minutes.

Grid then placed in A5 slot to await EM

Nov 20

phage data base entry

Previous selected name of Pogo was taken, new name Ryadel

Nov 21

Protocol 7.3 Archiving Your Phage Sample

beads prepared for lysate storage and shipment

DMSO 100 uL mixed with 1.4 mL into a 1.5mL tube

400uL were then extracted and placed in the tube with beads, this was repeated for a total of 3 times, two samples to be sent for analysis and one sample will be kept in the lab freezer for safe keeping

Sep 4

Isolation Protocol 5.1 – Collecting Environmental Samples

-GPS taken via iPhone.

*The original GPS corrdinents were corrected due to inaccuracy.

Sample	1. Lake Kirby Abilene TX	2. Under rotten hay bail Stephenville TX	3. Home Depot Granbury TX	4. Base of tree near LDS Stake Center Weatherford TX
Collector Name	Travis Miller	Travis Miller	Travis Miller	Travis Miller
Date of Collection	Sep 4, 2017	Sep 4, 2017	Sep 4, 2017	Sep 4, 2017
Sample Type (Soil/Water)	top layer rocky -1/2 down clay-creamy grey color	sand, clay, silt	Peaty	clay, silt
Location Description (compost, lake bed, etc)	low amounts of vegetation. High amount of carp feeding	Overgrown old garden, sold underneath rotting hay bails falling apart.	Kellogg Potting Mix Premium Mix for Outdoor Containers	Base of small tree a lot of thick grass covering soil
General Location (forest, subdivision, etc)	Shore side of rocky lake Kirby,	Back yard of a remote subdivision	Stacked on a pallet of soil in the garden section of Home Depot, Out side in the direct sun light	near Weatherford High School
Specific Location (GPS coordinates)	32°22’11.7″N 99°43’35.0″W	32°16’43.6″N 98°08’52.1″W	32°25’57.0″N 97°46’55.2″W	32°43’20.3″N 97°48’32.8″W
Sample Depth	1in water 1 in soil	2 in	1 in within bag	2 in
Ambient Temperature	88F	92F	93F	92F

Sep 6

Isolation Protocol 5.2 Direct isolation

Protocol was followed, no changes or modifications occurred.

Observations

Direct – Sample #2

8mL of liquid observed

2 layers of soil

top layer dark

bottom layer light

after 10 mixtures x 2000 centrifuge – 3 layers

new layer is light on top

Sep 6

Isolation Protocol 5.3 Plaque Assay

Day 1

protocol followed, only modification was increased time in incubator

sample sat undisturbed for 7 minutes

allowed for a 20 minute for agar solidification

placed in incubator 3pm 37C

Day 2

Direct Isolation pulled after 96 hours incubation and placed in fridge

Sep 6

Isolation Protocol 5.5 Enriched Isolation

Both samples #3 and #4 were tested under Enriched conditions

#3 observations – 35 mL Enriched solution

floating particles

liquid is cloudy and dark brown

two observable soil layers

top layer – near black

bottom layer – dark brown with light brown

After 10 minutes centrifuge x2000 – gray color particle at bottom formed

#3 filtration – 25 mL

observable yellow tint

#4 observations 37.5 mL Enriched Solution

3 layers formed, grass floating in mixture

top layer – gray material with mix of roots and grass

middle layer – layer of light and dark material

bottom layer – combination of light and dark

#4 filtration – 25 mL

faint tint of yellow

Isolation Protocol 5.6 Spot Test

First spot test completed, procedure was followed. Second spot test preformed procedure was modified

Direct Sample placed #1 spot of 9 spot agar plate

Enriched #3 placed on both the 5 and 7 spot

48 hours incubating – non turbid, yellow tint, all collection of light yellow debris/bacteria

Enriched #4 48 hours incubating, turbid, creamy yellow, small yellow debris present

Two plates were spotted.

First plate

1-3 spots were #3

4-6 spots were control

7-9 spots were #4

After 48 hours, 24 in the incubator and 24 in the fridge, both plates shared evidence of phage. Plate 1 which contained only enriched and control showed phage in sections 1-2-4-5-7-8 and 9-6.

Potential mess-ups of class and corrections to be made.

a lot of shifted spots

-to correct problem we all change protocol to 30 minute wait time as opposed to 20 minutes, this will allow more time to set and dry as well as soak in

– Dr. Edwards is testing incubator to ensure incubator is plumb

– to help prevent shift we will also only spot 5mL not 10 as directed

Spot Test 2

Plate labeled in 9 sections.

Section 1 – Direct

Section 3 – sample #3

Section 5 – control

Section 7 & 9 – sample #4

#4 sample did not yield any phage, Direct and #3 samples once again did yield sign of phage.

Sep 20

Purification Protocol 6.1 Plaque Assay for Purification

Purification Protocol 6.2 Serial Dilution (Direct isolation)

Isolation Protocol 5.4 Picking Plaque

Purification Protocol 6.3 Collecting Plate Lysates

– allowed several colleagues to pick #3 smaple, sample shared with Dannielle, Miranda and Musgrave

-Sample #3 was given to Miranda to carry on into the SEA-PHAGE program

plague picked placed in 1.5mL tube with 100mL of buffer

placed 90 uL of buffer in six 1.5 centrifuge tubes

direct isolation sample picked 10 uL placed in 10^-1 vortex 5 seconds

10^-1 extracted 10 uL placed into the 10^-2 vortex continued steps until 10^-6

gathered six 250 uL of bacteria inoculated each tube of bacteria with the centrifuge tube diluted phage

top agar -3 mL into tube with bacteria and phage

plate onto agar allow to sit 20-30 mins start time 1030-1055 am

Sep 22

Purification Protocol 6.2 Serial Dilutions

Observations over Sept 20th procedure pulled plaque assays 24 hours after incubation placed in fridge

small sign of phage present in 10^-1, 10^-2, 10^-3 no sign of phage in 10^-4, 10^-5, 10^-6

results on serial dilutions

10^-1 hard to see visible virus bacteria

10^-2 virus apparent in bacterial carpet extremely webbed will use 10^-2 for webbed plate collectedly lysate protocol 6.3

10^-3 virus still present appears to look like swiss cheese

10^-4 prior to another 2 days of incubation there is no visible virus now 10^-4 is countable

10^-5 no virus present prior to last incubation cycle 10^-5 showed signs of isolated virus to a single plaque

10^-6 no visible sign of phage no more incubation will be tested because web plate and isolated virus have been achieved

Sept 27

Purification Protocol 6.3 Collecting Plate Lysates

all protocol was followed as directed

web plate was used on 10^-2 dilution finished flooding at 945 am

at 3 pm 5.5 mL recovered from flooded plate

plaque assay 3 mL of top agar 250 mL bacteria mixed to create bacterial carpet let sit 20 mins during that time all serial dilution were made all the way from 10^-1 to 10^-8

spots were made with each dilution and a control with a total of 9 dilutions being tested

spots 10^-1, 10^-2, 10^-3, 10^-4 showed visible spots after an incubation time of 26 hours

speaking to Dr. Edwards he instructed me the plate incubated too long and re-do spot checking every 6 hours

Oct 2

Purification Protocol 6.4 Spot Titer

spot titer used previous serial dilutions spotted plate with 10^-1 to 10^-8 as well as the control

allowed plate to sit for 30 mins once spotted to allow for absorption and then placed in incubator at 1040 am will check again within 6 hours also at 430 pm

returned at 430 pm no visible sign of any bacteria or phage will allow to sit over night and check early morning

Oct 3

Purification Protocol 6.5 Full Plate Titer

dilutions 10^-4, 10^-5, 10^-6

10^-5 showed trace amounts of phage present

10^-4, 10^-6 full plate titers will be made along with 10^-5 to better determine what dilution to full plate titer is most sufficient

plates were still slightly cold from fridge in order to have a better plate skin contact was used to warm up the plastic

plaque assay made at 10 am placed in incubator at 1020 am

Oct 4

after another 24 hours at exactly 910 am plates pulled for observation no growth or phage detected in 10^-4, 10^-5, 10^-6

plates returned to incubator at 950 am another round of incubation

Oct 5

all plates pulled at 920 am after another 24 hours of incubation totaling incubation so far for full plate titer 1 day 22 hours 55 mins

plates 10^-4, 10^-5, 10^-6 are now within counting

10^-4 counted 23

10^-5 counted 10

10^-6 counted 2

instructed by Dr. Edward to allow another cycle of incubation

placed in incubator Oct 5th at 1030 am

extracted plates Oct 6th 1 pm

Oct 6

8 mL phage buffer placed on agar for flooding at 140 pm allowed to sit until 420 pm tome which letting sat 2 hours 40 mins

was only able to extract 3.5 mL of 8 mL

loss of buffer could be due to dry agar absorbing liquid for rehydration another possibly for loss would be filter absorption

after another round of incubation 10^-4 dilution yielded 40 plaques this number will be used to calculate a PFU per mL

estimated plaques on the full plate to create webbed plate would be roughly 4000 plaques per agar

40 pfu / (.01 mL) (1e-4) – – 40 pfu / (1e-6 mL) = 40e-6 = 4e-7 pfu/mL

Oct 9

Protocol 7.1 – Making webbed plate from a lysate of known Titer

Estimated 4000 plaques per plate

volume needed mL lysate = 4000/ 4e-7 pfu/mL

1e-4 mL lysate

1e-4 * 1000 = .1 uL

Webbed plates

.1 uL calculated to be ideal amount for proper webbed plate

It is ideal to test 10x more and 10x less than the amount calculated of lysate to determine if calculating are accurate.

In order to produce enough lysate for analysis it is recommended to have 8-10 mL.

Using a total of 6 plates, 2 plates per dilution.

Dilutions being .01 uL, .1uL, and 1uL

Full plate titer dilution of 10^-4

10 uL used to create a .1uL and .01uL for webbed plate
plaque assay, several dilutions and webbed plate
6 plates used 2 per concentration
9uL added to tubed, 1uL added to 10^-4 to produce a 1uL dilution
transferred in normal plaque assay step added to 3mL of top agar and plated
plating completed at 135pm allowed to sit for 20 minutes for solidification before placing in incubator
started incubation at 2 pm

Oct 10

plates extracted form incubator at 340 pm for a total incubation time of 25 hours 40 minutes. All plates contain phage.

Oct 11

1uL concentration has the most potential to create a webbed plate

plate left out at room temperature from 340pm to 920 am, this allowed for growth but at a slower rate as opposed to the incubator. Total incubation time for plates

1 day 1 hr 40 min in incubator + 17 hrs 40 min = total growth time 1 day 18 hours 20 minutes

Oct 12

Flooded webbed plated of the 1uL sample used collecting lysate protocol to collect total lysate from flooded plated. 14mL collected lysate, placed in fridge

Oct 17

Dr. Edwards and Dr. Pierce pleased with progress, suggested to do another spot test and full plate titer to verify results.

Followed protocol of spot titer and serial dilution protocol

Oct 18

Dilutions 10^-5 and 10^-6 both best based on countability, pulled at 1015 am

Oct 20

Full plates of 10^-5 and 10^-6 used for plate, however, no plates were available at this time.

Oct 23

Full plate titer on 10^-4, 10^-5, 10^-6 plated

retested the serial dilution

plaque assay

10 uL into 250 uL of bacteria incubation started at 1050 am

Oct 24

plates taken out of incubator at 1210 pm for incubation time of 25 hours 20 minutes

phage present on all dilutions, 10^-4 dilution appears to be the best webbed.

Originally 10^-2 dilution was the best webbed plates it appears to have pushed back the dilution to 10^-4

Oct 25

Procedure 9.1 Phage DNA Extraction

procedure followed as directed in Phage Discovery Guid

Nov 6

Qubit ds DNA Analysis kit

2 .5mL tubes

1 master mix 1.5mL tube

Labeled tube 1 and 2 with master

Dilute 1:200 of Quibit buffer

– add 796 uL buffer into tube master mix

– added 4 uL reagent to same tube

-10uL standard in new tube

added 10 uL standard into tube 2
add 190 uL master mix to each, mix well

-add 2uL DNA sample in new tube

-add 198uL mix to tube

vortex 4 tubes -> 2 standards

put samples in Quibit reader

Quibit reader calculated DNA to be 99ng/uL

Nov 6

Restriction Enzyme

.5 g	mL	1000 uL
	99 ug	1mL

= 5.05 uL

Began incubation at 1229 pm, 10 minutes at 65˚ C

25uL H₂O added to all 6 tubes along with 2.5uL reaction buffer

1	2	3	4	5	6
BamHi	ClaI	EcoRI	Hae III	Hindi III	Sal I
red	green	clear	green	blue	red
3.1	cut smart	EcoRI Buffer	cut smart	2.1	3.1

incubate at 37˚ C for 60 minutes

126pm -> 226 pm

Agar Gel

.8% gel

1% = 1g/100mL

.8g/100mL -> .4g/50mL = 400mg/50mL

8% = x needed / 100mL -> .8*50mL/100 = .4g

Buffer 1x dilute TBE

Final 300mL

30mL buffer 5mL buffer

270mL H2O 45 mL H2O

EtBa

(300mL)(.5ug/mL EtBa) = x 10mg/mL

actual ager = .4003g

2uL EtBa into gel (non solidified)

10.3 Gel Electrophoresis

5uL dye of 6x loading dye (purple)

65˚ C for 5 min starting time 349 pm -> 354 pm

ice immediately then placed in vortex for 15 seconds at 10,000 rpm

9uL DI H2O 1uL ladder 2uL dye

1000bp

100 bp

Began electrophoresis at 505 pm -> 545pm electrophoresis complete

Photos were taken of the gel on the blue light transilluminator

Gel placed back in electrophoresis for 10 minutes more 610 pm -> 620 pm

more photos taken

Nov 8

Protocol 8.1 Mounting Phage Samples for TEM and Staining with Uranyl Acetate

1 hour centrifuge at 4˚C from 3:46 pm -> 4:46 pm

pulled at 447 pm

supernate extracted, then added 100uL of buffer

4:57 pm placed in freezer 4˚C until 5:45 pm

placed at 10uL lysate on grid at 5:52

5-7 minutes required time to leave on grid due to pfu/mL calculation of 4.0e-7

wicked paper, wash 2 times with H2O

6:00 pm 2 minutes -> 6:02 pm wicked paper -> 6:03 pm -> 6:05 pm wicked paper

6:06 pm 5 uL UA added -> 2 min -> 6:08 pm wicked away access and allowed to dry for 8 minutes.

Grid then placed in A5 slot to await EM

Nov 20

phage data base entry

Previous selected name of Pogo was taken, new name Ryadel

Nov 21

Protocol 7.3 Archiving Your Phage Sample

beads prepared for lysate storage and shipment

DMSO 100 uL mixed with 1.4 mL into a 1.5mL tube

Discovery of Ryadel

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