Team:LCG-UNAM-Mexico/LauraJournal
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+ | == Laura's lab journal == | ||
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==Goal and objectives== | ==Goal and objectives== | ||
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==August== | ==August== | ||
- | On August I was working on verifying the accuracy of these protocols and on select a strain for the following experiments. In this month a purification protocol was conducted on Escherichia coli K-12 strain, the lysis was unsuccessful. To probe the activity of the phage stocks I got the BL21 strain to work with T3 and T7, a purification protocol was conducted on Escherichia coli BL21 strain, the lysis was successful. T3 and T7 bacteriophages stocks were active. It was decided to use C1a to work with T3 and T7 because it is a K-12 derivative | + | On August I was working on verifying the accuracy of these protocols and on select a strain for the following experiments. In this month a purification protocol was conducted on Escherichia coli K-12 strain, the lysis was unsuccessful. To probe the activity of the phage stocks I got the BL21 strain to work with T3 and T7, a purification protocol was conducted on Escherichia coli BL21 strain, the lysis was successful. T3 and T7 bacteriophages stocks were active. It was decided to use C1a to work with T3 and T7 because it is a K-12 derivative. In the following experiments were be focused on this strain. The purification of T7 and T3 using C1a strain was successful (OR stock) |
<br> | <br> | ||
- | In this month all the cultures got contaminated with yeast (strains C331, C-117, C1a, C-1906, c520, c1895, c2423). The contaminated cultures were transferred to generate spectomycin resistant. Resistant strains c-117, c1a, c331 and c1906 were obtained. I did PCR’s to be sure about the genome integrity. I amplified Cox for c117, c1a and c331; Ogr for c117, c331 and c1a and P4 for c1906, c1a and c331. I charged an agarose gel to check the PCRs, cox and ogr were seen when they were supposed to be. The resistant strains were contaminated with yeast. So, I did no more efforts | + | In this month all the cultures got contaminated with yeast (strains C331, C-117, C1a, C-1906, c520, c1895, c2423). The contaminated cultures were transferred to generate spectomycin resistant. Resistant strains c-117, c1a, c331 and c1906 were obtained. I did PCR’s to be sure about the genome integrity. I amplified Cox for c117, c1a and c331; Ogr for c117, c331 and c1a and P4 for c1906, c1a and c331. I charged an agarose gel to check the PCRs, cox and ogr were seen when they were supposed to be. The resistant strains were contaminated with yeast. So, I did no more efforts on this. New stock of the main C1a stock was obtained. |
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<br><span style="font-size:14px"> ''Burst size obtained with purification data.'' </span> | <br><span style="font-size:14px"> ''Burst size obtained with purification data.'' </span> | ||
<br><br> | <br><br> | ||
- | These results were used to obtain the “burst size” of T7 bacteriophages. I assumed a couple of things: all the phages are infecting a bacterium, all the cells were infected and almost all the bacteria died in the first round of infection. I calculated the bacteria number with the formula obtained from the growth curve which involves OD and UFC. So I calculated the burst size as the total number of phages produced divided by the total number of bacteria. The data from the first purification (1BS stock)indicate a burst size of 952 phages per bacterium. However the data from the 2BS stock indicate a burst size of 160,000 phages per bacterium and surprisingly the data from the 3BS stock indicate a bigger number. We | + | These results were used to obtain the “burst size” of T7 bacteriophages. I assumed a couple of things: all the phages are infecting a bacterium, all the cells were infected and almost all the bacteria died in the first round of infection. I calculated the bacteria number with the formula obtained from the growth curve which involves OD and UFC. So I calculated the burst size as the total number of phages produced divided by the total number of bacteria. The data from the first purification (1BS stock)indicate a burst size of 952 phages per bacterium. However the data from the 2BS stock indicate a burst size of 160,000 phages per bacterium and surprisingly the data from the 3BS stock indicate a bigger number. We know it is not possible because the phage production is limited by the amount of nucleotides available. For this reason, We designed other experiment to measure the burst size. From now I focused on T7 because I felt the time wasn't enough.<br> |
==October== | ==October== | ||
- | + | We did a growth curve with phage.<br><br> | |
- | In the first assay I cultured 35ml of M9LB c1a when the OD reached a value close to 0.8 I added 5ul of T3 or T7. I took OD measures (550nm)every twenty minutes. No phage was added in the control. The data recollected from this experiment is shown in the following table. I did the assay twice. Because I took different initial values for this replicate and because I didn’t plates I repeated the assay taking into account these facts.<br> | + | In the first assay I cultured 35ml of M9LB c1a when the OD reached a value close to 0.8 I added 5ul of T3 or T7. I took OD measures (550nm)every twenty minutes. No phage was added in the control. The data recollected from this experiment is shown in the following table. I did the assay twice. Because I took different initial values for this replicate and because I didn’t do plates I repeated the assay taking into account these facts.<br> |
Time(min) T7(1)(OD) T7(2) (OD) T3(1) (OD) T3(2) (OD) C1(OD) C2(OD) | Time(min) T7(1)(OD) T7(2) (OD) T3(1) (OD) T3(2) (OD) C1(OD) C2(OD) | ||
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<br> When I went over the plates I realized the results for the time 0 were inconsistent, however on time 5 plates I obtained 2 colonies for the 10^-3 T3 and T7 plates, 0 colonies for the 10^-5 T3 and T7 plates, for the control plates I almost got a bacteria monolayer in 10^-3 plate and non-countable bacteria in 10^-5. | <br> When I went over the plates I realized the results for the time 0 were inconsistent, however on time 5 plates I obtained 2 colonies for the 10^-3 T3 and T7 plates, 0 colonies for the 10^-5 T3 and T7 plates, for the control plates I almost got a bacteria monolayer in 10^-3 plate and non-countable bacteria in 10^-5. | ||
+ | <br><br> | ||
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+ | <br><span style="font-size:14px"> ''Second experiment to obtain the burst size.'' </span><br><br> | ||
+ | I did two replicates of this experiment. I did two 25ml cultures. When the culture had an OD around 0.8 (0.738 and 0.724, respectively)I put 100ul of some phage dilutions. I supposedly added seven and five phages, respectively. I waited for 20 minutes, it is supposed that the lysis lasts approximately 14 minutes. After this I follow the purification protocol adding 3ml of NaCl and 4ml of PEG 6000% in the right time. In the next step I did phage dilutions (10^-1, 10^-2 and 10^-3) and I followed the Titering Protocol. No one plaque was observed after three hours. I suppose the Purification Protocol was unsuccessful because the small amount of phages.<br> | ||
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+ | <br><span style="font-size:14px"> ''Third experiment to obtain the burst size.'' </span><br><br> | ||
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+ | I did two replicates of this experiment. I did a modified Tittering Protocol. I took 500ul of cells with an OD of 0.8 and I added 100ul of phage dilution. The dilutions were made from the T7 original stock, I used the 10^-8, 10^9, 10^10 and 10^11 dilutions in which I expected 100, 10, 1 and 0 phages, respectively. This mix stayed 25 minutes on the shaker after this I tittered the cultures and I obtained the next results. | ||
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+ | DILUTION 3E 3E2 | ||
+ | 10^-8 Clear Clear | ||
+ | 10^-9 Clear Clear | ||
+ | 10^-10 1000 aprox 1000 aprox | ||
+ | 10^-11 1000 aprox 1000aprox | ||
+ | <span style="font-size:10px"> The same nomenclature rules are followed </span><br><br> | ||
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+ | <br> | ||
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Latest revision as of 02:49, 22 October 2009