# User:Allison K. Alix/Notebook/Thesis Research/2013/07/25

(Difference between revisions)
 Revision as of 11:37, 25 July 2013 (view source) (→ThT/DNA attachment)← Previous diff Revision as of 12:01, 25 July 2013 (view source) (→ThT/DNA attachment)Next diff → Line 36: Line 36: '''4-repeat''' '''4-repeat''' - x(500uL)=(265.6uM)(8.12) + x(500uL)=(265.6uM)(10) - x = 4.31uM + x = 5.31uM - 1800nM-->  41.8uL in 58.2uL PBS + [100-([x(100)]/5.31)] = - 1400nM--> 32.5uL in 67.5uL + 1800nM--> 33.9uL in 58.2uL PBS add 7.9 - 1000nM--> 23.2uL in 76.8uL + 1400nM--> 26.4uL in 67.5uL add 6.1 - 600nM--> 13.9uL in 86.1uL + 1000nM--> 18.8uL in 76.8uL add 4.4 - 200nM--> 4.6uL in 95.4uL + 600nM--> 11.3uL in 86.1uL add 2.6 + + 200nM--> 3.8uL in 95.4uL add 0.8 '''8-repeat''' '''8-repeat'''

## Revision as of 12:01, 25 July 2013

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## To Do

• Repeat Silica-Coating procedure using water to dilute nanoparticles instead of PBS. PBS is likely the cause of the aggregation we have been observing.[1]
• Repeat ThT-DNA fluorescence procedure to show that fluorescence increases with increasing number of G-quadruplexes formed.

## Silica-Coating Part 1

1) Dilute 23.5nM AuNPs to 9.4nM (2mL AuNPs in 3mL water *NOTE: the water was left to assimilate to room temperature prior to dilution*)

2)

## ThT/DNA attachment

1) Prepare 100uL of the following concentrations of 4-strand and 8-strand telomeric DNA (which should generate 1 and 2 G-quadruplexes respectively)

a) 100nM

b) 300nM

c) 500nM

d) 700nM

e) 900nM

NOTE: Original Concentrations of 4 and 8-repeats are 265.6uM and 142.8uM, respectively

4-repeat

x(500uL)=(265.6uM)(10)

x = 5.31uM

[100-([x(100)]/5.31)] =

1800nM--> 33.9uL in 58.2uL PBS add 7.9

1400nM--> 26.4uL in 67.5uL add 6.1

1000nM--> 18.8uL in 76.8uL add 4.4

600nM--> 11.3uL in 86.1uL add 2.6

200nM--> 3.8uL in 95.4uL add 0.8

8-repeat

142.8uM(10uL) = (x)(500uL)

x= 2.856uM

1800nM--> 63uL in 37uL PBS

1400nM--> 49uL in 51uL

1000nM--> 35uL in 65uL

600nM--> 21uL in 79uL

200nM--> 7uL in 93uL