XIE/Enzyme:2025/Dec: Difference between revisions
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== 12.08 == | == 12.08 == | ||
* <big>'''HR-DNA Origami(NO) Folding'''</big> | * <big>'''HR-DNA Origami(NO) Folding'''</big> | ||
*Materials | |||
{| class="wikitable" | {| class="wikitable" | ||
! Material | ! Material | ||
| Line 20: | Line 20: | ||
|} | |} | ||
# | # | ||
# | *Program folding in PCR thermocycler : The mixed sample was put on a thermal ramp starting with a rapid heat denaturation at 80 °C for 5 min followed by cooling from 80 °C to 60 °C over 20 min, then slow cooling from 60 °C to 24 °C over 14 h. | ||
*Purification (12.09): Reserve a 10 µL aliquot. Add the remaining 90 µL to a 100‑kDa MWCO centrifugal filter unit and dilute to 500 µL with 1× PBS. Centrifuge at 8,000 g for 1.5 min and discard the filtrate . Add UP Water to 500 ul to the filter unit and repeat the centrifugation; perform this wash step three times. After the final wash, adjust the volume in the filter unit to 100 µL with UP Water, invert the filter unit into a fresh collection tube, and centrifuge at 8,000 g for 1.5 min to collect the concentrate. | |||
== 12.09 == | |||
* <big>'''HR-DNA Origami(NO) Folding'''</big> | |||
*Materials | |||
{| class="wikitable" | |||
! Material | |||
! Volume(100 μL) | |||
|- | |||
| Staples (500 nM) | |||
| 25 μL | |||
|- | |||
| P8064 (150 nM) | |||
| 10 μL | |||
|- | |||
| 10X PBS | |||
| 10 μL | |||
|- | |||
| H2O | |||
| 55 μL | |||
|} | |||
# | |||
*Program folding in PCR thermocycler : The mixed sample was put on a thermal ramp starting with a rapid heat denaturation at 80 °C for 5 min followed by cooling from 80 °C to 60 °C over 20 min, then slow cooling from 60 °C to 24 °C over 14 h. | |||
*Purification (12.10): Reserve a 10 µL aliquot. Add the remaining 90 µL to a 100‑kDa MWCO centrifugal filter unit and dilute to 500 µL with 1× PBS. Centrifuge at 8,000 g for 1.5 min and discard the filtrate . Add 1X PBS to 500 ul to the filter unit and repeat the centrifugation; perform this wash step three times. After the final wash, adjust the volume in the filter unit to 100 µL with 1X PBS, invert the filter unit into a fresh collection tube, and centrifuge at 8,000 g for 1.5 min to collect the concentrate. | |||
== 12.10 == | |||
* <big>'''Agarose Gel Electrophoresis '''</big> | |||
*'''Gel Preparation''' | |||
#Recipe: 2.4 g agarose in 120 mL 0.5× TBE | |||
#Heat in a microwave to dissolve, cool slightly, adjust volume with 0.5× TBE to 120 ul, then add 1.2 mL of 1 M MgCl2 and 12 µL GoldView DNA stain. | |||
#Insert comb and waite for the gel to cool and solidify. | |||
*'''Sample preparation''' | |||
#Origami (15 nM): sample:loading buffer = 5:1. | |||
#Scaffold: take 1 µL scaffold, dilute to 10 µL (final concentration 15 nM); scaffold:loading buffer = 5:1. | |||
*'''Electrophoresis''' | |||
#Run at 90 V for 120 min in 0.5× TBE with 10 mM MgCl2 | |||
#'''Marker、Scaffold(1X)、Origami(10.08-未洗)、Origami(10.08—清洗)、Origami(10.09-未洗)、Origami(10.09-清洗)、Scaffold(10X)、Marker''' | |||
[[FIle:Origami(NO)_25_12_10.png|thumb|center|600px|Origami(NO)]] | |||
== 12.11 == | |||
*<big>'''TEM'''</big> | |||
=== Negative staining (uranyl acetate) === | |||
*'''Grid activation''': glow‑discharge copper grids for 30 s. | |||
*'''Sample staining''' | |||
#apply 4.5 µL of sample onto the grid. | |||
#Blot off the sample, add buffer to the grid, then blot off the buffer. | |||
#Prepare parafilm and place three drops of uranyl acetate (pH adjusted) on the parafilm. | |||
#Quickly transfer the grid into a staining droplet, blot off excess, and incubate for 30 s. | |||
#Air‑dry the grid. | |||
[[File:TEM_Origami(NO).jpg|thumb|center|400px|TEM_Origami(NO)]] | |||
== 12.12 == | |||
*<big><span style="color:red;">'''S2 conjugated G5'''</span></big> | |||
=== Incubation === | |||
'''Stock Solution''': 1 mM | |||
# Measure G5 stock (3 mg/mL, 46 μM). Dilute 10 μL of the stock to 100 μL (4.6 μM); aliquot and store at -80°C as the storage sample. | |||
# Take one storage aliquot and add 10 μL DBCO stock (10 mM). Divide evenly into two groups (ultrafiltration and non-ultrafiltration). For the non-ultrafiltration group, aliquot 16 μL into a PCR tube (designated M1) and incubate on ice at 4°C for 4 h. | |||
# For the ultrafiltration group, transfer the sample into a 10 kDa centrifugal filter unit, dilute to 500 μL with 1× PBS, and centrifuge at 10,000 × g, 4°C for 30 min. Concentrate the sample to approximately 100 μL, then spin at 8,000 × g for 2 min to collect. Aliquot 16 μL into a PCR tube (designated M2). | |||
# Add 1 μL S1 (500 μM) to both the ultrafiltered and non-ultrafiltered samples and incubate on ice at 4°C for 4 h. Label the non-ultrafiltered sample N-U and the ultrafiltered sample U. | |||
# Retain the −80°C storage aliquot as control C. | |||
=== Native PAGE === | |||
* Gel: 7.5% native gel. | |||
* Sample preparation: Mix 16 μL of each sample (C, M1, M2, N-U, U) with 4 μL loading buffer and mix thoroughly. | |||
* Electrophoresis: Run at 120 V for 100 min in 1× TBE. | |||
== 12.13 == | |||
*'''<big><span style="color:red;">S2 conjugated G5</span></big>''' | |||
==='''Incubation'''=== | |||
#Prepare two aliquots of G5 stock, labeled A and B. | |||
#Add 1 µL DBCO to each of A and B and incubate for 4 h. | |||
#For A: remove 16 µL as sample M1; add 10 µL S2 to the remaining A (named O1) and incubate for 4 h. | |||
#For B: dilute the sample to 500 µL, transfer to a 10 kDa centrifugal ultrafiltration tube and centrifuge at 10,000 g for 30 min; concentrate to 100 µL, remove 16 µL as sample M2; add 10 µL S2 to the remaining B (named O2) and incubate for 4 h | |||
Latest revision as of 05:29, 13 December 2025
12.08[edit]
- HR-DNA Origami(NO) Folding
- Materials
| Material | Volume(100 μL) |
|---|---|
| Staples (500 nM) | 25 μL |
| P8064 (150 nM) | 10 μL |
| 10X PBS | 10 μL |
| H2O | 55 μL |
- Program folding in PCR thermocycler : The mixed sample was put on a thermal ramp starting with a rapid heat denaturation at 80 °C for 5 min followed by cooling from 80 °C to 60 °C over 20 min, then slow cooling from 60 °C to 24 °C over 14 h.
- Purification (12.09): Reserve a 10 µL aliquot. Add the remaining 90 µL to a 100‑kDa MWCO centrifugal filter unit and dilute to 500 µL with 1× PBS. Centrifuge at 8,000 g for 1.5 min and discard the filtrate . Add UP Water to 500 ul to the filter unit and repeat the centrifugation; perform this wash step three times. After the final wash, adjust the volume in the filter unit to 100 µL with UP Water, invert the filter unit into a fresh collection tube, and centrifuge at 8,000 g for 1.5 min to collect the concentrate.
12.09[edit]
- HR-DNA Origami(NO) Folding
- Materials
| Material | Volume(100 μL) |
|---|---|
| Staples (500 nM) | 25 μL |
| P8064 (150 nM) | 10 μL |
| 10X PBS | 10 μL |
| H2O | 55 μL |
- Program folding in PCR thermocycler : The mixed sample was put on a thermal ramp starting with a rapid heat denaturation at 80 °C for 5 min followed by cooling from 80 °C to 60 °C over 20 min, then slow cooling from 60 °C to 24 °C over 14 h.
- Purification (12.10): Reserve a 10 µL aliquot. Add the remaining 90 µL to a 100‑kDa MWCO centrifugal filter unit and dilute to 500 µL with 1× PBS. Centrifuge at 8,000 g for 1.5 min and discard the filtrate . Add 1X PBS to 500 ul to the filter unit and repeat the centrifugation; perform this wash step three times. After the final wash, adjust the volume in the filter unit to 100 µL with 1X PBS, invert the filter unit into a fresh collection tube, and centrifuge at 8,000 g for 1.5 min to collect the concentrate.
12.10[edit]
- Agarose Gel Electrophoresis
- Gel Preparation
- Recipe: 2.4 g agarose in 120 mL 0.5× TBE
- Heat in a microwave to dissolve, cool slightly, adjust volume with 0.5× TBE to 120 ul, then add 1.2 mL of 1 M MgCl2 and 12 µL GoldView DNA stain.
- Insert comb and waite for the gel to cool and solidify.
- Sample preparation
- Origami (15 nM): sample:loading buffer = 5:1.
- Scaffold: take 1 µL scaffold, dilute to 10 µL (final concentration 15 nM); scaffold:loading buffer = 5:1.
- Electrophoresis
- Run at 90 V for 120 min in 0.5× TBE with 10 mM MgCl2
- Marker、Scaffold(1X)、Origami(10.08-未洗)、Origami(10.08—清洗)、Origami(10.09-未洗)、Origami(10.09-清洗)、Scaffold(10X)、Marker
_25_12_10.png)
12.11[edit]
- TEM
Negative staining (uranyl acetate)[edit]
- Grid activation: glow‑discharge copper grids for 30 s.
- Sample staining
- apply 4.5 µL of sample onto the grid.
- Blot off the sample, add buffer to the grid, then blot off the buffer.
- Prepare parafilm and place three drops of uranyl acetate (pH adjusted) on the parafilm.
- Quickly transfer the grid into a staining droplet, blot off excess, and incubate for 30 s.
- Air‑dry the grid.
.jpg)
12.12[edit]
- S2 conjugated G5
Incubation[edit]
Stock Solution: 1 mM
- Measure G5 stock (3 mg/mL, 46 μM). Dilute 10 μL of the stock to 100 μL (4.6 μM); aliquot and store at -80°C as the storage sample.
- Take one storage aliquot and add 10 μL DBCO stock (10 mM). Divide evenly into two groups (ultrafiltration and non-ultrafiltration). For the non-ultrafiltration group, aliquot 16 μL into a PCR tube (designated M1) and incubate on ice at 4°C for 4 h.
- For the ultrafiltration group, transfer the sample into a 10 kDa centrifugal filter unit, dilute to 500 μL with 1× PBS, and centrifuge at 10,000 × g, 4°C for 30 min. Concentrate the sample to approximately 100 μL, then spin at 8,000 × g for 2 min to collect. Aliquot 16 μL into a PCR tube (designated M2).
- Add 1 μL S1 (500 μM) to both the ultrafiltered and non-ultrafiltered samples and incubate on ice at 4°C for 4 h. Label the non-ultrafiltered sample N-U and the ultrafiltered sample U.
- Retain the −80°C storage aliquot as control C.
Native PAGE[edit]
- Gel: 7.5% native gel.
- Sample preparation: Mix 16 μL of each sample (C, M1, M2, N-U, U) with 4 μL loading buffer and mix thoroughly.
- Electrophoresis: Run at 120 V for 100 min in 1× TBE.
12.13[edit]
- S2 conjugated G5
Incubation[edit]
- Prepare two aliquots of G5 stock, labeled A and B.
- Add 1 µL DBCO to each of A and B and incubate for 4 h.
- For A: remove 16 µL as sample M1; add 10 µL S2 to the remaining A (named O1) and incubate for 4 h.
- For B: dilute the sample to 500 µL, transfer to a 10 kDa centrifugal ultrafiltration tube and centrifuge at 10,000 g for 30 min; concentrate to 100 µL, remove 16 µL as sample M2; add 10 µL S2 to the remaining B (named O2) and incubate for 4 h