Golden Gate Assembly

Prepare an ice box.

Place the , , and in ice.

Add the following reagents into a PCR tube:

A	B
DI Water	10μL
Plasmid	1μL
PCR Extract Oligo	5μL
BsaI-HFv2 Enzyme	1μL
T4 DNA Ligase	1μL
T4 Ligase Buffer	2μL

Put the sample into the Thermal Cycler and run it with the following conditions:

*Set "Lid Temperature" to 105°C and set "Volume" to 20µL

A	B
37°C	5 minutes
16°C	5 minutes
Go to step 1, repeat the cycle 40 times
37°C	1 hour
60°C	15 minutes
12°C	Infinite Loop

Prepare a box of ice.

Take an Eppendorf tube that contains pre-made competent cells from the -80°C fridge.

Immediately place the Eppendorf tube with competent cells into the ice box for 0h 5m 0s .

Add the whole Golden Gate Assembly product (20µL) o into the Eppendorf tube containing the competent cells.

Tap the bottom of the Eppendorf tube to mix the solution.

Leave the Eppendorf tube in ice for 0h 10m 0s .

Place the Eppendoft tube into a foam floating.

Place them into the water bath for 0h 0m 45s at 42°C for heat shock.

Place the Eppendorf tube into the ice immediately

Add 1mL of the LB media into the Eppendorf tube.

Place the Eppendoft tube into the incubator at 37°C for 1h 0m 0s for recovery.

Centrifuge the Eppendorf tube to form a cell pellet (no specific speed and time).

Prepare an LB agar plate with the correct antibiotics.

Remove 950µL of the LB solution from the Eppendorf tube that contains the cell pellet, leaving about 100µL in the Eppendorf tube.

Resuspend the cells by pipetting the solution.

Spread the cells onto the agar with the L-spreader.

Place the petri dish in the incubator at 37°C for 1h 0m 0s to allow the colonies to grow.