Difference between revisions of "Part:BBa K3060002"
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This part is a ssDNA, using the primer 3 (BBa_K3060005) to form a circular template for the rolling circle amplification (RCA, or R). After the RCA completed, adding primer2 (BBa_K3060004) and primer3 (BBa_K3060005) to start the multi-primed chain amplification (MCA, or M). Hence, the hydrogel can be formed. | This part is a ssDNA, using the primer 3 (BBa_K3060005) to form a circular template for the rolling circle amplification (RCA, or R). After the RCA completed, adding primer2 (BBa_K3060004) and primer3 (BBa_K3060005) to start the multi-primed chain amplification (MCA, or M). Hence, the hydrogel can be formed. | ||
| − | < | + | <h3>Usage</h3> |
| − | + | This part is a ssDNA, using the primer 3 (BBa_K3060005) to form a circular template for the rolling circle amplification (RCA, or R). After the RCA completed, adding primer2 (BBa_K3060004) and primer3 (BBa_K3060005) to start the multi-primed chain amplification (MCA, or M). Hence, the hydrogel can be formed. The preparation method can be found in 2019 | |
| − | + | DUT_China_A(https://2019.igem.org/Team:DUT_China_A/Protocols)<br/> | |
| + | Note: It is important to confirm before using that the 5' terminal is a phosphate group and the 3' terminal is a hydroxyl group. | ||
| + | <h3>Characterization </h3> | ||
| + | <h4>The formation of circular template</h4> | ||
| + | In order to examine the successful preparation of the circular template, different samples were characterized by polyacrylamide gel electrophoresis (PAGE) | ||
| + | As shown in Fig. 1, ligation products of ssDNA (Lane 2) exhibited a series of dispersive bands with slower migration than that of ssDNA (lane 1), indicating the formation of circular templates and other byproducts. After the ligation products were treated with Exo I and Exo III, only one bright and well-defined band still existed, proving the complete digestion of ligation byproducts and successful preparation of the circular template (lane 3). | ||
| + | [[File:T--DUT China A--parts-Fig 3-DLSimage.png|400px|thumb|Figure 1. '''PAGE image analysis of ssDNA (Lane 1), ligation products of ssDNA by reaction with Primer 3 and T4 DNA ligase (Lane 2), purified circular template by digesting above-mentioned ligation products with Exo I, and Exo III (Lane 3).''' ]] | ||
| + | <h4>The formation of DNA Hydrogel.</h4> | ||
| + | Then, the circular template we preparation is used for the RCA and MCA processes to form the DNA hydrogel. The method can be found in 2019 DUT_China_A. (https://2019.igem.org/Team:DUT_China_A/Protocols) | ||
| + | We use a variety of methods to characterize the formation of DNA hydrogel. | ||
| + | <h4>a.Agarose Gel Electrophoresis</h4> | ||
| + | Agarose gel electrophoresis was used to evaluate the formation of DNA hydrogel. DNA hydrogel is difficult to migrate through the agarose gel and remain the retention in home position. | ||
| + | [[File:T--DUT China A--parts-AGE image.png|400px|thumb|Figure 2. '''AGE image analysis of phi29(+) (Lane 1), phi29(-) (Lane 2).M1, DL2000 DNA size marker. M2, DL500 DNA size marker.''' ]] | ||
| + | <h4>b.SEM</h4> | ||
| + | Scanning electron microscopy (SEM) was used to obtain the morphology of theDNA hydrogel. As shown in Fig. 3, there are a large number of hydrogel particles with a diameter of about 2 μm in the buffer. | ||
| + | [[File:T--DUT China A--parts-Fig 2-SEM image.png|400px|thumb|Figure 3. ''' SEM images showing structures of DNA hydrogel particles.''' ]] | ||
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<span class='h3bb'>Sequence and Features</span> | <span class='h3bb'>Sequence and Features</span> | ||
Revision as of 19:37, 21 October 2019
RCA&MCA ssDNA for DNA hydrogel
This part is a ssDNA, using the primer 3 (BBa_K3060005) to form a circular template for the rolling circle amplification (RCA, or R). After the RCA completed, adding primer2 (BBa_K3060004) and primer3 (BBa_K3060005) to start the multi-primed chain amplification (MCA, or M). Hence, the hydrogel can be formed.
Usage
This part is a ssDNA, using the primer 3 (BBa_K3060005) to form a circular template for the rolling circle amplification (RCA, or R). After the RCA completed, adding primer2 (BBa_K3060004) and primer3 (BBa_K3060005) to start the multi-primed chain amplification (MCA, or M). Hence, the hydrogel can be formed. The preparation method can be found in 2019
DUT_China_A(https://2019.igem.org/Team:DUT_China_A/Protocols)
Note: It is important to confirm before using that the 5' terminal is a phosphate group and the 3' terminal is a hydroxyl group.
Characterization
The formation of circular template
In order to examine the successful preparation of the circular template, different samples were characterized by polyacrylamide gel electrophoresis (PAGE) As shown in Fig. 1, ligation products of ssDNA (Lane 2) exhibited a series of dispersive bands with slower migration than that of ssDNA (lane 1), indicating the formation of circular templates and other byproducts. After the ligation products were treated with Exo I and Exo III, only one bright and well-defined band still existed, proving the complete digestion of ligation byproducts and successful preparation of the circular template (lane 3).
The formation of DNA Hydrogel.
Then, the circular template we preparation is used for the RCA and MCA processes to form the DNA hydrogel. The method can be found in 2019 DUT_China_A. (https://2019.igem.org/Team:DUT_China_A/Protocols) We use a variety of methods to characterize the formation of DNA hydrogel.
a.Agarose Gel Electrophoresis
Agarose gel electrophoresis was used to evaluate the formation of DNA hydrogel. DNA hydrogel is difficult to migrate through the agarose gel and remain the retention in home position.
b.SEM
Scanning electron microscopy (SEM) was used to obtain the morphology of theDNA hydrogel. As shown in Fig. 3, there are a large number of hydrogel particles with a diameter of about 2 μm in the buffer.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]