Difference between revisions of "Part:BBa K4361021"
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BlcR is a transcription factor originating from the bacterium <i>Agrobacterium tumefaciens</i> ([[Part:BBa_K4361100]]). In a homodimer state it contains a single DNA-binding domain that specifically binds one of two DNA sequences. Both sequences are so-called inverted repeat pairs (IRs), short DNA sequences whose ends are reverse complements of each other. For the Blc operator, these sequences are 'ACTCTAATgATTCAAGT' (IR1) and 'ATTAGttgaactCTAAT' (IR2), as further explained in [[Part:BBa_K4361001]]. <br> | BlcR is a transcription factor originating from the bacterium <i>Agrobacterium tumefaciens</i> ([[Part:BBa_K4361100]]). In a homodimer state it contains a single DNA-binding domain that specifically binds one of two DNA sequences. Both sequences are so-called inverted repeat pairs (IRs), short DNA sequences whose ends are reverse complements of each other. For the Blc operator, these sequences are 'ACTCTAATgATTCAAGT' (IR1) and 'ATTAGttgaactCTAAT' (IR2), as further explained in [[Part:BBa_K4361001]]. <br> | ||
− | As their contribution to <html><a href="www.2022.igem.wiki/tudelft/partnership">our partnership</a></html>, the DTU iGEM 2022 team analyzed the BlcR binding operator with NCBI Blast. In total, they found 25 variants of the sequence originating from different strains of <i>A. tumefaciens</i>, varying in similarity to what we define as the wildtype oligo, [[Part:BBa_K4361001]]. Surprisingly, while they found that all sequences did have conserved nucleotides, these were not specifically for IR1 and IR2 but instead for alternative inverted repeats (see <b>Sequence and Features</b> and <b>Usage and Biology</b> below). From the multiple sequence alignment, two sequences were chosen to be further investigated by us: the consensus sequence formed by the most common nucleotide for each position in the alignment (this part), and the operator of <i>A. tumefaciens</i> strain Q15, because of its relatively low similarity with the wildtype sequence. | + | As their contribution to <html><a href="http://www.2022.igem.wiki/tudelft/partnership/">our partnership</a></html>, the DTU iGEM 2022 team analyzed the BlcR binding operator with NCBI Blast. In total, they found 25 variants of the sequence originating from different strains of <i>A. tumefaciens</i>, varying in similarity to what we define as the wildtype oligo, [[Part:BBa_K4361001]]. Surprisingly, while they found that all sequences did have conserved nucleotides, these were not specifically for IR1 and IR2 but instead for alternative inverted repeats (see <b>Sequence and Features</b> and <b>Usage and Biology</b> below). From the multiple sequence alignment, two sequences were chosen to be further investigated by us: the consensus sequence formed by the most common nucleotide for each position in the alignment (this part), and the operator of <i>A. tumefaciens</i> strain Q15, because of its relatively low similarity with the wildtype sequence. |
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Revision as of 05:43, 11 October 2022
BlcR-binding oligo, 57 bp, consensus sequence
BlcR is a transcription factor originating from the bacterium Agrobacterium tumefaciens (Part:BBa_K4361100). In a homodimer state it contains a single DNA-binding domain that specifically binds one of two DNA sequences. Both sequences are so-called inverted repeat pairs (IRs), short DNA sequences whose ends are reverse complements of each other. For the Blc operator, these sequences are 'ACTCTAATgATTCAAGT' (IR1) and 'ATTAGttgaactCTAAT' (IR2), as further explained in Part:BBa_K4361001.
As their contribution to our partnership, the DTU iGEM 2022 team analyzed the BlcR binding operator with NCBI Blast. In total, they found 25 variants of the sequence originating from different strains of A. tumefaciens, varying in similarity to what we define as the wildtype oligo, Part:BBa_K4361001. Surprisingly, while they found that all sequences did have conserved nucleotides, these were not specifically for IR1 and IR2 but instead for alternative inverted repeats (see Sequence and Features and Usage and Biology below). From the multiple sequence alignment, two sequences were chosen to be further investigated by us: the consensus sequence formed by the most common nucleotide for each position in the alignment (this part), and the operator of A. tumefaciens strain Q15, because of its relatively low similarity with the wildtype sequence.
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]
Usage and biology
-
Results
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