USTC/FailureOfNANDv2b

From 2007.igem.org

< USTC(Difference between revisions)
m
m
 
Line 1: Line 1:
-
NANDv2b has not passed the X-gal assay on plates, so no ONPG data has been measured. This is caused by the downstream weakest hybrid operator. The affinity of this operator (O27) is too weak for repressor to bind to the DNA and repress the promoter.
+
NANDv2b has not passed the X-gal assay on plates, so no ONPG data has been measured. This is caused by the weakest hybrid operator downstream. The affinity of this operator (O27) is too weak for repressor to bind to the DNA and repress the promoter.
[[Image:USTC_NANDv2b_Xgal.jpg|thumb|500px|center|'''Figure 1''' X-gal plates of NANDv2b. From left to right: R2+R4, R2, R4. Blue colonies show that the weakest hybrid operator is not suitable for NAND gate.]]
[[Image:USTC_NANDv2b_Xgal.jpg|thumb|500px|center|'''Figure 1''' X-gal plates of NANDv2b. From left to right: R2+R4, R2, R4. Blue colonies show that the weakest hybrid operator is not suitable for NAND gate.]]

Latest revision as of 00:44, 27 October 2007

NANDv2b has not passed the X-gal assay on plates, so no ONPG data has been measured. This is caused by the weakest hybrid operator downstream. The affinity of this operator (O27) is too weak for repressor to bind to the DNA and repress the promoter.

Figure 1 X-gal plates of NANDv2b. From left to right: R2+R4, R2, R4. Blue colonies show that the weakest hybrid operator is not suitable for NAND gate.