20. You are modelling a genetic circuit shown above on Simbiology. What would the Reaction Rate property of "gfp Transcription Rxn" be if Transcription Factor X binds to the promoter to repress transcription in the circuit and it is assumed that transcription follows Hill Kinetics. Note: The Hill coefficient is n = 2; [Transcription Factor X] = [W]; ktr is the transcription constant; K is the activation/repression constant; dm is the degradation constant for mRNA a. b. C. d. e. Kktr.[W]2 [W]²+K² Ktr.K² K²+[W]² Ktr [W]²+K² Ktr [w]² Ktr [W]²+K² - dm [mRNA]
Bacterial Genomics
The study of the morphological, physiological, and evolutionary aspects of the bacterial genome is referred to as bacterial genomics. This subdisciplinary field aids in understanding how genes are assembled into genomes. Further, bacterial or microbial genomics has helped researchers in understanding the pathogenicity of bacteria and other microbes.
Transformation Experiment in Bacteria
In the discovery of genetic material, the experiment conducted by Frederick Griffith on Streptococcus pneumonia proved to be a stepping stone.
Plasmids and Vectors
The DNA molecule that exists in a circular shape and is smaller in size which is capable of its replication is called Plasmids. In other words, it is called extra-chromosomal plasmid DNA. Vectors are the molecule which is capable of carrying genetic material which can be transferred into another cell and further carry out replication and expression. Plasmids can act as vectors.
ANS: B
![Transcription Factor X
gfp Transcription Rxn
a.
b.
C.
d.
20. You are modelling a genetic circuit shown above on Simbiology. What would the
Reaction Rate property of "gfp Transcription Rxn" be if Transcription Factor X binds to
the promoter to repress transcription in the circuit and it is assumed that transcription
follows Hill Kinetics. Note: The Hill coefficient is n = 2; [Transcription Factor X] = [W]; ktr
is the transcription constant; K is the activation/repression constant; dm is the
degradation constant for mRNA
e.
Ktr.[W]²
[W]²+K²
Ktr.K²
K² +[W]²
Ktr
[W]²+K²
Ktr
[w]²
mRNA_gfp
Ktr
[W]²+K²
gfp Degn Rxn
gfp Translation Rxn
dm [mRNA]
GFP
GFP Degn Rxn](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fca6b5de9-d666-4be4-bec5-372f49facd74%2F9628f5df-837e-4318-b277-798ad498dc82%2Fg6aocg_processed.png&w=3840&q=75)
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