The inducer deactivates the repressor protein. This allows
the gene which the repressor protein suppresses, to be actively transcribed.
When the inducer fits in its allosteric site on the repressor protein, the repressor changes conformation and is not able
to bind the operator site of the operon.
Answer:
t
Explanation:
really just lowercase but I would you T,t because your talking about being tall or dwarf so you need to know that the T is tall and the t is dwarf
Hope this helped
The skull is divided into 2 parts
CRANIUM and FACE...
Cranium structures are : Frontal, Sphenoid, Temporal, Parietal, Occipital, Ethmoid
Face structures are: Zygomatic, Maxilla, Nasal, Lacrimal, Mandible..
Hope this helped
Answer:make a table with solid, liquid, and gas
Explanation:
Watson and Crick determined base pairing by using Chargaff's rule to fit the bases together.
<h2>Further Explanation
</h2>
- Watson and Crick discovered that the DNA strands exists as a double helix, which appears like a twisted ladder.
- In doing so, Watson and Crick used the Chargaff’s rule to confirm the base pairing in the double stranded DNA, so as to fit the complementary bases together.
<h3>Structure of DNA</h3>
- DNA is a nucleic acid that carries genetic material in all living organisms. DNA is a double stranded nucleic acid whose building blocks are known as nucleotides.
- Each nucleotide contains a sugar, a phosphate group and a nitrogenous base. The four nucleotide bases found in the DNA are Adenine, Cytosine, Thymine and Guanine.
- The strands of DNA are attached to each other as a result of base pairing that occurs through hydrogen bonding as explained by Chargaff’s rule.
<h3>Chargaff’s rule.
</h3>
- Chargaff’s rule describes the base pairing in a DNA molecule, such that the base Guanine pairs with the base Cytosine in the complementary strand, while the base Adenine pairs with Thymine.
- This means the number of thymine bases in a DNA molecule will be equal to the number of Adenine bases, while Guanine bases will be equal to Cytosine bases.
- The result is a ratio of 1:1 between pyrimidines and purines in a molecule of DNA.
- Chargaff's rule of base pairing provided Watson and Crick with a prove that their model was correct, since it agreed with Chargaff's as far as the percentages of A,T,G, and C in DNA are concerned.
- According to Watson and Crick model, the hydrogen bonds could only form between adenine and thymine, and between cytosine and guanine to create an almost perfect fit.
Keywords; Watson and crick model, Chargaff’s rule, DNA, and base pairing.
<h2>Learn more about;
</h2>
- DNA and its structure; brainly.com/question/6460381
- Watson and crick model; brainly.com/question/1462835
Level; High school
Subject; Biology
Topic; Nucleic acids
Sub-topic: DNA structure and base pairing.
