Answer:
Human insulin protein will not be produced
Explanation:
For production of human insulin protein in bacteria, first the insulin gene needs to be transcribed to corresponding mRNA. This mRNA will be then translated to produce insulin protein. The initial portion of any gene has a promoter sequence. During transcription RNA Polymerase recognizes this promoter sequence to initiate the process.
Here, the gene's first five nucleotides were accidentally cut out so now the promoter sequence has been altered. RNA Polymerase will not be able to recognise it so transcription will not occur. No mRNA will be formed and as a result translation will also not occur and there will be no production of insulin protein.
5. Adenine and thymine base pair
6. Chargaff's base ratios
10. Hydrogen bonds exist between base pairs (A/T and G/C) allowing DNA to maintain the helical structure. Adenines and thymines have two hydrogen bonds, guanines and cytosines have three. When these hydrogen bonds are broken, this allows for "unzipping" of the DNA - which can then be replicated, transcribed/translated to RNA, etc.
The H band lie around the zone of the thick filaments and is the most appropriate choice.
<h3>What is H band?</h3>
This appears in the middle of the sarcomere and consists of only myosin and is characterized by the presence of thick filaments in the structure.
In this band, actin is not present which is how the band is usually identified in the laboratory.
Read more about H band here brainly.com/question/26129970
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<span>plasmogamy is the stage that this occurs </span>
