The human genome contains about 20,000 genes, but the human body can generate over 100,000 different proteins. How is it possible that humans have so few genes but can generate so many proteins?
A. Humans likely have over 100,000 genes, but many have yet to be identified
B. mRNAs of different genes can recombine to generate many different proteins
C. the majority of proteins found within a cell are acquired from the environment
D. mutations in DNA generate many versions of each protein
E. alternative splicing of mRNAs produced from one gene generates different proteins
The correct answer according to me is:
Option E) alternative splicing of mRNAs produced from one gene generates different proteins
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The human genome contains about 20,000 genes, but the human body can generate over 100,000 different...
1. Which of the below explain how the human genome can be composed of less than 30000 genes and yet we can synthesize over 60000 unique proteins? Explain a. mutations b. allosteric regulation of proteins c. alternative splicing of mRNA d. Addition of poly-A tails of different lengths
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Choose all that apply: There are about 27,000 human genes, however human body can potentially generate about 2 million different types of proteins. This is due to: a) Post-translational processing of the proteins b) Primary transcripts undergoing alternative splicing c) Premature transcriptional termination by Pol II d) Presence of multiple translational Start sites on the primary RNA transcript
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The human genome contains a family genes that code for
different forms of myosin, which are expressed in different cell
types and hav somewhat different functionsWhere the sequence of
each gene would you expect to see differences among them?
Done Chapter 14 Homework Assignment The human genome contains a family of genes that code for different forms of myosin, which are expressed in different cell types and have somewhat different functions. Where in the sequence of each gene would you...
can someone answer 14-17
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