What is cell differentiation? Discuss the role of myogenic bHLH proteins in the differentiation of muscle cells. Explain how they work at the molecular level. In your answer, explain how protein dimerization is key to gene regulation.
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What is cell differentiation? Discuss the role of myogenic bHLH proteins in the differentiation of muscle cells. Explain how they work at the molecular level. In your answer, explain how protein dimerization is key to gene regulation.
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- Give typing answer with explanation and conclusion What characteristics of the DSX protein enable the female- and male-specific isoforms of DSX to regulate the same genes but with different outcomes in female and male development? [multiple answers possible] A.The two isoforms are different alleles of the same gene B.The two isoforms have different DNA-binding domains C.The two isoforms are lncRNAs involved in dosage compensation D.The two isoforms differ in their activation domain E.The two isoforms share the same activation domain F. The two isoforms share the same DNA-binding domainGiven the following schematic for a gene and its associated regulatory regions, answer the following questions by placing the correct letter in the provided blanks please put in the correct letter for the questions What region would provide cell type-specific expression of genes? region What site would significantly increase gene expression rates? = region What region or regions of this gene’s coding sequence are expressed as amino acids = regionWhat are the functions of transcriptional activator proteins and repressor proteins? Explain how they work at the molecular level.
- Chromatin decompaction is a preliminary step in gene expression (Figure 29.48). How is chromatin decompacted?Which of the following does NOT pertain to the myoblast-determining gene 1?*a. It is a master gene.b. It is a silencing gene.c. It produces a transactivating protein.d. It activates its own gene. Gene silencing involves which type of histone modification?* a. acetylation of histone 4 b. dimethylation of histone 3 c. trimethylation of histone 4 d. trimethylation of histone 3 Given the required environment, the totipotency of the nucleus can allow which of the following?* a. a committed cell to undergo dedifferentiation b. a committed cell to undergo terminal differentiation c. a terminally differentiated cell to produce a complete organism d. a terminally differentiated cell to produce specific types of tissues An induced pluripotent cell is described by which of the following?* a. It is a committed cell that undergoes redifferentiation. b. It is a committed cell that undergoes dedifferentiation. c. It is a terminally…What is a second messenger? What are two second messengers that are involved in signaling pathways downstream of GPCRs and explain how they are produced? long answer: If you wanted to compare a cardiac muscle cell with a skeletal muscle, how could you use RNA sequencing to identify genes that are differentially expressed? In your answer, explain this technique and describe what type of information you can learn from it. If RNA sequencing led to the identification of two genes, gene X and gene Y, what are two experiments you could do to study the functions of these two genes?
- There is a protein called neurogenin that stimulates neuronal cells to differentiate. In order to determine what kind of receptor neurogenin binds to, you add a general phosphatase (one that can remove phosphates from any substrate) to neural cells when you add neurogenin, and you discover that this inhibits differentiation. Furthermore, in the presence of this phosphatase, you find that not even a G protein is activated in response to neurogenin. 1. With this information, what kind of receptor does neurogenin bind to? 2. In a normal cell, how does the G protein in this pathway get activated? 3. In a normal cell, why does the response to neurogenin cease over time?What are the opposing roles of Ubiquitin and Proteosomes versus Chaperone Proteins in the cell in final protein expression? When does one override the otherDiscuss how the differential gene expression is possible when all somatic cells carry identical genes and genome.
- Explain how DNA methylation could be used to regulate gene expression in a tissue-specific way. When and where would de novo methylation occur, and when would demethylation occur? What would occur in the cells that give rise to eggs and sperm?What is the difference between an oncogene and a tumor-suppressorgene? Give two examples of each type of gene.Remember that DNA viruses inactivate tumor suppressor genes resulting in cancer.In Burkitt’s lymphoma, how does translocation of c-myc result in its overexpression?