In chicken, protein factor GATA-1 specifically recognizes the WGATAR sequence in the close promoter of the...

1. In prokaryotic cells, a transfer RNA carrying N-formylmethionine recognizes the ----- and is the first...

1. In prokaryotic cells, a transfer RNA carrying N-formylmethionine recognizes the ----- and is the first tRNA to bind to the ribosomal subunits, so it is called the initiator tRNA. Select one: a. Start codon b. Exon c. Operon d. Stop codon e. Promoter 2. The start codon of a gene sequence determines? (choose the best possible option). Select one: a. The presence of an untranslated region b. The rate of transcription c. The length of the transcript 3. Galactosemia...

Retinitis pigmentosa is a genetic disease that causes the breakdown and loss of retinal cells. Retinitis...

Retinitis pigmentosa is a genetic disease that causes the breakdown and loss of retinal cells. Retinitis pigmentosa often starts with decreased night vision and will progress to blindness as retinal cells die. Several genes have been linked to Retinitis pigmentosa, one of which is GADD. Mice lacking GADD (these mice were experimentally created so that the GADD region of the genome was deleted) have increased expression of non-retinal genes in retinal cells. In other words, in these mutant mice, genes...

1. a. It’s estimated that each human somatic cell contains two copies (one on each homologous...

1. a. It’s estimated that each human somatic cell contains two copies (one on each homologous chromosome) of about 21,000 genes. If you took a close look at one of these (differentiated cells), would you expect all copies of these 21,000 genes to be actively making proteins at any one time?  If you say yes, explain why (generally) it would be advantageous for a cell to actively express all of its genes.  If you say no, explain why (generally) it would be...

1. Sickle Cell Anemia is a genetic disease caused by abnormally shaped hemoglobin in the red...

1. Sickle Cell Anemia is a genetic disease caused by abnormally shaped hemoglobin in the red blood cells. The defect is in the beta-hemoglobin gene, and the mutation is well known. In your genetic engineering lab, you plan to clone the normal sequence of the beta-hemoglobin gene into a plasmid, and then to transfer this plasmid into bacterial cells in order to make enough normal protein to pump into the blood of patients with sickle cell anemia. A partial sequence...

Retinitis pigmentosa is a genetic disease that causes the breakdown and loss of retinal cells. Retinitis...

Retinitis pigmentosa is a genetic disease that causes the breakdown and loss of retinal cells. Retinitis pigmentosa often starts with decreased night vision and will progress to blindness as retinal cells die. Several genes have been linked to Retinitis pigmentosa, one of which is GADD. Mice lacking GADD (these mice were experimentally created so that the GADD region of the genome was deleted) have increased expression of non-retinal genes in retinal cells. In other words, in these mutant mice, genes...

Please answer all questions if you can. Thank you in advanced! 1. Compare and contrast how...

Please answer all questions if you can. Thank you in advanced! 1. Compare and contrast how secondary structure forms in folded proteins and folded RNA molecules 2. Assume that a bacterial genome contains 5000 genes. Do a “back of the envelope” calculation to estimate the size (number of nucleotides) of the genome of this bacterium. In your answer briefly demonstrate your knowledge of genes. 3. Describe the design of the DNA sequence of an artificial chromosome in a typical eukaryote...

Control of Gene Expression 1. How is it possible that individual cells of a multicellular organisms,...

Control of Gene Expression 1. How is it possible that individual cells of a multicellular organisms, which contain all the same DNA, can be so different from one another? 2. What are housekeeping proteins? What are their roles in the cell? 3. Describe the ways in which cells control gene expression. 4. How does control of transcription in prokaryotes and eukaryotes differ? 5. What is the role of operons in the prokaryotic genome? 6. A rare mutation occurs in bacteria...

1. Currently you are studying threonine synthesis in E. coli. To find genes whose protein products...

1. Currently you are studying threonine synthesis in E. coli. To find genes whose protein products are important for threonine synthesis, you perform a mutagenesis to find mutants that require a source of threonine to grow. (a) Immediately after mutagenizing the bacteria, would you choose to grow the bacteria on rich media or on minimal media? Briefly explain your choice. Rich media. A mutant unable to make a particular amino acid will not be able to grown on media lacking...

1. An antigen is A. a molecule that can elicit an immune response. B. a nucleic...

1. An antigen is A. a molecule that can elicit an immune response. B. a nucleic acid only. C. a protein or nucleic acid. D. a protective protein that the immune system produces. 2. The human leukocyte antigen genes are on the A. short arm of chromosome 6. B. long arm of chromosome 18. C. short arm of chromosome 2. D. long arm of chromosome 6. 3. Identifying combinations of _____ alleles is useful in tissue typing, establishing identity, and...

12. If the DNA repair mechanisms fail to correct a defect in nucleotide sequencing, a permanent...

12. If the DNA repair mechanisms fail to correct a defect in nucleotide sequencing, a permanent change known as a __________________ may result. 13. As the enzyme helicase opens and “unzips” the two strands of DNA by breaking the hydrogen bonds, a Y-shaped ________________________ forms. a. Lagging strand b. Leading strand c. Okazaki fragment d. Replication fork 14. One large difference between transcription and translation between prokaryotes and eukaryotes is that, in prokaryotes: a. Translation occurs simultaneously with transcription b....