1. Draw a diagram of a gene. On it, indicate and name regions required for RNA...

Draw a diagram of trp operon regulation (transcription and translation) under low tryptophan conditions. Draw all...

Draw a diagram of trp operon regulation (transcription and translation) under low tryptophan conditions. Draw all relevant components including RNA polymerase; the 5’UTR RNA with regions 1, 2, 3, 4, and the string of uracils; and a ribosome. State whether attenuation is occurring or not.

The translocation rate of RNA polymerase II is 30 nucleotides per second for a gene you...

The translocation rate of RNA polymerase II is 30 nucleotides per second for a gene you study that is 50,000 nucleotides in length. This gene contains 3 exons and 2 introns. The translocation rate of the ribosome on the resulting mRNA is also 30 nucleotides per second. Assuming that the translocation rates of RNA polymerase II and the ribosome are the rate limiting steps in their respective processes, which process (transcription or translation) do you expect to produce more product...

A chromosome contains many different gene regions that are transcribed into different _____. a.proteins b. polypeptides...

A chromosome contains many different gene regions that are transcribed into different _____. a.proteins b. polypeptides c.RNAs d. a and b2. A binding site for RNA polymerase is called a _____. a.gene b. promoter c.codon d. protein3. An RNA molecule is typically_____; a NDA molecule is typically ____. a.single-stranded; double-stranded b. double-stranded; single-stranded c.both are single-stranded d. both are double-stranded RNAs forms by _____; proteins form by _____. a.replication; translation b. translation; transcription c.transcription; translation d. replication; transcription _____ different...

Describe the structure of a “typical” eukaryotic protein-coding gene, including all potential regulatory regions. Indicate where...

Describe the structure of a “typical” eukaryotic protein-coding gene, including all potential regulatory regions. Indicate where the RNA polymerase II preinitiation complex interacts.

Gene expression is complex, requiring many macromolecules and events. This means....lots of vocabulary terms!!! Complete this...

Gene expression is complex, requiring many macromolecules and events. This means....lots of vocabulary terms!!! Complete this matching to show me your mastery of the language. You may want to read the introduction to Lab 15: Gene Expression. molecule that serves as a template for mRNA synthesis name of the process my which RNA is made name of the enzyme that makes RNA direction of RNA synthesis where transcription occurs in prokaryots where transcription happens in eukaryots where RNA polymerase binds...

1. To initiate transcription, RNA polymerase must recognize the ____ sequence on DNA. 2. Ribosomal 30S...

1. To initiate transcription, RNA polymerase must recognize the ____ sequence on DNA. 2. Ribosomal 30S subunit binds to mRNA by recognizing ______ sequence upstream of the start codon. (Full name for full credit) 3. A special initiator tRNA called ______ binds to the ______ site of the 70S ribosome for base pairing with the ATG start codon. 4. If RNA polymerase transcribes a long mRNA encoding more than one polypeptide, it is called a (an) _______ RNA. 5. Some...

Many eukaryotic genes have regions called enhances. What is an enhancer? a. RNA polymerase binds here...

Many eukaryotic genes have regions called enhances. What is an enhancer? a. RNA polymerase binds here to begin transcription. b. a DNA sequence close to the promoter where a specific protein can bing to activate translationc. c. DNA seqeuence far from the promotoer where a specific protein can bind to activate transcription. d. ribosomes bind here to begin translation e. snRNP's bind here

1. During translation elongation, tRNA's charged with amino acids enter the ribosome at which site? a....

1. During translation elongation, tRNA's charged with amino acids enter the ribosome at which site? a. a site b. t site c. p site d. e site e. z site 2. In eukaryotic transcription the enzyme that primarily transcribes heteronuclear RNA (or pre-messenger RNA) is a. RNA polymerase II b. RNA polymerase III c. reverse transcriptase d. primase e. RNA polymerase I

1. Which of the following is/are required for the polymerization reaction catalyzed by RNA polymerase? 1)...

1. Which of the following is/are required for the polymerization reaction catalyzed by RNA polymerase? 1) RNA primer 2) DNA primer 3) RNA template 4) DNA template 5) NTPs 6) dNTPs 7) Magnesium 8) Calcium A) 4, 5, and 6 B) 1, 3, 5, and 7 C) 1, 3, 5, and 8 D) 4, 5, and 7 2. RNA polymerase is best described as a ________. A) DNA-dependent DNA polymerase B) RNA-dependent DNA polymerase C) RNA-dependent RNA polymerase D) DNA-dependent...

1. Use the numbers in the choices below to indicate where in the schematic diagram of...

1. Use the numbers in the choices below to indicate where in the schematic diagram of a eukaryotic cell those processes take place. Write each number 1-5 next to “nucleus,” “ribosomes,” or “endoplasmic reticulum.” transcription translation RNA splicing polyadenylation RNA capping 2. (True / False) A linear chromosome can have multiple origins of replication. 3. Part of the RNA sequence below encodes the N-terminal region of a protein, but not all of the nucleotides shown are translated into protein. Given...