From Gene to Protein

...   They protect mRNA from hydrolytic enzymes.   They help ribosomes attach to the 5ʹ′ end. ...

1) Lecture notes: mechanisms of gene activation

... Gene Expression Lecture, part 1, Feb 5, 2015 Overview: Gene Activation ...

Making Proteins

... The following tRNA has the anticodon UAC. What is the DNA base code for this tRNA? What amino acid would this tRNA carry? ...

Sample Questions for EXAM III

... 1. eukaryotes seem to have too little DNA. 2. prokaryotes seem to have too much DNA. 3. prokaryotes seem to have too little DNA. 4. there is a lot of DNA in eukaryotes that has no known function. ...

Study Guide

...  How are the functions of mRNA and tRNA different?  Describe the process of transcription and translation.  What is a codon? What is an anticodon? How are they related?  Why is RNA necessary for expressing the code in DNA?  How does an organism’s DNA code for its traits?  Summarize the process ...

DNA, RNA, and Protein

... • RNA polymerase binds to DNA promoter • DNA strands unwind & separate • RNA polymerase adds free RNA nucleotides to complement 1 strand of DNA bases. ...

mastering protein synthesis

... Name _______________________________ ...

DNA versus RNA Notes File

... RNA is single stranded—it looks like one-half of a zipper— whereas DNA is double stranded. ...

Chapter 9 – Genetically Modified Organisms

... • What is the relationship between the genetic code and genetic modification? ...

Chapter 16: The Molecular Basis of Inheritance

... 14. What is the difference between the leading and lagging strand during replication? Why are Okazaki fragments required on the lagging strand? 15. What is a telomere? Why do they shorten over a period of time? In what types of cells can they be lengthened? By what enzyme? Chapter 17: From Gene to P ...

1. What is the Central Dogma of Biology? Draw and label a diagram

... Explain how transcription occurs. Use the terms: hairpin loop, promoter, template. Explain how translation occurs. Use the terms: A-site, P-site, tRNA, mRNA, rRNA, codon, anticodon, nonsense codon. ...

SI Worksheet 12

... are removed and the remaining _______ are spliced together to produce an mRNA molecule with a continuous coding sequence a. operators....promoters b. exons....introns c. silencers....enhancers d. introns....exons e. promoters....operators 4. Which of the following mechanisms of gene regulation opera ...

The Story of DNA vs. RNA

... Genetic Code controls the production of proteins. §  Proteins help to determine the size, shape and many other traits of an organism. ...

Transcription and Translation Candy

... Get your original DNA model or rebuild it using the pictures from the DNA structure and replication lab. Transcription is the process of copying the genetic information from DNA into a usable copy of mRNA. Make a model clearly indicating this process make sure to include in your model representation ...

File - Mrs. LeCompte

... Following in series, several molecules of RNA polymerase can transcribe the same gene, which allows the cell to produce particular proteins in large amounts ...

AP BIO Unit 6 Review Ch. 14,15,16,18,19 Westbrook Gene

... In gene regulation, a gene is "turned on" by an ____________. The lac regulatory system of E.Coli consists of three coding sequences plus a regulatory section; taken together these sequences make up an ____________. What must happen for transcription to be initiated? (many steps) Eukaryotes have re ...

DNA NOTES

... forming an amino acid chain (protein). (pg. 184) 21. Define Codon: (pg. 184) 22. Define Anticodon: (pg. 185) 23. Use figure 8.4 (pg. 185) to answer the following questions. a. What is the codon sequence labeled in the diagram? ______________ b. On what molecule will you find the codon? _____________ ...

Transcription PPT

This is to serve as a general overview of important topics. I highly

... Introns- what sequence is at the 5’ end of an intron?___________________ What sequence is at the 3’ end? ______________________. These sequences are evolutionarily conserved. Main 3 ways that mRNA is modified: ...

Things to Cover for Exam 1

...  What amino acid corresponds to the mRNA codon AAC?  Eukaryotic chromosomes contain an alternation of exons and introns. What is the difference between an intron and an exon? Which one has the information coding for a sequence of amino acids?  Before the mRNA exits the nucleus it is edited. Are t ...

Study_Guide

Protein Synthesis

gene regulation

... TRANSCRIPTIONAL CONTROL • Signals (hormones) in eukaryotes • Environmental- heat shock proteins • Regulator proteins (Transcription factors) – bind to TATA (like prokaryotes) • UPEs (Upstream Promoter Elements) – increase efficiency of RNA pol. ...

Given the following two evolutionary conserved eukaryotic genes A

... single exons, respectively. Thus, only two of the four exons for each gene has a function. Just to reiterate two of the exons are dispensable; thus the other two exons are enough to impart ...

“Algorithms for genomes” 2b Central Dogma Transcription start and

... An example of a CpG Island in the Retinoblastoma gene region. The dotted line represents the statistically expected frequency of CpG sites (1/16), while the solid line represents the measured frequency of CpG sites in the 180 kb of DNA sequence that encompass the Rb gene exons and introns. The locat ...

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Primary transcript

A primary transcript is the single-stranded ribonucleic acid (RNA) product synthesized by transcription of DNA, and processed to yield various mature RNA products such as mRNAs, tRNAs, and rRNAs. The primary transcripts designated to be mRNAs are modified in preparation for translation. For example, a precursor messenger RNA (pre-mRNA) is a type of primary transcript that becomes a messenger RNA (mRNA) after processing.There are several steps contributing to the production of primary transcripts. All these steps involve a series of interactions to initiate and complete the transcription of DNA in the nucleus of eukaryotes. Certain factors play key roles in the activation and inhibition of transcription, where they regulate primary transcript production. Transcription produces primary transcripts that are further modified by several processes. These processes include the 5' cap, 3'-polyadenylation, and alternative splicing. In particular, alternative splicing directly contributes to the diversity of mRNA found in cells. The modifications of primary transcripts have been further studied in research seeking greater knowledge of the role and significance of these transcripts. Experimental studies based on molecular changes to primary transcripts the processes before and after transcription have led to greater understanding of diseases involving primary transcripts.

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Primary transcript