Temporal control of Transcription in phage SPO

... Cro vs cI •  Cro and cI are DNA binding proteins that bind to the operator sequences OR and OL •  There are three binding sites for each protein in the operator •  Cro and cI bind with opposite affinities to these three sites •  cI binds first to site 1, then 2 and at high concentrations site 3 •  ...

Changes in Prokaryotic Transcription: Phage Lambda and Others

... kinds of evidence was used. I'll try to interpret this for you here. The bases that are circled (in yellow) are positions that, when polymerase is bound, are protected from modification by a methylating agent (dimethly sulfate, DMS). The action of DMS is shown in Figure 6.18a. This can be interprete ...

Replication/Transcription/Translation

... 1. Name the 3 essential enzymes for replication. DNA helicase, polymerase, and ligase 2. Describe the semi-conservative model. The parent strand acts at the model for the new daughter ...

Slide ()

... interrupted by lapatinib, erlotinib, gefitinib, and imatinib, acting at the ATP binding site; or by cetuximab, trastuzumab, or panitumumab acting at the receptor. Tyrosine kinases (TKs) that are not directly stimulated by growth factors such as p210 bcr-abl or src can be inhibited by imatinib, dasat ...

RNA chapter 13.1 - Red Hook Central Schools

... Cutting and Splicing RNA • Introns: while still in the nucleus, regions of the pre-RNA molecule are removed and discarded • Exons: remaining pieces of the pre-RNA molecule that haven’t been removed • Exons are spliced back together to form the final RNA molecule • What is the purpose of cutting and ...

The DNA Song

... one of 4 bases: cytosine, guanine, thymine, and adenine. These nucleotides link together by covalent (strong) bonds between the sugars and phosphate groups to form strands. Two of the strands link together at the bases with hydrogen (weak) bonds. During DNA replication, an enzyme, helicase, “unzips” ...

DNA, Proteins and the Proteome - Guiding

... 13. What is meant by the genetic code being universal? 14. What is meant by the genetic code being unambiguous? 15. What is meant by the genetic code being redundant? ...

Concept checks - WordPress.com

... Explain the relationship between the number of amino acid residues in the enzyme and the number of nucleotide pairs in its gene ...

Microbial Genetics

...  GTP used ...

Topic 12 (Ch9/7) – Microbial Genetics Genetics Chromosome

... • Similar to prokaryotes except – AUG encodes for a different form of methionine – mRNA code for one protein – Transcription and translation are not simultaneous – Pre-mRNA • Introns • Exons ...

Slide 1

... Nascent-chain (run-on) assay for transcription rate of a gene. Isolated nuclei are incubated with 32P-labeled ribonucleoside triphosphates for a brief period. During this period RNA polymerase molecules that were transcribing a gene when the nuclei were isolated add 300 – 500 nucleotides to nascent ...

Genetic regulation of eukaryotes

... only the exons (encoding amino acid sequences) are called as coding regions. The parts of regulatory regions are the promoters, enhancers (facilitates transcription) and silencers (inhibit transcription). Introns are 11 times longer than exons on average, while non-coding exons (5’UTR and 3’-UTR) ha ...

Novagen • pET System Manual • 11th Edition

... enhance the soluble yield of some target proteins. Another important benefit of this system is its ability to maintain target genes transcriptionally silent in the uninduced state. Target genes are initially cloned using hosts that do not contain the T7 RNA polymerase gene, thus eliminating plasmid ...

Nature vs. Nurture

... • Turns genes off by causing DNA to wrap more tightly around histone so RNA polymerase cannot get to the gene DNA sequence ...

Positive Gene Regulation

... Translational - These mechanisms prevent translation. They often involve protein factors needed for translation. Posttranslational - These mechanisms act after the protein has been produced. ...

71071_Protein_synthesis

... • DNA is a large and bulky molecules, it does not travel well, so when it wants to make a protein it makes and mRNA copy of the instructions ...

The Master Molecule

... percent of human DNA encodes information. The remaining 97% is called junk DNA, the function of which is not yet known. Speciﬁc genes, called exons, are activated by promoter genes located along the sequence of the DNA molecule. Noncoding sequences are called introns, and do not lead to the producti ...

DNA and protein synthesis

...  mRNA, tRNA, rRNA – jobs, differences, locations o mRNA is a copy of the DNA code that can leave the nucleus and go to the ribosome to direct the making of a protein. It can be found in the nucleus and the cytoplasm o tRNA is found in the cytoplasm, and brings amino acids to the ribosome o rRNA is ...

Transcription and the Central Dogma

... • RNA polymerase is processive; once enzyme attaches to DNA, it can copy >10,000 nucleotides without falling off. • In eukaryotes, there are 3 RNA polymerases: – One for rRNA – One for tRNAs and some rRNA – One for all mRNAs and some small RNAs (involved in RNA processing) ...

Chapter 14 Review

... mRNA goes to ribosome tRNA brings methionine to the start codon Amino acids are joined until a stop codon is reached. The complete polypeptide is released. ...

Slide 1

... (2) How to change the rate of a specific cellular activity? (3) Rapid vs slower change (4) Varying amount vs specific activity of a protein (5) Coordinating simultaneous changes in related proteins (6) How to achieve fine/differential regulation ...

3.5 Transcription and translation – summary of

... the genetic code is degenerate; meaning more than one codon can code for a particular amino acid; the genetic code is universal; meaning it is the same in almost all organisms; (AUG is the) start codon; some (nonsense) codons code for the end of translation; ...

Transcription and translation

... • Process in which the information from a section of double-stranded DNA is converted into complimentary, single-stranded mRNA. • What is “complimentary”? • Opposite base pair. Adenine is complimentary to thymine. ...

Protein

... In E. Coli., 80% of genomic DNA encodes proteins. On the other hand, human genomic DNA contains only 3% for genes. However, 70-80% of human genomic DNA is transcripted! → non-coding RNA ...

Chapter 18-20 review

... _____9. The control of gene expression is more complex in multicellular eukaryotes than in prokaryotes because a. eukaryotic cells are much smaller. b. in a multicellular eukaryote, different cells are specialized for different functions. c. prokaryotes are restricted to stable environments. d. euk ...

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Transcriptional regulation

In molecular biology and genetics, transcriptional regulation is the means by which a cell regulates the conversion of DNA to RNA (transcription), thereby orchestrating gene activity. A single gene can be regulated in a range of ways, from altering the number of copies of RNA that are transcribed, to the temporal control of when the gene is transcribed. This control allows the cell or organism to respond to a variety of intra- and extracellular signals and thus mount a response. Some examples of this include producing the mRNA that encode enzymes to adapt to a change in a food source, producing the gene products involved in cell cycle specific activities, and producing the gene products responsible for cellular differentiation in higher eukaryotes.The regulation of transcription is a vital process in all living organisms. It is orchestrated by transcription factors and other proteins working in concert to finely tune the amount of RNA being produced through a variety of mechanisms. Prokaryotic organisms and eukaryotic organisms have very different strategies of accomplishing control over transcription, but some important features remain conserved between the two. Most importantly is the idea of combinatorial control, which is that any given gene is likely controlled by a specific combination of factors to control transcription. In a hypothetical example, the factors A and B might regulate a distinct set of genes from the combination of factors A and C. This combinatorial nature extends to complexes of far more than two proteins, and allows a very small subset (less than 10%) of the genome to control the transcriptional program of the entire cell.

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Transcriptional regulation