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... The genetic and the metabolic network are strictly connected by a series of signals coming from metabolism which induce, inhibit or modulate gene expression according to the homeorrhetic (Waddington) rules of the networks themselves. The final step, from metabolism to phenotypes is, in turn, strongl ...

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... GTCTAG. Which of the following sequences would be the correct complementary strand of RNA? ...

Chapter 16.2 - DNA Replication Details 2 - kyoussef-mci

... • Some cells (like cervical cancer cells) have an enzyme called telomerase – Lengthens the telomeres, thus restoring original length and compensating for shortening that occurs during DNA replication. – Contributes to the “indestructible” nature of cancer cells ...

Chapter 1 - TeacherWeb

... Most common mechanism for termination is the formation of a hairpin structure In prokaryotes transcription and translation happen simultaneously. Eukaryotic Transcription Initiation: Promoter (differs for different polymerases) -10 sequence and TATA box Elongation occurs in the same fashion, but eu ...

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Word Picture Definition Gene mRNA Base Uracil Ribosome tRNA

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5`-cgaucggauccagcuggacgcuagcguaaaaaaaa-3`

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File

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Pre-AP Biology 2009

... 5. Choose one experiment from this section and explain how the results support the conclusion. B. Structure of DNA (8.2) 6. What is the monomer of DNA? Sketch and label a monomer of DNA. 7. How many types of nucleotides are in DNA and how do they differ? List and describe each. 8. How are the base p ...

Chapter 10 - Mantachie High School

... Transcription—the process by which genetic information is copies from DNA to RNA. Steps of transcription: Transcription—the process by which genetic information is copied from DNA to RNA. Steps of transcription: 1) An enzyme called RNA polymerase binds to the region of a DNA chain called the promote ...

Name: page1 of 7 pages MOLECULAR BIOLOGY BIO372S January

Basis of Thermophily

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... blocked to stop transcription (turns the gene off) • Repressor – a protein that slides into the operator to block transcription (the RNA polymerase cannot attach and pass) • Operon – promoter + operator + genes they control ...

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Deoxyribozyme

Deoxyribozymes, also called DNA enzymes, DNAzymes, or catalytic DNA, are DNA oligonucleotides that are capable of catalyzing specific chemical reactions, similar to the action of other biological enzymes, such as proteins or ribozymes (enzymes composed of RNA).However, in contrast to the abundance of protein enzymes in biological systems and the discovery of biological ribozymes in the 1980s,there are no known naturally occurring deoxyribozymes.Deoxyribozymes should not be confused with DNA aptamers which are oligonucleotides that selectively bind a target ligand, but do not catalyze a subsequent chemical reaction.With the exception of ribozymes, nucleic acid molecules within cells primarily serve as storage of genetic information due to its ability to form complementary base pairs, which allows for high-fidelity copying and transfer of genetic information. In contrast, nucleic acid molecules are more limited in their catalytic ability, in comparison to protein enzymes, to just three types of interactions: hydrogen bonding, pi stacking, and metal-ion coordination. This is due to the limited number of functional groups of the nucleic acid monomers: while proteins are built from up to twenty different amino acids with various functional groups, nucleic acids are built from just four chemically similar nucleobases. In addition, DNA lacks the 2'-hydroxyl group found in RNA which limits the catalytic competency of deoxyribozymes even in comparison to ribozymes.In addition to the inherent inferiority of DNA catalytic activity, the apparent lack of naturally occurring deoxyribozymes may also be due to the primarily double-stranded conformation of DNA in biological systems which would limit its physical flexibility and ability to form tertiary structures, and so would drastically limit the ability of double-stranded DNA to act as a catalyst; though there are a few known instances of biological single-stranded DNA such as multicopy single-stranded DNA (msDNA), certain viral genomes, and the replication fork formed during DNA replication. Further structural differences between DNA and RNA may also play a role in the lack of biological deoxyribozymes, such as the additional methyl group of the DNA base thymidine compared to the RNA base uracil or the tendency of DNA to adopt the B-form helix while RNA tends to adopt the A-form helix. However, it has also been shown that DNA can form structures that RNA cannot, which suggests that, though there are differences in structures that each can form, neither is inherently more or less catalytic due to their possible structural motifs.

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Deoxyribozyme