The Human Genome Project CH 13 Sec 3 notes

... •Discover structure and function of proteins •Compare similar proteins from different organisms –Group protein sequences into families ...

Genetic Disorders

...  Treatment includes clotting factor, physical therapy ...

DNA, RNA and Protein

... produce a new chain •Each new DNA helix contains one “old” and one “new” chain ...

No Slide Title

... Transfer RNA (tRNA) leaves the nucleus, binds to the amino acid specified by it’s anticodon and transfers it to the ribisome where it meets up with mRNA to assemble a protein. ...

DNA Cloning - MrMsciences

... breaking down the DNA molecules of infecting viruses • cleave the sugar-phosphate backbones of DNA to produce sticky ends • short single-stranded regions • form hydrogen bonds with complementary sticky ends on any other DNA molecules cut with the same enzyme • kind of like glue when you fix ...

Summer 2007

... DNA/RNA, Protein Synthesis and Mutations - REVIEW I. Understand all vocabulary. II. Understand Cell Reproduction III. Understand the scientific process involved in establishing DNA as the heredity ...

How do we get proteins? - Sebastian Charter Junior High

...  DNA is used to make a single strand of RNA that is ...

Chapter 1

... Replication of DNA is undertaken by a complex of enzymes that separate the parental strands and synthesize the daughter strands. The replication fork is the point at which the parental strands are separated. The enzymes that synthesize DNA are called DNA polymerases. o The enzymes that synthesize RN ...

Genetic Engineering

... A. Selective Breeding – allowing only those individuals with desired characteristics to produce the next generation 1. Inbreeding – cross two of the same type of individual to preserve the characteristics (Risky!) 2. Cross-breeding / Hybridization – cross two different types of individuals to get th ...

05E-NucleicAcids

... • The sequence of nitrogen bases along a DNA or mRNA polymer is unique for each gene. • Genes are normally hundreds to thousands of nucleotides long. • The number of possible combinations of the four DNA bases is limitless. • The linear order of bases in a gene specifies the order of amino acids - ...

File - MRS. WILSON Science

... nucleus. Certain enzymes start to unzip the double helix at places called origins of replication. The double helix unzips in both directions along the strand. Eukaryotic chromosomes are very long, so they have many origins of replication to help speed the process. Other proteins hold the two strands ...

Unit 4 Resources - Schoolwires.net

... Name ...

HtoN

...  Can pair with parts of the gene to be studied ...

How to Select for Enzymes

DNA Discovery - Biology Junction

... TSW investigate and understand the common mechanisms of protein synthesis, including the structure of DNA and its discovery. ...

slides

... Transcription Has Been Visualized by Electron Microscopy ...

DNA Handout KEY - Iowa State University

... 4. What are Chargraff’s rules? If a segment of DNA is composed of 30% C, what is the % of A? A=T and C=G 20% (C=30%=G, A+G=C+T, A=T) 5. A always pairs with _T__, forming _2__ H-bonds. C always pairs with _G__, forming _3_Hbonds. 6. What is the important relationship between structure and function re ...

Differences between DNA and RNA • Ribonucleic acid is similar to

... carries DNA-encoded information into the cytosol, where it can be translated into proteins o Remember, the DNA can’t leave the nucleus, so it needs a messenger (mRNA) to deliver the code to the cytosol • Ribosomal RNA (rRNA) – combine with certain proteins in the cytosol to form ribosomes o Ribosome ...

DNA technology

... Recombinant DNA & Plasmids Combining genes from different sources and/or species ...

genetics science learning center – internet lesson

... What is a CHROMOSOME? 8. If our cells were as large as an aspirin, how long would the DNA be? 9. How many chromosomes does a mosquito have? _________ an onion?____________ a carp? _____________ What is HEREDITY? 10. Why aren’t children identical to their parents? ...

DNA Structure and Function

... affects red blood cells. In people who have this disease, one amino acid is substituted for another amino acid in a blood protein. What causes sickle-cell anemia? p153 ...

DNA and genetic information

... DNA and genetic information • DNA carries plans for the primary structure of nucleic acids (DNA, RNA) and proteins. • DNA of single cell has capacity over 1 million pages of text (900 copies of our textbook!) • however, only about 1% of DNA ever gets translated into proteins- equivalent to about 1 l ...

Biology 212 Exam 2 Practice Test

... e. DNA polymerase 16. If the coding strand (the strand that will serve as the template for transcription) of a double-stranded DNA molecule has the sequence of nucleotides 3’-AGGGCT-5’, the RNA produced by transcription would have the sequence: a. 5’-CGAUUC-3’ b. 5’-CGUAAC-3’ c. 5’-TCAGGG-3’ d. 5’- ...

Lecture 2: Overview of biochemistry

... Regulation: Some RNAs, including some very small ones, have regulatory roles, often by binding to complementary RNA or DNA sequences. RNA processing: Most of the machinery that processes RNAs after their transcription uses RNA parts. I Splicing I Modification of some nucleotides, e.g. of uridine to ...

Making Proteins

... What if a single base is changed? ...

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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