Chapter 10 Nucleic Acids and Protein synthesis

... single uncoiled chain. It carries genetic information from the DNA in the nucleus to the ...

History of Genetics

... • 1944: Oswald Avery, Colin MacLeod and Maclyn McCarty show that DNA can transform bacteria, demonstrating that DNA is the hereditary material. • 1953: James Watson and Francis Crick determine the structure of the DNA molecule, which leads directly to knowledge of how it replicates • 1966: Marshall ...

Nucleic Acids, the Genetic Code, and the Synthesis of

... Possible modifications of nucleic acids following chain formation ...

Electrophoresis literally means “the condition of

... A segment of DNA has two restriction sites–I and II. When incubated with restriction enzymes I and II, three fragments will be formed–a, b, and c. Which of the following gels produced by electrophoresis would represent the separation and identity of these fragments? ...

Genomics

... DNA Sequencing by the Sanger Method Relies on Chain Termination during replication due to incorporation of Dideoxynucleotides ...

Document

... The double-helix model explains Chargaff’s rule of base pairing and how the two strands of DNA are held together. The model showed the following: The two strands in the double helix run in opposite directions, with the nitrogenous bases in the center. Each strand carries a sequence of nucleotides, a ...

Chapter 10: Nucleic Acids and Protein Synthesis

... • The nitrogenous bases make up the “rungs” of the DNA ladder • The bases are held together by Hydrogen bonds ...

11.2 Reading Guide - Lewis Center for Educational Research

... Since the “original code” found along the ______________ molecule can’t leave the nucleus, it must first be ______________ (meaning to write or make a copy). The “copy” is “written” as a molecule of ____________ that differs from the original on three counts, they are… RNA is ______________ stranded ...

DNA→ RNA

... Section 12-3 Adenine (DNA and RNA) Cystosine (DNA and RNA) Guanine(DNA and RNA) Thymine (DNA only) Uracil (RNA only) ...

Macromolecules pt 3

... Proteins will attempt to find the lowest energy form ...

DNA plasmid minipreps - How it works: Solution I: 50 mM glucose

Genetics Lab - Identification of a Nucleic Acid

... Each group will be given a nucleic acid sample to analyze over the next few weeks. You must determine whether the nucleic acid is DNA or RNA, whether it is single-stranded or double-stranded. Based on this information, you should be able to identify the Virulent Virus. The following equipment and re ...

1. A nucleotide is a ______. 2. DNA consists of two antiparallel

Molecular Genetics

... are joined by an enzyme called ligase ...

Bio07_TR__U04_CH12.QXD

... RNA is copied from DNA in a process called transcription. The enzyme RNA polymerase binds to DNA and separates the two strands. Then, RNA polymerase builds a strand of RNA using one strand of DNA as the template. The sequence of DNA that signals RNA polymerase where to bind and start making RNA is c ...

Biology Recitation 07.07.2010

... Protein folding. We reviewed the chemical properties of individual amino acids, introduced their acidity (pKa), hydrophobicity and affinity for each other. Don’t be confused, this topic has consumed many scientists’ entire lives and the treatment of it today was greatly simplified. The take home mes ...

PROTIEN SYNTHESIS

... The form of RNA that mediates the transfer of genetic information from the cell nucleus to ribosomes in the cytoplasm, where it serves as a template for protein synthesis. It is synthesized from a DNA template during the process of transcription. transfer RNA One of a class of RNA molecules that tra ...

Power Point Notes

... • Some just enter the cytoplasm • Many enter the endoplasmic reticulum and move through the cytomembrane system where they are modified ...

ppt

... mRNA localization translational efficiency ...

Biological ideas relating to genetic modification

... The genetic information held in DNA ...

Study Guide for Understanding the Concept of Protein Synthesis

... Transfer RNA (tRNA) acts as a "taxi" by which the "escort" ribosomes take the amino acids and position them into place as Ribosomal RNA (rRNA). Step #5: Ribosomes: From the rRNA, the amino acids continue their journey within the cytoplasm, resting on "floating" ribosomes or on the Rough ER. These ri ...

Studying the Human Genome

Biotechnology Unit Test Review

... 1. Recombinant DNA – sequence of DNA made from two or more species (in class, we combined a human gene with a bacterial DNA plasmid) 2. Restriction enzymes – Bacterial enzymes that cut DNA in specific places (look for specific nitrogen base sequences and make zig-zag cut to make “sticky ends”) 3. Ge ...

Biology Standards Based Benchmark Assessment

... replication? a. It must occur before a cell can divide. b. Two complementary strands are duplicated. c. The double strand unwinds and unzips while it is being duplicated. d. The process is catalyzed by enzymes called DNA mutagens. 36. The enzymes responsible for matching complimentary nucleotides to ...

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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