Ch13DNA08 - ChemistryVCE

...  Adding a dye that binds them and fluoresces (glows) in UV light.  Adding radioactive probes that bind to them: the radiation is then used to expose a photographic plate.  Shining lasers onto fragments that have a fluorescent dye incorporated into their structure. DNA profiling In DNA profiling, ...

14.1 Structure of Ribonucleic Acid (RNA)

... • Each amino acid in a protein is coded for by a sequence of three nucleotide bases on the mRNA strand. • These sequences of three nucleotide bases are known as CODONS. • The triplet code is referred to as degenerate. – this is because most amino acids have more than one ...

Biology 102 Lecture 11: DNA

... Their discovery was only possible because of X-ray reflection images by Rosalind Franklin (and some unauthorized access) ...

DNA! - JhaveriChemBioWiki

... DO NOT eat the candy! It has been touched by many hands. Make this time useful—get it done! Those who do not will be removed from the activity. ...

File

... Purpose: To explore the structure of a DNA molecule. Background Information: DNA stands for deoxyribonucleic acid. DNA is the genetic material found in the nucleus of most cells, and can referred to as the blueprint of life, it controls the production of proteins within the cell, that make-up who yo ...

Ethanol precipitation of DNA with salts

... Adding NaAce at pH 5.5 is to help the DNA into ionized form which is more soluble in water. Alcohol will dehydrate the DNA to bring it into the insoluble form. Less DNA will be dissolved in water fully, and more water molecules are left over, so to disturb this water needs more alcohol. If you add ...

DNA/RNA PowerPoint

... bases, what would the other side have? A C T G G T A C G A T A T G A C C A T G C T A T Using the original strand above, what would the RNA strand look like? U G A C C A U G C U A U ...

Double Helix article and questions

... DNA - The Double Helix Recall that the nucleus is a small spherical, dense body in a cell. It is often called the "control center" because it controls all the activities of the cell including cell reproduction, and heredity. Chromosomes are microscopic, threadlike strands composed of the chemical DN ...

Complete the definitions (4 pts each)

... as compared to the conventional method used to make the original polo vaccine? When making traditional vaccines scientist weaken or kill a harmful virus or bacteria and inject it into the body so that the person’s white blood cells will react to the surface proteins of the harmful bacteria or virus ...

Nucleotide

... • Thus we designate orientation by 5’ to 3’. ...

Chapter 9

... a change in phenotype caused when bacterial cells take up foreign genetic material. Hershey and Chase determined that DNA was the material that carries hereditary information. ...

Strawberry DNA Extraction Lab

... 8) Holding the test tube at an angle. 9) Add 5pipette-fuls of cold Rubbing Alcohol to the test tube. BE CAREFUL: Make sure to add it down the side of the tube. DO NOT MIX! 10) Let this sit for a few minutes. You should see DNA (looks like snot) rise out of the solution. ...

DNA Protein Synthesis Notes

... are made from DNA template pattern. The mRNA leaves the nucleus and enters the cytoplasm. (3 steps) 1. Initiation - Transcription begins when RNA polymerases binds to the DNA, and separates it into two strands. (TATA box) 2. Elongation - nucleotides are added to the 3’ end of the growing RNA molecul ...

BioSc 231 2001 Exam1

... _____ Genotype is to DNA as phenotype is to A. Genotype B. Proteins C. Expressivity D. RNA E. Mutation _____ Starting with a P generation with the following genotypes (AABB x aabb). Based on classical Mendelian inheritance, what is the expected phenotypic ratio observed among the F2 progeny? A. 9:3 ...

DNA Structure and Replication

... c. What parts of the nucleotides make up the sides (backbone) of the “ladder”? d. Look at the bottom and top of the “ladder” in Model 1. Are the rungs parallel (the ends of the strands match) or antiparallel (the ends of the strands are opposites)? 3. On the ladder model of DNA label each of the bas ...

Chapter 16

... – ~100-200 nucleotides long ...

Biochemistry I (CHE 418 / 5418)

... – Replication - DNA directed DNA synthesis – Transcription - DNA directed RNA synthesis · Processing of mRNA capping, polyadenylation, splicing ...

1. Gene Mutations

... • The Goal of Transcription is to produce a singlestranded mRNA helix that contains information from DNA to make proteins • How it’s done: (This happens in the Nucleus!) 1. DNA strand unwinds/unzips complementary DNA strands 2. Enzyme called RNA Polymerase binds to DNA “promoter” regions and “plugs ...

DNA, RNA, and Protein Synthesis Test

... d. ATA GGG CTT I can identify different ways in which genetic technology may affect our lives. 20. Biotechnology has allowed science to understand the DNA sequence, thus scientists are capable of: a. Detecting genetic disorders b. Using recombinant DNA to improve medicine c. Cloning for the use of o ...

File - Mr. Polls Science

... are made and are determined by the sequence of DNA in the nucleus. Chromosomes are composed of genes, which is a segment of DNA that codes for a particular protein which in turn codes for a trait. Hence you hear it commonly referred to as the gene for baldness or the gene for blue eyes. Meanwhile, D ...

RNA and Protein Synthesis - Ms. Nevel's Biology Website

... Decoding mRNA (translation) • The sequence of bases in an mRNA molecule serves as instructions for the order in which amino acids are joined to produce a polypeptide • Ribosomes decode the instructions by using codons, sets of 3 bases that each code for 1 amino acid • Each codon is matched to an an ...

RNA and Protein Synthesis

... Decoding mRNA (translation) • The sequence of bases in an mRNA molecule serves as instructions for the order in which amino acids are joined to produce a polypeptide • Ribosomes decode the instructions by using codons, sets of 3 bases that each code for 1 amino acid • Each codon is matched to an an ...

dna-rna-protein synthesis notes

... Decoding mRNA (translation) • The sequence of bases in an mRNA molecule serves as instructions for the order in which amino acids are joined to produce a polypeptide • Ribosomes decode the instructions by using codons, sets of 3 bases that each code for 1 amino acid • Each codon is matched to an an ...

DNA, RNA, Proteins

... DNA needs copied to go into new cells • Semiconservative replication • One side is kept in the new DNA strand. • Bacteria have circular DNA • Eukaryotes have strings of DNA ...

Fifty years of “Watson–Crick”

... our notice that the specific pairing we have postulated immediately suggests a possible copying mechanism for the genetic material.” This copying, based on complementary base-pairs, results in the replication of DNA and the synthesis of RNA, which then performs various functions in the cell. One of ...

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DNA nanotechnology

DNA nanotechnology is the design and manufacture of artificial nucleic acid structures for technological uses. In this field, nucleic acids are used as non-biological engineering materials for nanotechnology rather than as the carriers of genetic information in living cells. Researchers in the field have created static structures such as two- and three-dimensional crystal lattices, nanotubes, polyhedra, and arbitrary shapes, as well as functional devices such as molecular machines and DNA computers. The field is beginning to be used as a tool to solve basic science problems in structural biology and biophysics, including applications in crystallography and spectroscopy for protein structure determination. Potential applications in molecular scale electronics and nanomedicine are also being investigated.The conceptual foundation for DNA nanotechnology was first laid out by Nadrian Seeman in the early 1980s, and the field began to attract widespread interest in the mid-2000s. This use of nucleic acids is enabled by their strict base pairing rules, which cause only portions of strands with complementary base sequences to bind together to form strong, rigid double helix structures. This allows for the rational design of base sequences that will selectively assemble to form complex target structures with precisely controlled nanoscale features. A number of assembly methods are used to make these structures, including tile-based structures that assemble from smaller structures, folding structures using the DNA origami method, and dynamically reconfigurable structures using strand displacement techniques. While the field's name specifically references DNA, the same principles have been used with other types of nucleic acids as well, leading to the occasional use of the alternative name nucleic acid nanotechnology.

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DNA nanotechnology