Workshop1Cellsans

... 6. What properties of DNA structure make it well suited for its function as an informational molecule? DNA structure is highly regular and conserved, which makes it usable by all cells, but the different bases allow it to encode specific genetic information. ...

Wks #10 Answers

... 1. Hershey and Chase devised an experiment using radioactive isotopes to determine whether a bacteriophage’s DNA or its proteins were transferred during viral replication. a) What and/or how did that label the phage protein? They grew the T2-bacteriophages in the presence of radioactive sulfur (35S) ...

Workshop Questions - Evergreen Archives

... 6. What properties of DNA structure make it well suited for its function as an informational molecule? DNA structure is highly regular and conserved, which makes it usable by all cells, but the different bases allow it to encode specific genetic information. ...

Discovering DNA Structure

... Discovering DNA Structure Background Information: In this paper lab students will work in cooperative groups of four and manipulate paper nucleotides to discover the structure of DNA. When you have finished with this lab, you will have a great model of DNA that you can hang on the ceiling; it will r ...

DNA Structure and Function

... • The cell makes copies of DNA molecules through a process known as replication. • During replication, the two strands of DNA separate. • The bases on each side of the molecule are used as a pattern for a new strand. • As bases on the original molecule are exposed, complementary nucleotides are adde ...

1. (i) Purines pair with pyrimidines / adenine and thymine always

... No DNA synthesis so cells don’t divide/ reduced DNA synthesis so cells divide more slowly/ cytarabine inhibits cell division; Stops/ slows formation of new cancer cells/ stops/ reduces spread of cancer: ...

DNA Replication and Repair

... RNA primers are constantly being added to the lagging strand to allow the forming of pieces of synthesized DNA called Okazaki Fragments (after Reija Okazaki who discovered them) DNA polymerase I or Rnase H removes the RNA primers (from both the strands) and replaces them with the appropriate nucleot ...

7.1 Notes

... Because each of the two strands of DNA double helix has all the information, by the mechanism of base pairing, to reconstruct the other half, the strands are said to be _______________________________ ...

Name - O. Henry Science

... organic compound located in the nucleus of eukaryotic cells, and it stores all the genetic information needed to build and operate an organism. In prokaryotic cells, the DNA floats in the cytoplasm. DNA is constructed of 4 smaller organic compounds called bases. The four different bases are labeled ...

Name _____Per________ Due Date__________ PROTEIN

... c. each new double helix is composed of one old protein strand and one new protein strand d. each new double helix is composed of one old DNA strand and one new DNA strand __________11. Which of the following is not true of an anticodon? a. it consists of three nucleotides b. it’s base uracil base-p ...

Only One Strand of DNA Is Translated

... and light strands, and challenged each separately with “early” mRNA and “late” mRNA. They added a DNA endonculease that degraded single-stranded DNA, so that any DNA not bound by the mRNA was degraded. They could then ask which DNA strand bound which mRNA by looking to see which gene survive the deg ...

DNA and RNA - Kania´s Science Page

... • To analyze chromosomes, cell biologists PHOTOGRAPH cells in MITOSIS. • Next, they cut out the chromosomes and group them in pairs. • This is called a KARYOTYPE ...

Nucleic Acids, the Genetic Code, and the Synthesis of

... Both DNA and RNA chains are produced by copying of template DNA strands Nucleic acid strands (poly-nucleotides) grow by the addition of one nucleotide at a time, and always in the 5’ -> 3’ direction RNA polymerases can initiate strand growth but DNA polymerases require a primer strand The primary po ...

Benchmark I Review

... The above sequence of DNA is part of a gene. How many amino acids are coded for by this segment? A4 B8 C 12 ...

Module 2 Exam Bullet Points

... All the bullet points in this handout have been awarded a mark on A level mark schemes at some stage. This handout shows the level of information you must give in your answers and what the examiners are looking for. As the number of AS exams completed increases I will add to the document making it a ...

Intro to DNA Notes

... acids to form protein, which folds into its unique shape as it is formed. 7. mRNA and tRNA can function repeatedly. G. DNA replication 1. DNA molecules are replicated (duplicated) during interphase of cell cycle so that each newly formed cell has copy of parent cell’s genetic info when cell divides. ...

Chapter 5 DNA and Chromosome

... DNA strands. Each of these chains is composed of four types of nucleotide subunits, and the two chains are held together by hydrogen bond between the base portions of the nucleotides. A nucleotide contains a five-carbon sugar attached to one or more phosphate groups and a nitrogen-containing base (i ...

Names:

... 2. Draw an untwisted DNA strand with 4 base pairs showing the accurate pairing of bases, the accurate number of hydrogen bonds and where covalent bonds exist. (5 points) ...

CONCEPT 5 – MOLECULAR GENETICS 1. DNA Structure a

... a. any change of DNA sequence, can be inheritable if it is in egg or sperm b. point mutations- one nucleotide error; substitutions (i.e. A instead of G) ...

DNA Replication - SCF Faculty Site Homepage

... • Wilkins & Franklins’ Data – X-ray diffraction ...

Chapter 12 - useful links

... strands are wrapped around each other. Their model looked like a twisted ladder. They quickly determine the method by which DNA copies itself. april 1953 The Structure of DNA DNA is a double helix macromolecule, that is a polymer composed of many stacks of nucleotides. A nucleotide is made of a nitr ...

Level 3 - rgreenbergscience

... parts: a five carbon sugar called deoxyribose, a phosphate group, and a nitrogen-containing base (there are 4 potential bases in DNA: adenine, guanine, cytosine, and thymine). The three part components of DNA make up nucleotides. Nucleotide chains are formed as the phosphate group of one nucleotide ...

DNA Structure and Analysis

... deoxyribose carbon 3′ end hydroxyl attached to 3′ deoxyribose carbon ...

8.3 DNA Replication

... • DNA is replicated during the S (synthesis) stage of interphase Overview: • A single strand of DNA serves as a template for a new strand. • The rules of base pairing direct replication. – A pairs with T – C pairs with G • Each body cell gets a complete set of identical DNA. ...

Biol 178 Lecture 29

... Site of ribosome where polypeptide is assembled. 2. Messenger RNA (mRNA) ...

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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