DNA, Proteins and the Cell
... A) what goes in and out of the cell B) the PH of the cytosol C) levels of calcium and magnesium D) A, B, and C 12. In order to make a protein, the information on the DNA molecule must be transferred: A) to an RNA molecule B) by osmosis C) by DNA polymerase D) to a mitochondria 13. T F To make a spec ...
... A) what goes in and out of the cell B) the PH of the cytosol C) levels of calcium and magnesium D) A, B, and C 12. In order to make a protein, the information on the DNA molecule must be transferred: A) to an RNA molecule B) by osmosis C) by DNA polymerase D) to a mitochondria 13. T F To make a spec ...
DNA - Midway ISD
... the order of the bases in one strand determines the order of the bases in the other strand. ...
... the order of the bases in one strand determines the order of the bases in the other strand. ...
Workshop #4 - Chemistry part2
... In part 1 we learned that all matter is composed of atoms and the atoms of organisms are arranged into large, complex macromolecules. Life is built upon these macromolecules. They store energy for later use, form membranes, provide structural support, help control chemical reactions within the organ ...
... In part 1 we learned that all matter is composed of atoms and the atoms of organisms are arranged into large, complex macromolecules. Life is built upon these macromolecules. They store energy for later use, form membranes, provide structural support, help control chemical reactions within the organ ...
DNA - PBworks
... DNA Structure DNA consists of two molecules that are arranged into a ladder-like structure called a Double Helix. A molecule of DNA is made up of millions of ...
... DNA Structure DNA consists of two molecules that are arranged into a ladder-like structure called a Double Helix. A molecule of DNA is made up of millions of ...
Method to Amplify DNA Barcode Sequences from
... Research Services | Sequence the DNA barcode region from dried or formalinfixed museum specimens. QA/QC Testing | Authenticate highly processed food ingredients. Wildlife Enforcement | Positively identify obfuscated items entering the global ...
... Research Services | Sequence the DNA barcode region from dried or formalinfixed museum specimens. QA/QC Testing | Authenticate highly processed food ingredients. Wildlife Enforcement | Positively identify obfuscated items entering the global ...
AP BIOLOGY MOLECULAR GENETICS QUESTIONS
... 14. What is DNA "proofreading"? Does it work very well or are there alot of misteaks that creap throug? ...
... 14. What is DNA "proofreading"? Does it work very well or are there alot of misteaks that creap throug? ...
Cartoon Guide to Genetics DNA, RNA, Protein Synthesis 1. What did
... 13. What holds the base pairs together? 14. What shape is the DNA molecule? 15. State the Principle of Complementarity. 16. What is replication? 17. Where does replication start on the DNA strand? 18. How do the free nucleotides know where to attach? 19. What are the functions of the two enzymes use ...
... 13. What holds the base pairs together? 14. What shape is the DNA molecule? 15. State the Principle of Complementarity. 16. What is replication? 17. Where does replication start on the DNA strand? 18. How do the free nucleotides know where to attach? 19. What are the functions of the two enzymes use ...
Document
... 7. The alphabet of the code is made of the ______________________. 8. Groups of three bases are the codes for specific ______________________. 9. A long string of amino acids forms a(n) ______________________. 10. Instructions for making a protein are given by each ______________________. 11. List t ...
... 7. The alphabet of the code is made of the ______________________. 8. Groups of three bases are the codes for specific ______________________. 9. A long string of amino acids forms a(n) ______________________. 10. Instructions for making a protein are given by each ______________________. 11. List t ...
DNA REPLICATION HANDOUT
... 2) Replication Fork: Y-shaped region where new strands of DNA are elongated 3) Okazaki Fragments: Only found on the lagging strand. Since DNA is connected by base pairs, as the original strand “unzips” one of the templates is running in the 5’ to 3’ direction, while the other is 3’ to 5’. As you kno ...
... 2) Replication Fork: Y-shaped region where new strands of DNA are elongated 3) Okazaki Fragments: Only found on the lagging strand. Since DNA is connected by base pairs, as the original strand “unzips” one of the templates is running in the 5’ to 3’ direction, while the other is 3’ to 5’. As you kno ...
DNA
... following the rules for base-pairing. Add three nucleotides to each side. 4. Make a drawing of your DNA molecules. If you were to complete all the nucleotide pairings, would the two new strands of DNA be exact copies of the one original strand? ...
... following the rules for base-pairing. Add three nucleotides to each side. 4. Make a drawing of your DNA molecules. If you were to complete all the nucleotide pairings, would the two new strands of DNA be exact copies of the one original strand? ...
Genetic Engineering
... Biotechnology DNA technology can be used in forensics, agriculture, and medicine ...
... Biotechnology DNA technology can be used in forensics, agriculture, and medicine ...
DNA to Protein Practice Sheet
... 2. DNA is composed of four different nucleotides. 3. In a nucleotide, the phosphate group is attached to the nitrogen-containing base, which is attached to the five-carbon sugar. 4. The hydrogen bonding of adenine to guanine is an example of complementary base pairing. 5. Each parent strand remains ...
... 2. DNA is composed of four different nucleotides. 3. In a nucleotide, the phosphate group is attached to the nitrogen-containing base, which is attached to the five-carbon sugar. 4. The hydrogen bonding of adenine to guanine is an example of complementary base pairing. 5. Each parent strand remains ...
DNA, Protein Synthesis, and Gene Expression Review Historical
... 38. What is translation, and where does it occur? 39. How is translation initiated? 40. What are the two sites found in the ribosome, and which one is first? 41. What is the genetic code? 42. What three-base structure do you use to figure out the amino acid needed from the chart? 43. What is the sta ...
... 38. What is translation, and where does it occur? 39. How is translation initiated? 40. What are the two sites found in the ribosome, and which one is first? 41. What is the genetic code? 42. What three-base structure do you use to figure out the amino acid needed from the chart? 43. What is the sta ...
Nucleic Acids - cloudfront.net
... Guanine (G) – Cytosine (C) A and G are purines (AGgies eat Purina) C and T are pyrimidines ...
... Guanine (G) – Cytosine (C) A and G are purines (AGgies eat Purina) C and T are pyrimidines ...
DNA typing and forensic anthropology
... DNA typing and forensic anthropology A. DNA typing 1. What is DNA? a. Nucleus of cells contain RNA/DNA b. DNA = c. Nucleus has _________________________________ made up of DNA *** d. Within each pair, one chromosome from sperm and one from egg *** 2. What makes DNA individual? a. Four chemicals: ___ ...
... DNA typing and forensic anthropology A. DNA typing 1. What is DNA? a. Nucleus of cells contain RNA/DNA b. DNA = c. Nucleus has _________________________________ made up of DNA *** d. Within each pair, one chromosome from sperm and one from egg *** 2. What makes DNA individual? a. Four chemicals: ___ ...
DNA Review
... The other substance in addition to phosphates that make up the “handrails” of the DNA ladder. SUGAR ...
... The other substance in addition to phosphates that make up the “handrails” of the DNA ladder. SUGAR ...
Sample Final Exam Questions
... i) On which template strand (A or B) would there be continuous replication by DNA polymerase? What is this newly synthesized daughter strand called during DNA replication? ii) On which template strand (A or B) would there be discontinous replication by DNA polymerase? What is this newly synthesized ...
... i) On which template strand (A or B) would there be continuous replication by DNA polymerase? What is this newly synthesized daughter strand called during DNA replication? ii) On which template strand (A or B) would there be discontinous replication by DNA polymerase? What is this newly synthesized ...
dna notes - TinyURL.com
... (1) Sides of ladder are made up of _______________________________________ (2) Sides are connected by ______________ bases (steps to the ladder) (3) __________________________ - another word for twisted ladder ...
... (1) Sides of ladder are made up of _______________________________________ (2) Sides are connected by ______________ bases (steps to the ladder) (3) __________________________ - another word for twisted ladder ...
Document
... • Ribosome made of rRNA & protein • mRNA binds to small subunit • 1st amino acid is always AUG (start codon) = Met • In cytoplasm there are 64 different molecules of tRNA each with a specific triplet anticodon. ...
... • Ribosome made of rRNA & protein • mRNA binds to small subunit • 1st amino acid is always AUG (start codon) = Met • In cytoplasm there are 64 different molecules of tRNA each with a specific triplet anticodon. ...
Biology 12 - The Molecular Basis of Inheritance
... In RNA, the base _______________ is replaced with the base _______________. ...
... In RNA, the base _______________ is replaced with the base _______________. ...
File
... around each other. This structure is called a double __________________. 6. The number and order (sequence) of bases on each gene determine the exact structure of the ___________________ “coded” by that gene. Each chromosome contains thousands of genes, each one controlling the structure of one prot ...
... around each other. This structure is called a double __________________. 6. The number and order (sequence) of bases on each gene determine the exact structure of the ___________________ “coded” by that gene. Each chromosome contains thousands of genes, each one controlling the structure of one prot ...
Chapter 24
... and cytosine, while RNA substitutes uracil for thymine. You aren’t responsible for the structures of the individual bases, but you should remember which bases are associated with which nucleic acid. The base always attaches at the aldol carbon. You should know the difference between ribose and deox ...
... and cytosine, while RNA substitutes uracil for thymine. You aren’t responsible for the structures of the individual bases, but you should remember which bases are associated with which nucleic acid. The base always attaches at the aldol carbon. You should know the difference between ribose and deox ...
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.